Global online brochure 72014 by ZMDI

Power Management Power and Precision

Mobile Sensing Smart and Mobile

Automotive ASICs and Industrial ASSPs Multi-Functional and Robust

Battery Management Adaptive and Efficient

Multi-Market Sensing Precise and Deliberate

ÂŽ

pink is the new green enabling energy efficient solutions

â&#x20AC;&#x201C; 50 Years of Growth and Innovation Sensing Solutions Digital and Analog Power Management Automotive ASICs and Industrial ASSPs

ZMDI - At a Glance Zentrum Mikroelektronik Dresden AG (ZMDI) is a global, innovation-driven, customer-focused enterprise delivering high-performance analog and mixed signal semiconductor solutions for over 50 years. The ZMDI difference is that we partner fully throughout the development of innovative analog and digital power and sensing technologies, expertly exploring your unique system requirements, solving design challenges, and then collaboratively designing and delivering subsystem and/or architectural solutions. ZMDI’s solutions enable our customers to create the most energy-efficient products for sensors, power management, and lighting.

• ZMDI is a global provider of energy-efficient mixed signal solutions • Over 50 years of system and applications knowhow applied to every customized and standard product • Turnkey solution delivery from specification to final product • Continuous strategic investment in talent and state-of-the-art engineering and test facilities • Long-term commitment to “1st-Time Right” strategy for IC development • High-level modeling for system simulation • Well-established record of excellence in serving an international customer base

Power and Precision

The PUMA exhibits power and precision in a flash but with minimal power consumption — just like ZMDI Power Management products. ZMDI power solutions provide proven reliability, and they are flexible, easy to use, high performance, easily optimized, and reusable.

Power Management Multi-Functional and Robust

Automotive ASICs and Industrial ASSP

The Chameleon is hardy enough to thrive in tough environments — similar to ZMDI’s robust and reliable products for automotive and industrial applications. Smart and Mobile

The HUMMINGBIRD is the fastest and most agile of birds while also being the most energy efficient. As an intelligent consumer of energy, the hummingbird best represents ZMDI‘s ICs for mobile sensing.

Mobile Sensing Precise and Deliberate

The Dragonfly quickly and accurately processes multiple analog signals in demanding environments – just like the precise measurements ZMDI sensor interface products make “on the fly.”

Multi-Market Sensing Adaptive and Efficient

Battery Management

The POLAR BEAR demonstrates the ability to store energy and moderate its internal systems to thrive in harsh and unforgiving climates – critical elements that ZMDI Battery Management devices provide in conserving energy through precise predictions of battery requirements and conditions, enabling optimized usage and extended lifetime of the battery.

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ZMDI - Making A Positive Impact As a result of ZMDI’s leadership in energy-efficient solutions for automotive, industrial, and mobile applications, we have been honored with prestigious awards. We were selected as a finalist in the EE Times and EDN Annual Creativity in Electronics (ACE) Awards 2014 for the ”Energy Technology Award“ for our ZSSC1956 Intelligent Battery Monitoring Solution, as well as for the ”The Marketing Team of the Year“ for our marketing campaigns. In 2012 as well as 2013, we received the Green Apple Award for products that contribute to “passive” energy savings. ZMDI was honored with the “Best Company for Innovation and Sustainability Award” (regional) by the International Alternative Investment Review (IAIR) for 2013. In 2012, we received the “Innovative Enterprise of the Year 2012” presented by the president of Bulgaria. Frost & Sullivan have recognized us with the 2012 Europe Frost & Sullivan New Product Innovation Award for our innovative battery-monitoring device.

For over 50 years, we have offered our customers high-quality products and services at great value

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Battery Management Adaptive and Efficient

Multi-Market Sensing Precise and Deliberate

速

pink is the new green enabling energy efficient solutions

Multi-Market Sensing from Highly efficient, high value application-specific and standard product sensor signal conditioners

Easy-to-Use Sensor Signal Conditioner ICs from ZMDI Designing sensor interfaces can be quite challenging and time consuming, and producing them in volume is often expensive due to long test cycles on costly production test equipment. ZMDI SSC ICs facilitate both design and production of sensor interfaces by providing programmable, highly accurate, wide gain and quantization functions combined with powerful, high-order digital correction and linearization algorithms. ZMDI Sensor Signal Conditioner ICs are all-in-one, energy-efficient products that are easy to use and are supported by advanced software and expert technical support staff with extensive sensor system design experience. A distinct advantage of our correction algorithms is that they are calibrated and programmed in an efficient “single-pass” operation that lowers costs by reducing test time and loading of production test equipment without sacrificing precision. ZMDI Sensor Signal Conditioner ICs also lower total system costs by simplifying sensor design with our excellent support tools, reducing external components, minimizing board space, and providing a faster migration to production. ZMDI Sensor Signal Conditioning ICs enable you to get it right – on the first pass!

global technology company with over 50 years of success designing semiconductor solutions that enable our

Typical Applications Highly efficient, high value application-specific and standard product sensor signal conditioners: • • • • •

is a leading-edge

Humidity Pressure Flow Position Applications across multiple growth markets

customers to create energyefficient products

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Product Name

Adjustable Analog Gain Values

ADC Resolution

Sample Rate

Temperature Compensation / Ext.Temperature Sensor

Interface Options (Note: I2C™ is a trademark of NXP)

Resistive Resistive Automotive AEC Q-100 Qualified

ZSC31010

6 / 12 / 24 / 48

14 Bit

Up to 1.0kHz

/ -

Ratiometric Voltage Absolute Voltage 0 to 1V or 5V ZACwire™

ZSC31014

1.5 / 3 / 6 / 12 / 24 / 48 / 96 / 192

14 Bit

Up to 2.0kHz

/ -

I²C™ & SPI

ZSC31015

6 / 24 / 48 / 96

14 Bit

Up to 1.0kHz

/ 

Ratiometric Voltage Absolute Voltage 0 to 1V or 5V ZACwire™ (12-Bit DAC)

ZSSC3016

13.2 to 72

16 Bit

Up to 175Hz

/ -

I²C™ & SPI

ZSSC3026

13.2 to 72

16 Bit

Up to 175Hz

/ -

I²C™ & SPI

ZSSC3027

13.2 to 72

16 Bit

Up to 175Hz

/ -

I²C™ & SPI

ZSSC3036

13.2 to 72

16 Bit

Up to 325Hz

/ -

I²C™ & SPI

ZSC31050

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420

9 to 15 Bit

Up to 3.9kHz

/ 

Ratiometric or Absolute Voltage; 4mA to 20mA Two PWMs; Two Alarms; I²C™ & SPI & ZACwire™ (11-Bit DAC)

ZSC31150

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420

13 to 16 Bit

Up to 7.8kHz

/ 

Ratiometric 0 to 5V I²C™ & ZACwire™ (12-Bit DAC)

ZSSC3015

6 / 24 / 48 / 96

14 Bit

Up to 1.0kHz

/ 

Ratiometric Voltage Absolute Voltage 0 to 1V or 5V ZACwire™ (12-Bit DAC)

ZSSC3131

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105

13 to 14 Bit

Up to 200Hz

/ -

Ratiometric 0 to 5V I²C™ & ZACwire™ (12-Bit DAC)

ZSSC3135

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105

13 to 14 Bit

Up to 200Hz

/ 

Ratiometric 0 to 5V I²C™ & ZACwire™ (12-Bit DAC)

ZSSC3136

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105

13 to 14 Bit

Up to 200Hz

/ 

Ratiometric 0 to 5V I²C™ & ZACwire™ (12-Bit DAC)

ZSSC3138

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420

13 to 16 Bit

Up to 7.8kHz

/ -

Ratiometric 0 to 5V I²C™ & ZACwire™ (12-Bit DAC)

ZSSC3154

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420

14 Bit

Up to 2.0kHz

/ 

Dual Analog Out Ratiometric 0 to 5V I²C™ & ZACwire™ (12-Bit DAC)

ZSSC3170

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420

13 to 14 Bit

Up to 430Hz

/ 

PWM (12-Bit) LIN (1.3 / 2.0 / 2.1)

Capacitive

Input Capacitance Ranges in pF ZSSC3122

2 to 10

8 to 14 Bit

Up to 1.0kHz

/ -

I²C™ & SPI (only MISO) PDM (ratiometric analog output possible - RC filter) Two Alarms

ZSSC3123

2 to 8 8 to 32 32 to 130 130 to 260

8 to 14 Bit

Up to 1.0kHz

/ -

I²C™ & SPI (only MISO) PDM (ratiometric analog output possible - RC filter) Two Alarms

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Operation Temperature Range in °C

Supply Voltage in V DC

Current Consumption (see data sheet for conditions)

Package Options

-50 to +150

2.7 to 5.5 (>5.5V with ext. JFET)

0.25mA

SOP8 / Die

-40 to +125

2.7 to 5.5

-50 to +150

2.7 to 5.5 (>5.5V with ext. JFET)

-40 to +85

1.8 to 3.6

-40 to +110

1.8 to 3.6

-40 to +85

1.7 to 3.6

-40 to +110

1.8 to 3.6

-40 to +150 (depends on part number; see data sheet)

2.7 to 5.5 (>5.5V with ext. JFET)

70µA

(2µA Sleep Mode)

250µA 900µA (40nA Sleep Mode at 25°C)

900µA (50nA Sleep Mode at <85C)

930µA

(20nA Sleep Mode)

900µA (20nA Sleep Mode at 85C)

SOP8 / Die

PQFN24 / Die

ZMDI‘s Sensor Signal Conditioner

Die

(SSC) ICs typically interface with two

Die

main sensor types: resistive bridges

SSOP16 / Die

allows selecting the optimal balance between price and performance

4.5 to 5.5

5.5mA

-50 to +150

2.7 to 5.5 (>5.5V with ext. JFET)

300µA

SOP8 / Die

-40 to +150

4.5 to 5.5

5.5mA

SSOP14 / Die

-40 to +150

4.5 to 5.5

5.5mA

SSOP14 / Die

-40 to +150

4.5 to 5.5

5.5mA

SSOP14 / Die

-40 to +150

4.5 to 5.5

5.5mA

SSOP14 / Die

-40 to +150

4.5 to 5.5

10mA

QFN32 / Die

-20 to +125

1.8 to 5.5

-40 to +125

2.3 to 5.5

and differential capacitors. For each

2.5mA

-40 to +150

7 to 18

Sensor Signal Conditioner Product Family

Die

SSOP14 / DFN14 / Die

-40 to +150

ZSSC/ZSC Selection Guide

7mA

(40µA Sleep Mode)

60µA

(1µA Sleep Mode)

60µA

(1µA Sleep Mode)

SSOP20/ Die

sensor type, further specialization

for the required operating voltage and

temperature

range,

gain,

resolution, input/output format, and qualification level. ZMDI‘s

SSC

compensation

ICs

offer

digital

sensor

offset,

sensitivity, temperature drift, and nonlinearity in wide operational

TSSOP14 / Die

temperature

ranges:

-50°C

+150°C (maximum range).

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ZSC31010

RBicLite™ Analog Output Sensor Signal Conditioner

ZSC31010

RBicLite™ Analog Output Sensor Signal Conditioner

Brief Description

Benefits

The ZSC31010 is a sensor signal conditioner integrated circuit, which enables easy and precise calibration of resistive bridge sensors via EEPROM. When mated to a resistive bridge sensor, it will digitally correct offset and gain with the option to correct offset and gain coefficients and linearity over temperature. A second-order compensation can be enabled for temperature coefficients of gain or offset or bridge linearity. The ZSC31010 communicates via ZMDI’s ZACwire™ serial interface to the host computer and is easily mass calibrated in a Windows® environment. Once calibrated, the output pin Sig™ can provide selectable 0 to 1 V, rail-to-rail ratiometric analog output, or digital serial output of bridge data with optional temperature data.

     

Available Support    

Features 

Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity



Accommodates differential sensor signal spans, from 3 mV/V to 105 mV/V



ZACwire™ One-Wire Interface (OWI)



Internal temperature compensation and detection via bandgap PTAT (proportional to absolute temperature)



Output options: rail-to-rail analog output voltage, absolute analog voltage, digital ZACwire™ OneWire Interface (OWI)



Optional sequential output of both temperature and bridge readings on ZACwire™ digital output



Fast response time, 1 ms (typical)



High voltage protection up to 30 V with external JFET



Chopper-stabilized true differential ADC



Buffered and chopper-stabilized output DAC

No external trimming components required Simple PC-controlled configuration and calibration via ZACwire™ One-Wire Interface High accuracy (±0.1% FSO @ -25 to 85°C; ±0.25% FSO @ -50 to 150°C) Single pass calibration – quick and precise Suitable for battery-powered applications Small SOP8 package

Development Kit available Mass Calibration Kit available Support for industrial mass calibration available Quick circuit customization possible for large production volumes

Physical Characteristics Supply voltage 2.7 to 5.5 V, with external JFET 5.5V to 30 V Current consumption depending on adjusted sample rate: 0.25 mA to 1 mA Wide operational temperature: –50 to +150°C

ZSC31010 Application Circuit – Digital Output Vsupply +4.5 to +5.5 V

VDD Bsink

Sig™

OUT/OWI

ZSC31010

VBP

10nF

Vgate VBN VSS

0.1µF

Ground

For more information, contact ZMDI via SSC@zmdi.com. © 2013 Zentrum Mikroelektronik Dresden AG — Rev. 2.91 — November 1, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZSC31010

RBicLite™ Analog Output Sensor Signal Conditioner

ZSC31010 Block Diagram

JFET (optional if supply is 2.7 to 5.5 V) S

0.1 F

Highly Versatile Applications in Many Markets Including       

2.7 to 5.5 V VDD

Temp. Reference

Industrial

5.5 V to 30 V

Vgate

VDD Regulator

RBicLITE™ ZSC31010

DAC

VBP

Building Automation

INMUX

VBN

Office Automation

PREAMP

ADC

OUTBUF

EEPROM

DSP

ZACwireTM Interface

Bsink optional

White Goods

Power Save

Automotive

POR Osc.

Portable Devices

0 V to 1 V SIGTM Ratiometric Rail-to-Rail OWI/ ZACwireTM 1nF

Analog Block

VSS

Digital Block

Your Innovative Designs

Rail-to-Rail Ratiometric Voltage Output Applications

Absolute Analog Voltage Output Applications JFET

Vsupply

+2.7 to +5.5 V 1 Bsink 2 VBP

VSS 8

1 Bsink

SIGTM 7

3 N/C

VDD 6

4 VBN

Vgate 5

Optional Bsink

VSUPPLY

ZSC31010

OUT

2 VBP

10 nF 0.1 F

Optional Bsink

Vsupply

+5.5 to +30 V

VSS 8 SIGTM 7

3 N/C

VDD 6

4 VBN

Vgate 5

OUT

10 nF

ZSC31010

0.1 F

Ground

Ordering Examples (Please see section 11 in the data sheet for additional options.) Sales Code

Description

Package

ZSC31010CEB

ZSC31010 Die — Temperature range: -50°C to +150°C

Unsawn on Wafer

ZSC31010CEC

ZSC31010 Die — Temperature range: -50°C to +150°C

Sawn on Wafer Frame

ZSC31010CEG1

ZSC31010 SOP8 (150 mil) — Temperature range: -50°C to +150°C

Tube: add “-T” to sales code Reel: add “-R”

ZSC31010KIT

ZSC31010 ZACwire™ SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples

Kit

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Zentrum Mikroelektronik Dresden AG, Korea Office U-space 1 Building 11th Floor, Unit JA-1102 670 Sampyeong-dong Bundang-gu, Seongnam-si Gyeonggi-do, 463-400 Korea Phone +82.31.950.7679 Fax +82.504.841.3026

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© 2013 Zentrum Mikroelektronik Dresden AG— Rev. 2.91 — November 1, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

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ZSC31014

RBiciLiteTM Digital Output Sensor Signal Conditioner

ZSC31014

RBiciLiteTM Digital Output Sensor Signal Conditioner

Brief Description

Benefits

The ZSC31014 is a CMOS integrated circuit for highly accurate amplification and analog-to-digital conversion of differential and half-bridge input signals. The ZSC31014 can compensate the meast nd st sured signal for offset, 1 and 2 order span, and 1 nd and 2 order temperature (Tco and Tcg). It is well suited for sensor-specific correction of bridge sensors. Digital compensation of signal offset, sensitivity, temperature drift, and non-linearity is accomplished via an internal digital signal processor running a correction algorithm with calibration coefficients stored in a non-volatile EEPROM.



The ZSC31014 is adjustable to nearly all piezoresistive bridge sensors. Measured and corrected bridge values are provided at digital output pins, 2 which can be configured as I C™* or SPI. The digital 2 I C™ interface can be used for a simple PCcontrolled calibration procedure to program calibration coefficients into an on-chip EEPROM. The calibrated ZSC31014 and a specific sensor are mated digitally: fast, precise, and without the cost overhead associated with trimming by external devices or laser trimming.

Available Support

The ZSC31014’s integrated diagnostics functions are well suited for safety-critical applications.

Features  

  

 

High accuracy (±0.1% FSO @ -25 to +85°C; ±0.25% FSO @ -40 to +125°C) nd 2 order charge-balancing analog-to-digital converter provides low noise, 14-bit data at sample rates exceeding 2kHz Fast power-up to data output response: 3ms at 4MHz Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity Eight programmable analog gain settings combine with a digital gain term; accommodates bridges with spans <1mV/V and high offset Internal temperature compensation for sensor correction and for corrected temperature output 48-bit customer ID field for module traceability

 

  

Simple PC-controlled configuration and single2 pass digital calibration via I C™ interface – quick and precise; SPI option for measurement mode Eliminates need for external trimming components On-chip diagnostic features add safety to the application (e.g., EEPROM signature, bridge connection checks, bridge short detection). Low-power Sleep Mode lengthens battery life Enables multiple sensor networks

Evaluation Kit Application Notes Mass Calibration Solution

Physical Characteristics     

Wide supply voltage capability: 2.7V to 5.5V Current consumption as low as 70μA depending on programmed sample rate Low-power Sleep Mode (<2μA @ 25°C) Operation temperature: -40°C to +125°C Small SOP8 package 2

ZSC31014 Application: I C™ Interface, Low-Power Bsink Option, Internal Temperature Correction Vsupply

ZSC31014 VSS BSINK

(2.7V to 5.5V)

VDD INT/SS

VBP

SDA/MISO

VBN

SCL/SCLK

0.1µF

GND

* I2C™ is a trademark of NXP.

For more information, contact ZMDI via SSC@zmdi.com. © 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.63 — December 10, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZSC31014

RBiciLiteTM Digital Output Sensor Signal Conditioner

ZSC31014 Block Diagram

0.1µF

RBiciLite™

Temperature

Reference

Sensor

Applications:

VBP

Medical: infusion pumps, blood pressure meters, air mattresses, apnea monitors

(2.7V - 5.5V)

POR/Oscillator

ZSC31014

Diagnostics

Industrial: building automation, data loggers, pressure meters, leak detection monitoring

VDD

VBN PreAmp

INMUX

14-Bit ADC

Optional Bsink

White Goods / Appliances: fluid level, refrigerant

Bsupply

Consumer: body monitors, portable monitors, desktop weather stations, bathroom scales, toys/games

EEPROM w/ Charge Pump & Checksum

DSP Core

INT/SS

I2C or SPI Interface

SDA/MISO SCL/SCLK

VSS

Application: Half-Bridge Voltage Measurement

Application: Generic Differential A2D Converter

Vsupply 5V

ZSC31014

ZSC31014 e.g. HIH4000

VSS

VSS BSINK

VDD

Differential Signal from Any Source

BSINK INT/SS O VBP SDA/MISO U VBN T/

SCL/SCLK

V Supply

VDD INT/SS

VBP

SDA/MISO

VBN

SCL/SCLK 0 .1 µF

0.1µF

GND

Ordering Examples (Refer to section 10 in the data sheet for additional options.) Sales Code

Description

Package

ZSC31014EAB

ZSC31014 Die — Temperature range: -40°C to +125°C

Unsawn on Wafer

ZSC31014EAC

ZSC31014 Die — Temperature range: -40°C to +125°C

Sawn on Wafer Frame

ZSC31014EAG1

ZSC31014 SOP8 (150 mil) — Temperature range: -40° to +125°C

Tube: add “-T” to sales code / Reel: add “-R”

ZSC31014KIT

ZSC31014 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples (software can downloaded on www.zmdi.com/zsc31014)

Kit

Sales and Further Information

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

www.zmdi.com Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.63 — December 10, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSC31015

RBicdLite™ Analog Output Sensor Signal Conditioner w/ Diagnostic Features

ZSC31015

RBicdLite™ Analog Output Sensor Signal Conditioner w/ Diagnostic Features

Brief Description

Benefits

The ZSC31015 is adjustable to nearly all piezoresistive bridge sensors. Measured and corrected bridge values are provided at the SIG™ pin, which can be configured as an analog voltage output or as a one-wire serial digital output.



No external trimming components required



Simple PC-controlled configuration and calibration via one-wire interface



The digital one-wire interface (OWI) can be used for a simple PC-controlled calibration procedure to program a set of calibration coefficients into an on-chip EEPROM. The calibrated ZSC31015 and a specific sensor are mated digitally: fast, precise, and without the cost overhead associated with trimming by external devices or laser. Integrated diagnostics functions make the ZSC31015 particularly well suited for automotive applications.*

High accuracy: ±0.1% FSO @ -25 to 85°C; ±0.25% FSO @ -50 to 150°C



Single-pass calibration – quick and precise

Features  



    

   

Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity Programmable analog gain and digital gain; accommodates bridges with spans < 1mV/V and high offset Many diagnostic features on chip (e.g., EEPROM signature, bridge connection checks, bridge short detection, power loss detection) Independently programmable high and low clipping levels 24-bit customer ID field for module traceability Internal temperature compensation reference (no external components) Option for external temperature compensation with addition of single diode Output options: rail-to-rail ratiometric analog voltage (12-bit resolution), absolute analog voltage, digital one-wire interface Fast power-up to data out response; output available 5ms after power-up Current consumption depends on programmed sample rate: 1mA down to 250A (typical) Fast response time: 1ms (typical) High voltage protection up to 30V with external JFET

Available Support 

Evaluation Kit available



Mass Calibration System available Support for industrial mass calibration available

 

Quick circuit customization possible for large production volumes

Physical Characteristics 

Wide operation temperature: –50°C to +150°C



Supply voltage 2.7 to 5.5V; with external JFET, 5.5 to 30V



Small SOP8 package

ZSC31015 Application Circuit Vsupply

+2.7 to +5.5 V

VDD SIG™

OUT/OWI

ZSC31015

VBP

Vgate VBN VSS

0.1 F Ground

* Not AEC-Q100-qualified.

For more information, contact ZMDI via SSC@zmdi.com.

Visit .com for more detailed information

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 2.11— December 11, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSC31015

RBicdLite™ Analog Output Sensor Signal Conditioner w/ Diagnostic Features

ZSC31015 Block Diagram

JFET1 (Optional if supply is 2.7 to 5.5 V) S

0.1 F

Highly Versatile Applications in Many Markets Including       

Industrial Building Automation Office Automation White Goods Automotive * Portable Devices Your Innovative Designs

VDD (2.7 to 5.5 V)

Sensor Diagnostics

PTAT

Temperature Reference

Vgate

VDD Regulator

VBP

INMUX

PREAMP

Power Save

EEPROM with Charge Pump

Ext Temp (Optional)

Bsink

POR/Oscillator Analog Block Digital Block

RBicdLite

12-Bit DAC

ZSC31015

VBN Optional Ext. Diode for Temp

5.5 V to 30 V VSUPPLY

14-Bit ADC Digital Core

SIGTM

0 V to 1 V Ratiometric Rail-to-Rail OWI/ZACwireTM

OUTBUF1

ZACwireTM Interface

Power Lost Diagnostic

VSS

* Not AEC-Q100-qualified.

Rail-to-Rail Ratiometric Voltage Output Applications

Absolute Analog Voltage Output Applications BSS169

Vsupply

+2.7 to +5.5 V 1 Bsink

VSS 8

2 VBP

SigTM 7

3 ExtTemp 4 VBN

VSS 8

2 VBP

SigTM 7

3 ExtTemp

VDD 6 Vgate 5

4 VBN

0.1 F

ZSC31015

Optional Bsink

OUT

1 Bsink

Optional Bsink

Vsupply +5.5 to +30 V

OUT

VDD 6 Vgate 5 0.1 F

ZSC31015

Ground

Ordering Examples (See section 11 of the data sheet for additional temperature range options.) Sales Code

Description

Package

ZSC31015EEB

ZSC31015 Die — Temperature range: -50°C to +150°C

Unsawn on Wafer

ZSC31015EEC

ZSC31015 Die — Temperature range: -50°C to +150°C

Sawn on Wafer Frame

ZSC31015EEG1

ZSC31015 SOP8 (150 mil) — Temperature range: -50°C to +150°C

Tube: add “-T” to sales code. Reel: add “-R”

ZSC31015KIT

ZSC31015 ZACwire™ SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples (SOP8 150mil)

Kit

(ZACwire™ SSC Evaluation Software can be downloaded from www.zmdi.com/zsc31015)

Sales and Further Information

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

www.zmdi.com Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 2.11 — December 11, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSC31150 ZSC31150

FastAutomotive Automotive Sensor Signal Conditioner Fast Sensor Signal Conditioner

ZSC31050

Advanced Differential Sensor Signal Conditioner

Brief BriefDescription Description

Benefits Benefits

The TheZSC31150 ZSC31150is isa aCMOS CMOSintegrated integratedcircuit circuitforfor highly highlyaccurate accurateamplification amplificationand andsensor-specific sensor-specific correction correctionof ofbridge bridgesensor sensorsignals. signals.Digital Digitalcomcompensation pensationof ofsensor sensoroffset, offset,sensitivity, sensitivity,temperature temperature drift, is is accomplished viavia anan interdrift,and andnon-linearity non-linearity accomplished internal running a correction nal16-bit 16-bitRISC RISCmicrocontroller microcontroller running a correction algorithm, in in anan algorithm,with withcalibration calibrationcoefficients coefficientsstored stored EEPROM. EEPROM.

 NoNo external trimming components required external trimming components required

Features Features

  Digital compensation of of sensor offset, sensitivity, Digital compensation sensor offset, sensitivity,

temperature drift, and non-linearity temperature drift, and non-linearity

  Adjustable to to nearly allall bridge sensor types Adjustable nearly bridge sensor types   Analog gain of up to 420 Analog gain of up to 420

  Output options: ratiometric analog voltage output Output options: ratiometric analog voltage output         

(5% toto 95% maximum, 12.4-bit resolution) or or (5% 95% maximum, 12.4-bit resolution) ZACwire™ (digital one-wire-interface) ZACwire™ (digital one-wire-interface) Temperature compensation: internal or or external  Temperature compensation: internal external diode, bridge resistance, thermistor diode, bridge resistance, thermistor biasing byby voltage or or constant current  Sensor Sensor biasing voltage constant current Sample rate: up to 7.8kHz  Sample rate: up to 7.8kHz voltage protection upup to to 33V  High High voltage protection 33V Supply current: max. 5.5mA  Supply current: max. 5.5mA Reverse polarity and short-circuit protection  Reverse polarity and short-circuit protection Wide operation temperature depending on part  Wide operation temperature depending on part number: upup to to -40 to to +150°C number: -40 +150°C Traceability by user-defined EEPROM entries  Traceability by user-defined EEPROM entries Safety and diagnostic functions  Safety and diagnostic functions

* I²C™ is a trademark of NXP. * I²C™ is a trademark of NXP.

 PC-controlled configuration andand single pass PC-controlled configuration single pass

calibration viavia I²C™ or ZACwire™ interface: calibration I²C™ or ZACwire™ interface: simple, cost efficient, quick, and precise simple, cost efficient, quick, and precise  End-of-line calibration viavia I²C™ or ZACwire™ End-of-line calibration I²C™ or ZACwire™ interface interface  High accuracy (0.25% FSO @@ -25-25 to 85°C; 0.5% High accuracy (0.25% FSO to 85°C; 0.5% FSO @ -40 to 125°C) FSO @ -40 to 125°C)  Excellent EMC/ESD robustness andand AEC-Q100 Excellent EMC/ESD robustness AEC-Q100 qualification qualification

Available Support Available Support  Evaluation Kits Evaluation Kits  Application Notes Application Notes

 Mass Calibration System Mass Calibration System

Physical Characteristics Physical Characteristics

 Supply voltage: 4.54.5 to 5.5 V V Supply voltage: to 5.5  Operation temperature: -40°C to 125°C Operation temperature: -40°C to 125°C

(-40°C to +150°C de-rated, depending on on (-40°C to +150°C de-rated, depending product version) product version)  Available as as DFN14 (5mm x 4mm; wettable Available DFN14 (5mm x 4mm; wettable flanks), SSOP14, and die (3.84mm x 2.30mm) flanks), SSOP14, and die (3.84mm x 2.30mm) ZSC31150 Application Circuit ZSC31150 Application Circuit Out / OWI Out / OWI

C3 47nF

Sensor Bridge Sensor Bridge

C3 47nF

VDDE 7 VDDE

9 AOUT 9 AOUT

VDD 6 VDD

10 VBN 10 VBN

C5 C4

C2 100nF

8 VSSE 8 VSSE

ZSC31150 ZSC31150

The ZSC31150 is is adjustable to to nearly allall bridge senThe ZSC31150 adjustable nearly bridge sensor types. Measured values are provided at sor types. Measured values are provided atthethe analog analogvoltage voltageoutput outputor orat atthethedigital digitalZACwire™ ZACwire™ and andI²C™* I²C™*interface. interface.The Thedigital digitalinterface interfacecan canbebe used usedforfora asimple simplePC-controlled PC-controlledcalibration calibrationproceprocedure in order to program a set of calibration coeffidure in order to program a set of calibration coefficients specific sensor cientsinto intoananon-chip on-chipEEPROM. EEPROM.A A specific sensor and a ZSC31150 can be mated digitally: and a ZSC31150 can be mated digitally:fast, fast, precise, associated precise,and andwithout withoutthethecost costoverhead overhead associated with trimming byby external devices or or a laser. with trimming external devices a laser.

 Only a few external protection devices needed Only a few external protection devices needed

n.c. 5 n.c.

11 VBR_B 11 VBR_B

SCL 4 SCL

12 VBP 12 VBP

SDA 3 SDA 3

13 VBR_T 13 VBR_T

VSSA 2 VSSA 2

14 IRTEMP 14 IRTEMP

VDDA 1 VDDA 1

GND C2 100nF

VSUPP

+4.5V to +5.5V +4.5V to +5.5V

SCL SDA

C1 100nF

SCL

GND VSUPP

Serial Interface Serial Interface

SDA

C1 100nF

Temperature Sensor Temperature Sensor

For more information, contact ZMDI via SSC@zmdi.com. For more information, contact ZMDI via SSC@zmdi.com.

Visit .com for more detailed information

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.20— April 30, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, © 2014 Zentrum Mikroelektronik —copyright Rev. 2.20— April 30,information 2014 All rights reserved. materialiscontained maywithout not benotice. reproduced, adapted, merged, translated, stored, or used without the prior writtenDresden consent AG of the owner. The furnished in thisThe publication subject toherein changes stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSC31050

Advanced Differential Sensor Signal Conditioner

ZSC31050 Block Diagram Ext. Temp. Sens.

IR_TEMP

CTRL-REGS

VBR Gain Factor

VINP



VINN

PGA

Temp. Sens. Select

MUX

SIF PCOMP

ADC Mode Offset Shift

RAM

ADC

CMC

Analog Front-End (AFE)

SCL SDA

EEPROM

DAC

FIO1

OUT / OWI

PWM

FIO2

IO1 IO2

Int. Temp. Sensor

External Temperature Sensor

Digital Section

Sensor Bridge

Typical Applications:

Interfaces

IN3

Consumer Goods     

Weight scales Flow meters Strain gauges Load meters HVAC

Industrial Applications   

4-20mA transmitters Intelligent sensor networks Process automation Factory automation

Portable Devices  

Automotive Sensors*

Altimeters Blood pressure monitors

  

Oil pressure Temperature sensing Strain gauges

* AEC-Q100 qualified

Ordering Information (Please refer to section 8 in the data sheet for additional options.) Product Sales Code

Description

Package

ZSC31050FEB

ZSC31050 Die — Temperature range: -40°C to +150°C

Unsawn on Wafer

ZSC31050FEC

ZSC31050 Die — Temperature range: -40°C to +150°C

Sawn on Wafer Frame

ZSC31050 SSOP-16 — Temperature range: -40°C to +150°C

Tube: add “-T” to sales code Reel: add “-R”

ZSC31050KIT Evaluation Kit V3.0

Modular ZSC31050 SSC Evaluation Kit: three interconnecting boards, five ZSC31050 SSOP-16 samples

Kit

ZSC31050 Mass Calibration System V1.1

Modular Mass Calibration System (MSC) for ZSC31050: MCS boards, cable, connectors

Kit

ZSC31050FEG1

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.306 Fax +49.351.8822.337

USA Phone 1.855.275.9634 Phone +1.408.883.6310 Fax +1.408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — May 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

Products available at

On-Line Store

ZSC31150 ZSC31150

FastAutomotive AutomotiveSensor SensorSignal SignalConditioner Conditioner Fast

ZSC31150

Fast Automotive Sensor Signal Conditioner

Brief BriefDescription Description

Benefits Benefits

The The ZSC31150 ZSC31150isisa aCMOS CMOSintegrated integratedcircuit circuitforfor highly highly accurate accurate amplification amplification and and sensor-specific sensor-specific correction correction ofof bridge bridge sensor sensorsignals. signals.Digital Digitalcomcompensation pensationofofsensor sensoroffset, offset,sensitivity, sensitivity,temperature temperature drift, drift,and andnon-linearity non-linearityisisaccomplished accomplishedvia viaananinterinternal nal16-bit 16-bitRISC RISCmicrocontroller microcontrollerrunning runninga acorrection correction algorithm, algorithm,with withcalibration calibrationcoefficients coefficientsstored storedininanan EEPROM. EEPROM.

  NoNo external trimming components required external trimming components required

Features Features

  Digital Digitalcompensation compensationofofsensor sensoroffset, offset,sensitivity, sensitivity,   

        

   

temperature temperaturedrift, drift,and andnon-linearity non-linearity Adjustable to nearly all bridge Adjustable to nearly all bridgesensor sensortypes types Analog Analoggain gainofofupuptoto420 420 Output Outputoptions: options:ratiometric ratiometricanalog analogvoltage voltageoutput output (5% (5%toto95% 95%maximum, maximum,12.4-bit 12.4-bitresolution) resolution)oror ZACwire™ ZACwire™(digital (digitalone-wire-interface) one-wire-interface) Temperature Temperaturecompensation: compensation:internal internalororexternal external diode, bridge resistance, thermistor diode, bridge resistance, thermistor Sensor Sensorbiasing biasingbybyvoltage voltageororconstant constantcurrent current Sample rate: up to 7.8kHz Sample rate: up to 7.8kHz High Highvoltage voltageprotection protectionupuptoto33V 33V Supply current: max. 5.5mA Supply current: max. 5.5mA Reverse Reversepolarity polarityand andshort-circuit short-circuitprotection protection Wide Wideoperation operationtemperature temperaturedepending dependingononpart part number: up to -40 to +150°C number: up to -40 to +150°C Traceability by user-defined EEPROM entries Traceability by user-defined EEPROM entries Safety and diagnostic functions Safety and diagnostic functions

* I²C™ is a trademark of NXP. * I²C™ is a trademark of NXP.

  PC-controlled configuration and single pass PC-controlled configuration and single pass

calibration viavia I²C™ oror ZACwire™ interface: calibration I²C™ ZACwire™ interface: simple, cost efficient, quick, and precise simple, cost efficient, quick, and precise   End-of-line calibration viavia I²C™ or or ZACwire™ End-of-line calibration I²C™ ZACwire™ interface interface   High accuracy (0.25% FSO @@ -25-25 to to 85°C; 0.5% High accuracy (0.25% FSO 85°C; 0.5% FSO @ -40 to 125°C) FSO @ -40 to 125°C)   Excellent EMC/ESD robustness and AEC-Q100 Excellent EMC/ESD robustness and AEC-Q100 qualification qualification

Available AvailableSupport Support   Evaluation Kits Evaluation Kits   Application Notes Application Notes

  Mass Calibration System Mass Calibration System

Physical PhysicalCharacteristics Characteristics

  Supply voltage: 4.5 to to 5.55.5 VV Supply voltage: 4.5   Operation temperature: -40°C to to 125°C Operation temperature: -40°C 125°C

(-40°C toto +150°C de-rated, depending onon (-40°C +150°C de-rated, depending product version) product version)   Available asas DFN14 (5mm x 4mm; wettable Available DFN14 (5mm x 4mm; wettable flanks), SSOP14, and die (3.84mm x 2.30mm) flanks), SSOP14, and die (3.84mm x 2.30mm) ZSC31150 Application Circuit ZSC31150 Application Circuit Out / OWI Out / OWI

Sensor Bridge Sensor Bridge

C3 47nF C3 47nF

8 VSSE 8 VSSE

VDDE 7 VDDE

9 AOUT 9 AOUT

VDD 6 VDD

n.c. 5 n.c.

11 VBR_B 11 VBR_B

SCL 4 SCL

12 VBP 12 VBP

SDA 3 SDA 3

10 VBN 10 VBN

C5 C4

ZSC31150 ZSC31150

The TheZSC31150 ZSC31150isisadjustable adjustabletotonearly nearlyallallbridge bridgesensensor sor types. types. Measured Measuredvalues valuesare areprovided providedatatthe the analog analogvoltage voltageoutput outputororatatthe thedigital digitalZACwire™ ZACwire™ and andI²C™* I²C™*interface. interface.The Thedigital digitalinterface interfacecan canbebe used for a simple PC-controlled calibration proceused for a simple PC-controlled calibration procedure dureininorder ordertotoprogram programa aset setofofcalibration calibrationcoefficoefficients cientsinto intoan anon-chip on-chipEEPROM. EEPROM.AAspecific specificsensor sensor and and aa ZSC31150 ZSC31150 can can bebe mated mated digitally: digitally: fast, fast, precise, and without the cost overhead associated precise, and without the cost overhead associated with withtrimming trimmingbybyexternal externaldevices devicesorora alaser. laser.

  Only a few external protection devices needed Only a few external protection devices needed

13 VBR_T 13 VBR_T

VSSA 2 VSSA 2

14 IRTEMP 14 IRTEMP

VDDA 1 VDDA 1

C2 100nF C2 100nF

GND GND

+4.5V to +5.5V +4.5V to +5.5V

SCL SDA

SCL

VSUPP VSUPP

Serial Interface Serial Interface

SDA

C1 100nF C1 100nF

Temperature Sensor Temperature Sensor

For more information, contact ZMDI via SSC@zmdi.com. For more information, contact ZMDI via SSC@zmdi.com.

Visit .com for more detailed information

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.20— April 30, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, © 2014 Mikroelektronik Dresden — Rev. 2.20— AprilThe 30, information 2014 All rights reserved. The material contained herein may without not be reproduced, adapted, merged, translated, stored, or Zentrum used without the prior written consentAG of the copyright owner. furnished in this publication is subject to changes notice. stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSC31150

Fast Automotive Sensor Signal Conditioner

ZSC31150 Block Diagram

PGA

MUX

RAM

ADC

TS Analog Block

ZACwire™ I2C™

EEPROM

CMC

DAC

ROM

Digital Data I/O Analog Out

BAMP

ZSC31150

Digital Block

Ordering Information Sales Code

Description

Package

ZSC31150GE

ZSC31150 Die, 3.84mmx2.30mm — Temperature range: -40°C to +150°C

Unsawn on Wafer: add “B” to sales code Sawn on Wafer Frame: add “C” Waffle Pack: add “D”

ZSC31150GEG2-R

ZSC31150 DFN14 (5mmx4mm; wettable flanks) —Temperature range: -40°C to 150°C

Tape & Reel

ZSC31150GAG2-R

ZSC31150 DFN14 (5mmx4mm; wettable flanks) —Temperature range: -40°C to 125°C

Tape & Reel

ZSC31150GEG1

ZSC31150 SSOP14—Temperature range: -40°C to +150°C

ZSC31150GLG1

ZSC31150 SSOP14—Temperature range: -40°C to +150°C (Long life: 5000h @150°C)

Tube: add “-T” to sales code Tape & Reel: add “-R”

ZSC31150GAG1

ZSC31150 SSOP14—Temperature range: -40°C to +125°C

ZSC31150KIT Evaluation Kit V1.0

ZSC31150 SSC Evaluation Kit: three interconnecting boards, five ZSC31150 SSOP14 samples, USB cable (software can be downloaded from product page at www.zmdi.com/zsc31150)

ZSC31150 Mass Calibration System V1.1

Modular Mass Calibration System (MSC) for ZSC31150: MCS boards, cable, connectors (software can be downloaded from product page)

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.306 Fax +49.351.8822.337

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.20— April 30, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSSC3015 ZSSC3015 ZSSC3015 RBic RBic ™™Sensor SensorSignal SignalConditioner Conditionerwith withDiagnostics Diagnostics dLite-Auto dLite-Auto

RBicdLite-Auto™ Sensor Signal Conditioner with Diagnostics

ZSSC3015

RBicdLite-Auto™ Sensor Signal Conditioner with Diagnostics

Brief BriefDescription Description Brief Description

The TheZSSC3015 ZSSC3015sensor sensorsignal signalconditioner conditionerisisadjustadjustThe sensor signal conditioner adjustable ableZSSC3015 totonearly nearlyall allpiezo-resistive piezo-resistive bridge bridgeissensors. sensors. able to nearly all piezo-resistive bridge sensors. Measured Measured and andcorrected corrected bridge bridgevalues values are areprovided provided Measured and corrected bridge values are provided atatthe theSig™ Sig™pin, pin,which whichcan canbebeconfigured configuredasasanan atanalog the Sig™ pin, which can configured an analog voltage voltage output output ororas asa abe one-wire one-wire serial serialas digital digital analog voltage output or as a one-wire serial digital output. output. output. The TheZACwire™ ZACwire™digital digitalone-wire one-wireinterface interface(OWI) (OWI)can can The ZACwire™ one-wire interface (OWI) can be be used used for for adigital a simple simple PC-controlled PC-controlled calibration calibration be used to for a simple PC-controlled calibration procedure procedure toprogram program a aset set ofofcalibration calibrationcoefficients coefficients procedure to program a set of calibration coefficients into intoananon-chip on-chipEEPROM. EEPROM.The Thecalibrated calibratedZSSC3015 ZSSC3015 into EEPROM. The calibrated ZSSC3015 and andan a aon-chip specific specific sensor sensor are are mated mated digitally: digitally: fast, fast, and a specific sensor mated digitally: fast, precise, precise, and andwithout without the theare cost cost overhead overhead associated associated precise, and without the devices cost overhead associated with withtrimming trimming bybyexternal external devices ororlaser. laser. Integrated Integrated with trimming by external devices or laser. Integrated diagnostics diagnosticsfunctions functionsmake makethe theZSSC3015 ZSSC3015 ICICpartipartidiagnostics functions make the ZSSC3015 IC particularly cularlywell wellsuited suitedfor forautomotive automotive applications. applications. cularly well suited for automotive applications.

Features Features Features

  Digital Digitalcompensation compensationofofsensor sensoroffset, offset,sensitivity, sensitivity,  Digital compensation of sensor offset, sensitivity, temperature temperaturedrift, drift,and andnonlinearity nonlinearity

temperature drift, and nonlinearity

  Programmable Programmableanalog analoggain gainand anddigital digitalgain; gain;  Programmable analog gain and digital gain; accommodates accommodatesbridges bridgeswith withspans spans< <1mV/V 1mV/V                      

accommodates and andhigh highoffset offsetbridges with spans < 1mV/V and high offset features Many Many diagnostic diagnostic featuresononchip chip(e.g., (e.g.,EEPROM EEPROM Many diagnostic features on chip (e.g., EEPROM signature, signature,bridge bridge connection connection checks, checks, bridge bridge short short signature, bridge connection checks, bridge short detection, detection,power powerloss lossdetection) detection) detection, power loss detection) Independently Independently programmable programmable high highand andlow low Independently clipping clippinglevels levelsprogrammable high and low clipping levels IDIDfield 24-bit 24-bitcustomer customer fieldfor formodule moduletraceability traceability 24-bit customer ID field for module traceability Internal Internaltemperature temperaturecompensation compensationreference reference(no (no Internal temperature compensation reference (no external external components) components) external components) Option Optionfor forexternal externaltemperature temperaturecompensation compensation Option for external temperature with withaddition addition ofofsingle single diode diode compensation with addition of single diode Output Output options: options: rail-to-rail rail-to-rail ratiometric ratiometricanalog analog Output options: rail-to-rail ratiometric analog voltage voltage (12-bit (12-bitresolution), resolution), absolute absoluteanalog analog voltage (12-bit resolution), absolute voltage, voltage, ZACwire™ ZACwire™ digital digitalone-wire one-wireanalog interface interface voltage, ZACwire™ digital one-wire interface Fast Fastpower-up power-uptotodata dataout outresponse; response;output output Fast power-up toafter data out response; output available available 5ms 5msafter power-up power-up available 5ms after power-up Current Currentconsumption consumption depends dependsononprogrammed programmed Current consumption depends on programmed sample samplerate rateand andmode: mode: 1mA 1mAdown down toto300µA 300µA(typ.) (typ.) sample rate and mode: 1mA down to 300µA (typ.) Fast Fastresponse responsetime: time:1.4ms 1.4mstypical typical Fast time: 1.4ms typical High Highresponse voltage voltageprotection: protection: ≤ ≤30V 30Vwith withexternal externalJFET JFET High voltage protection: ≤ 30V with external JFET AEC-Q100 AEC-Q100qualified qualified AEC-Q100 qualified

Visit .com for more detailed information

Benefits Benefits Benefits

No Noexternal externaltrimming trimmingcomponents componentsrequired required No external trimming components required PC-controlled PC-controlledconfiguration configurationand andcalibration calibrationvia via PC-controlled configuration and calibration via ZACwire™ ZACwire™one-wire one-wire interface interface – –simple, simple,low low cost cost ZACwire™ one-wire interface – simple, low cost   High Highaccuracy accuracy(as (ashigh highasas±0.1% ±0.1%FSO FSO@@-25 -25toto  85°C; High accuracy (as high as FSO @ -25 to 85°C; ±0.25% ±0.25%FSO FSO @@-50 -50±0.1% toto150°C) 150°C) 85°C; ±0.25% FSO @ -50 to 150°C)   Single-pass Single-passcalibration calibration– –quick quickand andprecise precise  Single-pass calibration – quick and precise    

Available AvailableSupport Support Available Support        

Evaluation EvaluationKit Kitavailable available Evaluation Kit available Mass MassCalibration CalibrationSystem Systemavailable available Mass Calibration System available Support Supportfor forindustrial industrialmass masscalibration calibrationavailable available Support for industrial mass calibration available Quick Quickcircuit circuitcustomization customizationpossible possiblefor forlarge large Quick circuit customization possible for large production production volumes volumes production volumes

Physical PhysicalCharacteristics Characteristics Physical Characteristics

Wide Wideoperation operationtemperature: temperature:–50°C –50°Ctoto+150°C +150°C Wide operation temperature: –50°C to +150°C Supply Supplyvoltage voltage2.7 2.7toto5.5V; 5.5V;with withexternal externalJFET, JFET, Supply voltage 2.7 to 5.5V; with external JFET, 5.5 5.5toto30V 30V 5.5 to 30V   Small SmallSOP8 SOP8package package  Small SOP8 package    

ZSSC3015Application ApplicationCircuit Circuit ZSSC3015 ZSSC3015 Application Circuit

Vsupply Vsupply

Vsupply +2.7 +2.7 to to +5.5 +5.5 VV +2.7 to +5.5 V

VDD VDD VDD Sig™ Sig™

Sig™ ZSSC3015 ZSSC3015 ZSSC3015 VBP VBP

OUT/OWI OUT/OWI OUT/OWI

VBP

Vgate Vgate Vgate VBN VBN VBN VSS VSS VSS

FF 0.1 0.1 0.1 F Ground Ground Ground

For Formore moreinformation, information,contact contactZMDI ZMDIvia viaSSC@zmdi.com. SSC@zmdi.com. For more information, contact ZMDI via SSC@zmdi.com.

© 2013 © 2013 Zentrum Zentrum Mikroelektronik Mikroelektronik Dresden Dresden AGAG —— Rev. Rev. 1.11 1.11 —December —December 11,11, 2013 2013 AllAll rights rights reserved. reserved. The The material material contained contained herein herein may may notnot bebe reproduced, reproduced, adapted, adapted, merged, merged, translated, translated, stored, stored, or or used used without without the the prior prior written written consent of of the the copyright copyright owner. The The information furnished furnished this in this publication publication subject is subject to to changes changes without without notice. notice. © 2013 Zentrum Mikroelektronik Dresden AG —consent Rev. 1.11 —December 11,owner. 2013 Allinformation rights reserved. Thein material containedisherein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSSC3015

RBicdLite-Auto™ Sensor Signal Conditioner with Diagnostics

ZSSC3015 Block Diagram

JFET1 (Optional if supply is 2.7 to 5.5 V) S

0.1 F

Highly Versatile Applications in Many Markets Including

VDD (2.7 to 5.5 V)

Sensor Diagnostics

 Industrial  Building Automation

PTAT

Temperature Reference

Vgate

Voltage Reference

VBP Optional Ext. Diode for Temp

 White Goods

INMUX

PREAMP

Power Save

EEPROM with Charge Pump

ExtTemp (Optional)

Bsink

 Automotive

POR/Oscillator

 Portable Devices  Your Innovative Designs

Analog Block Digital Block

Rail-to-Rail Ratiometric Voltage Output Applications

RBicdLite-Auto

12-Bit DAC

ZSSC3015

VBN

 Office Automation

5.5 V to 30 V VSUPPLY

14-Bit ADC Digital Core

SigTM

ZACwireTM Interface

Power Lost Diagnostic

VSS

Absolute Analog Voltage Output Applications BSS169

Vsupply

+2.7 to +5.5 V 1 Bsink 2 VBP 3 ExtTemp 4 VBN

VSS 8 Sig

VDD 6

1 Bsink

VSS 8

2 VBP

SigTM 7

3 ExtTemp

Vgate 5

ZSSC3015

Optional Bsink

OUT

0 V to 1 V Ratiometric Rail-to-Rail OWI/ZACwireTM

OUTBUF1

Optional Bsink

Vsupply +5.5 to +30 V

OUT

VDD 6 Vgate 5

4 VBN

0.1 F

ZSSC3015

0.1 F

Ground

Part Ordering Examples (See section 11 in the data sheet for additional options.) Sales Code

Description

Package

ZSSC3015NE1B

ZSSC3015 Die — Temperature range: -50°C to +150°C

Unsawn on Wafer

ZSSC3015NE1C

ZSSC3015 Die — Temperature range: -50°C to +150°C

Sawn on Wafer Frame

ZSSC3015NE2T(R) ZSSC3015 SOP8 (150 mil) — Temperature range: -50°C to +150°C ZSSC3015KIT

ZSSC3015 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB cable, 5 IC samples, instructions for downloading SSC Evaluation Software

Sales and Further Information

Kit

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Tube: add “-T” to sales code. Reel: add “-R”

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.11—December 11, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSSC3131

Sensor Signal Conditioner for Cost-Optimized Switch Applications

ZSSC3131

Sensor Signal Conditioner for Cost-Optimized Switch Applications

Brief Description

Benefits

The ZSSC3131 is a member of the ZSSC313x product family of CMOS integrated circuits designed for automotive/ industrial sensor applications. All family members are well suited for highly-accurate amplification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure in an on-chip EEPROM.



The ZSSC3131 is optimized for simple switch and cost-sensitive sensor applications. The integrated adjustable digital filter enables building fast-switching real-time applications as well as stabilized applications for switching input signals that are unstable or disrupted.

Features 

     

Adjustable to nearly all resistive bridge sensor types: maximum analog gain of 105; maximum overall gain of 420 Sample rate up to 200 Hz ADC resolution 13/14 bit Internal temperature compensation Integrated adjustable digital filter Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity Output options: ratiometric analog voltage output (5 - 95% maximum, 12.4 bit resolution) or TM ZACwire (digital One-Wire Interface (OWI)) Sensor biasing by voltage High voltage protection up to 33 V Supply current: Max. 5.5mA Reverse polarity and short circuit protection Wide operation temperature range: -40 to +150°C Traceability by user-defined EEPROM entries 2

* Note: I C™ is a trademark of NXP. ** FSO = Full Scale Output.

  

 

Family approach offers the best fitting IC selection to build cost-optimized applications No external trimming components required Low number of external components needed PC-controlled configuration and One-Pass/ endof-line calibration via I²C™* or ZACwire™ interface: Simple, cost-efficient, quick, and precise High accuracy (0.25% FSO** @ -25 to +85°C; 0.5% FSO @ -40 to +125°C) Optimized for automotive/industrial environments due to robust protection circuitries, excellent electromagnetic compatibility, and AEC-Q100 qualification

Available Support   

Evaluation Kits Application Notes Mass Calibration System

Physical Characteristics  



Supply voltage 4.5 to 5.5 V Operation temperature: -40°C to +125°C (-40°C to +150°C extended temperature range depending on product version) Available in RoHS-compliant JEDEC-SSOP14 package or delivery as die

ZSSC3131 Minimum Application Requirements VCC Sensor Module

ZSSC3131

OUT

GND

For more information, contact ZMDI via SSC@zmdi.com. © 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.23 — April 15, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Visit .com for more detailed information

ZSSC3131

Sensor Signal Conditioner for Cost-Optimized Switch Applications

ZSSC3131 Switch Application Example Out

9 AOUT 10 VBN 11 VBR_B 12 VBP

VDD 6

ZSSC3131

Sensor Bridge

VDDE 7

VSUPP

+4.5V to +5.5V

VSUPP

n.c. 5 SCL 4

GND

R1 2kΩ

Out

SDA 3

13 VBR_T

VSSA 2

14 N.C.

VDDA 1

12 VSUPP 13 GPIO

µC

8 VSSE

C3 47nF

C2 100nF

14 GND

C1 100nF

Ordering Information (See data sheet section 8 for complete delivery options.) Product Sales Code

Description

Package

ZSSC3131BE1

ZSSC3131 die – tested; temperature range -40 to +150°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3131BA1

ZSSC3131 die – tested; temperature range -40 to +125°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3131BE2

ZSSC3131 SSOP14 – temperature range -40 to +150°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC3131BA2

ZSSC3131 SSOP14 – temperature range -40 to +125°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC313xKITV1.1

ZSSC313x Evaluation Kit, revision 1.1, including Evaluation Board, ZSSC3131 IC samples, USB cable (software can be downloaded from the product page www.zmdi.com/zssc3131)

Kit

ZSSC313x Mass Calibration System V1.1

Modular Mass Calibration System (MSC) for ZSSC313x including MCS boards, cable, connectors (software can be downloaded from the product page www.zmdi.com/zssc3131)

Kit

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.23 — April 15, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSSC3135

Sensor Signal Conditioner for Piezoresistive Bridge Sensors

ZSSC3135

Sensor Signal Conditioner for Piezoresistive Bridge Sensors

Brief Description

Benefits

The ZSSC3135 is a member of the ZSSC313x family of CMOS integrated circuits designed for automotive/industrial sensor applications. All family members are well suited for highly accurate amplification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure in an on-chip EEPROM.



The ZSSC3135 is specially designed for piezoresistive bridge sensor elements. The amplification stage with an analog gain of 105 in combination with optional temperature compensation via an external temperature sensor meets or exceeds the requirements of piezoresistive sensor applications.

Features 

     

Adjustable to nearly all resistive bridge sensor types: analog gain of up to 105, maximum overall gain of 420 Sample rate up to 200 Hz ADC resolution 13/14 bit Safety functionality sensor connection External temperature sensor Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity Output options: ratiometric analog voltage output (5 - 95% maximum, 12.4 bit resolution) or ZACwire™ (digital One-Wire Interface (OWI)) Sensor biasing by voltage High voltage protection up to 33 V Supply current: max. 5.5mA Reverse polarity and short circuit protection Wide operation temperature range: -40 to +150°C Traceability by user-defined EEPROM entries * Note: I2C™ is a trademark of NXP. ** FSO = Full Scale Output.

  

 

Family approach offers the best fitting IC selection to build cost-optimized applications No external trimming components required Low number of external components needed PC-controlled configuration and one-pass/ TM end-of-line calibration via I²C™* or ZACwire interface: simple, cost-efficient, quick, and precise High accuracy: 0.25% FSO** @ -25 to +85°C; 0.5% FSO @ -40 to +125°C Optimized for automotive/industrial environments due to robust protection circuitries, excellent electromagnetic compatibility and AEC-Q100 qualification

Available Support   

Evaluation Kits Application Notes Mass Calibration System

Physical Characteristics  



Supply voltage: 4.5 to 5.5 V Operation temperature: -40°C to +125°C (-40°C to +150°C extended temperature range depending on product version) Available in RoHS-compliant JEDEC-SSOP14 package or delivery as die

ZSSC3135 Minimum Application Requirements VCC Sensor Module

ZSSC3135

OUT

GND

For more information, contact ZMDI via SSC@zmdi.com. © 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.23—April 17, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZSSC3135

Sensor Signal Conditioner for Piezoresistive Bridge Sensors

ZSSC3135 Application Example Out / OWI

Sensor Bridge

8 VSSE

VDDE

9 AOUT

VDD

n.c.

SCL

SDA 3

SDA

10 VBN 11 VBR_B 12 VBP R1

ZSSC3135

C3 47nF

GND

C2 100nF

+4.5V to +5.5V

VSUPP

Serial Interface

13 VBR_T

VSSA 2

14 IRTEMP

VDDA 1

C1 100nF

Temperature Sensor

Ordering Information (See data sheet section 8 for complete delivery options.) Product Sales Code

Description

Package

ZSSC3135BE1

ZSSC3135 die – tested; temperature range -40 to +150°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3135BA1

ZSSC3135 die – tested; temperature range -40 to +125°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3135BE2

ZSSC3135 SSOP14 – temperature range -40 to +150°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC3135BA2

ZSSC3135 SSOP14 – temperature range -40 to +125°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC313xKITV1.1

ZSSC313x Evaluation Kit, revision 1.1 including Evaluation Board, ZSSC3135 IC samples, USB cable (software can be downloaded from the product page www.zmdi.com/zssc3135)

Kit

ZSSC313x Mass Calibration System V1.1

Modular Mass Calibration System (MSC) for ZSSC313x including MCS boards, cable, connectors (software can be downloaded from the product page www.zmdi.com/zssc3135)

Kit

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone: +49.351.8822.306 Fax: +49.351.8822.337

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.23—April 17, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSSC3136

Sensor Signal Conditioner for Safety Switch Applications

ZSSC3136

Sensor Signal Conditioner for Safety Switch Applications

Brief Description

Benefits

The ZSSC3136 is a member of the ZSSC313x family of CMOS integrated circuits for automotive/ industrial sensor applications. All family members are well suited for highly accurate amplification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure in an on-chip EEPROM.

    



The ZSSC3136 is optimized for SIL (Safety Integrity Level) rated switch applications. The integrated adjustable digital filter offers the possibility of setting up fast switching real-time applications as well as stabilized switching applications in the case of disturbed or unstable input signals.



In addition to the general features for switch applications, the ZSSC3136 offers the capability to set up safety-relevant SIL2 rated switches due to its extended safety functionalities.



Features        

     

Analog gain of 105, maximum overall gain of 420 Sample rate: 200 Hz maximum ADC resolution: 13/14 bit External temperature sensor Safety functionalities: Calibration microcontroller, sensor connection, analog front-end Adjustable to nearly all resistive bridge sensor types Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity Output options: ratiometric analog voltage output (5 - 95% in maximum, 12.4 bit resolution) or TM ZACwire (digital One-Wire Interface (OWI)) Sensor biasing by voltage High voltage protection up to 33 V Supply current: max. 5.5mA Reverse polarity and short circuit protection Wide operation temperature: -40 to +150°C Traceability by user-defined EEPROM entries * Note: I2C™ is a trademark of NXP. ** FSO = Full Scale Output.

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Capability for setting up SIL level 2 applications Application-focused feature set No external trimming components required Only a few external protection devices needed PC-controlled configuration and one-pass/ TM end-of-line calibration via I²C™* or ZACwire interface: simple, cost-efficient, quick, and precise High accuracy (0.25% FSO** @ -25 to +85°C; 0.5% FSO @ -40 to +125°C) Optimized for automotive/ industrial environment due to robust protection circuitries, excellent electromagnetic compatibility and AEC-Q100 qualification

Available Support  

Evaluation Kits Application Notes Mass Calibration System

Physical Characteristics Supply voltage 4.5 to 5.5 V  Operation temperature: -40°C to +125°C (-40°C to +150°C extended temperature range depending on product version)  Available in RoHS-compliant JEDEC-SSOP14 package or delivery as die 

ZSSC3136 Minimum Application Requirements

VCC Sensor Module

ZSSC3136

OUT

GND

For more information, contact ZMDI via SSC@zmdi.com.

ZSSC3136

Sensor Signal Conditioner for Safety Switch Applications

ZSSC3136 Switch Application Example Out

VDDE 7

9 AOUT

VDD 6

10 VBN 11 VBR_B 12 VBP R1

VSUPP

+4.5V to +5.5V

VSUPP

n.c. 5

R1 2kΩ

12 VSUPP

SCL 4 Out SDA 3

13 GPIO

µC

Sensor Bridge

8 VSSE

ZSSC3136

C3 47nF

GND

C2 100nF

14 GND

13 VBR_T

VSSA 2

14 IRTEMP

VDDA 1

C1 100nF

Temperature Sensor

Ordering Information (See data sheet section 8 for complete delivery options.) Product Sales Code

Description

Package

ZSSC3136BE1

ZSSC3136 die – tested; temperature range -40 to +150°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3136BA1

ZSSC3136 die – tested; temperature range -40 to +125°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3136BE2

ZSSC3136 SSOP14 – temperature range -40 to +150°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC3136BA2

ZSSC3136 SSOP14 – temperature range -40 to +125°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC313xKITV1.1

ZSSC313x Evaluation Kit, revision 1.1, including Evaluation Board, ZSSC3136 IC samples, USB cable (software can be downloaded from the product page www.zmdi.com/zssc3136)

Kit

ZSSC313x Mass Calibration Modular Mass Calibration System (MSC) for ZSSC313x including System V1.1 MCS boards, cable, connectors (software can be downloaded from the product page www.zmdi.com/zssc3136)

Kit

Sales and Further Information Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772 Sales *European Note: I2C™ is a (Stuttgart) trademark of **Phone FSO +49.711.674517.55 = Full Scale Output. Fax

+49.711.674517.87955

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.23 — April 15, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSSC3138

Sensor Signal Conditioner for Ceramic Sensor Applications

ZSSC3138

Sensor Signal Conditioner for Ceramic Sensor Applications

Brief Description

Benefits

The ZSSC3138 is a member of the ZSSC313x product family of CMOS integrated circuits designed for automotive/ industrial sensor applications. All family members are well suited for highly accurate amplification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure on chip (EEPROM).



Family approach offers the best fitting IC selection to build cost-optimized applications No external trimming components required Low number of external components needed PC-controlled configuration and one-pass/ end-of-line calibration via I²C™* or ZACwire™ interface: simple, cost efficient, quick, and precise High accuracy (0.25% FSO** @ -25 to +85°C; 0.5% FSO @ -40 to +125°C) Optimized for automotive/industrial environments due to robust protection circuitries, excellent electromagnetic compatibility and AEC-Q100 qualification

  

 

The ZSSC3138 offers a maximum analog gain of 420 and two offset compensation features. These fit perfectly with the requirements of ceramic thick-filmbased sensor elements as well as strain gauges. The high amplification in combination with the offset compensation offers the capability to set up ceramic thick-film-based sensor applications without laser trimming, which leads to better long-term stability.

Available Support

Features

Physical Characteristics



     

Adjustable to nearly all resistive bridge sensor types, analog gain of 420, maximum overall gain of 1680 Enhanced sample rate: 7.8 kHz maximum High ADC resolution 15/16 bit Safety functionality sensor connection Internal temperature compensation Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity Output options: ratiometric analog voltage output (5 - 95% maximum, 12.4 bit resolution) or TM ZACwire (digital One-Wire Interface (OWI)) Sensor biasing by voltage High voltage protection up to 33 V Supply current: 5.5mA maximum Reverse polarity and short circuit protection Wide operation temperature range between -40 to +150°C Traceability by user-defined EEPROM entries

2 * Note: I C™ is a trademark of NXP. **** FSO FullFull Scale Output. FSO= = Scale Output.

  

 



Evaluation Kits Application Notes Mass Calibration System

ZSSC3138 Minimum Application Requirements VCC Sensor Module

ZSSC3138

OUT

GND

For more information, contact ZMDI via SSC@zmdi.com.

Visit .com for more detailed information

ZSSC3138

Sensor Signal Conditioner for Ceramic Sensor Applications

ZSSC3138 Application Example Out / OWI

Sensor Bridge

8 VSSE

VDDE 7

9 AOUT

VDD 6

10 VBN 11 VBR_B 12 VBP

ZSSC3138

C3 47nF

GND

C2 100nF

+4.5V to +5.5V

VSUPP

n.c. 5 SCL 4

SCL

SDA 3

SDA

Serial Interface

13 VBR_T

VSSA 2

14 N.C.

VDDA 1

C1 100nF

Ordering Information (See data sheet section 8 for complete delivery options.) Product Sales Code

Description

Package

ZSSC3138BE1

ZSSC3138 die – tested; temperature range -40 to +150°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3138BA1

ZSSC3138 die – tested; temperature range -40 to +125°C

Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3138BE2

ZSSC3138 SSOP14 – temperature range -40 to +150°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC3138BA2

ZSSC3138 SSOP14 – temperature range -40 to +125°C

Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC313xKITV1.1

ZSSC313x Evaluation Kit, version 1.1, including Evaluation Board, ZSSC3138 IC samples, USB cable

Kit

ZSSC313x Mass Calibration System V1.1

Modular Mass Calibration System (MSC) for ZSSC313x including MCS boards, cable, connectors

Kit

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

Products available at

On-Line Store

ZSSC3154 ZSSC3154

Automotive Sensor Signal Automotive Sensor SignalConditioner Conditionerwith withDual DualAnalog AnalogOutput Output

ZSSC3154

Automotive Sensor Signal Conditioner with Dual Analog Output

Brief Description Brief Description

Benefits Benefits

TheZSSC3154 ZSSC3154is isananintegrated integratedcircuit circuitforforhighly highly The accurate amplification and sensor-specific correction accurate amplification and sensor-specific correction bridgesensor sensorsignal. signal.UpUptototwo twotemperature temperature of of a a bridge sensors can also be read in parallel. sensors can also be read in parallel.

Bridgesensor sensorsignal signalvalidation validationfor forsafety safety   Bridge

An integrated calibration microcontroller with an onAn integrated calibration microcontroller with an onchip EEPROM performs the digital compensation of chip EEPROM performs the digital compensation of the sensor offset, the sensitivity, the temperature the sensor offset, the sensitivity, the temperature drift, and the nonlinearity of a sensor signal. drift, and the nonlinearity of a sensor signal. The single-pass, digital end-of-line calibration comThe single-pass, digital end-of-line calibration combined with the integrated broken-chip detection supbined with the integrated broken-chip detection supports automatic and highly efficient mass production. ports automatic and highly efficient mass production.

Features Features      

 

Differential bridge sensor input Differential bridge sensor input  Half-bridge sensor or temperature sensor input Half-bridge sensor or temperature sensor input  Digital compensation of offset, gain, nonlinearity, Digital compensation of offset, gain, nonlinearity, and temperature dependency and temperature dependency  Two analog outputs; behavior programmable by Two analog outputs; behavior programmable by EEPROM configuration EEPROM configuration  Sequential analog output mode provides two Sequential analog output provides measurement values at mode one output pin two measurement values at one output pin  On-chip diagnostic and safety features including On-chip safety features including sensordiagnostic connectionand diagnostic and broken-chip sensor connection diagnostic and broken-chip detection detection 2 EEPROM words for arbitrary user data 2 EEPROM words for arbitrary user data  Multiple configurable output options Multiple configurable output options 



 

AvailableSupport Support Available Evaluation Kit Evaluation Kit  Application Notes  Application Notes  Calculation Tools  Calculation Tools 



Physical Characteristics Physical Characteristics       

      

Supply voltage: 4.5 to 5.5V Supply voltage: 4.5 to 5.5V Maximum supply voltage: 7.7V Maximum supply voltage: 7.7V Input span: 1.8 to 267mV/V Input span: 1.8 to 267mV/V ADC resolution: 14 bit ADC resolution: 14 bit Output resolution: > 12 bit from 10% to 90% Output resolution: > 12 bit from 10% to 90% Operating temperature range: -40°C to 150°C Operating temperature range: -40°C to 150°C Package: QFN32 (5x5mm; wettable flank) or die Package: QFN32 (5x5mm; wettable flank) or die (3.10 x 2.98mm) (3.10 x 2.98mm)

ZSSC3154 Basic Circuit ZSSC3154 Basic Circuit DFBH

VDDA

DFBH VTN2

VDDA VSSA

VTN2 VTN1

VSSA SDA

VTN1

ZSSC3154 ZSSC3154

The circuitry provides differentconfigurations configurationsofofthe the The circuitry provides different analog outputs to show two measurement results analog outputs to show two measurement results simultaneously. This alsoallows allowsgenerating generatinga acomcomsimultaneously. This also plementary bridge sensor signal, which is often plementary bridge sensor signal, which is often a a requirement safety-relevant applications. requirement in in safety-relevant applications. The ZSSC3154 can measure and processtwo twoexterexterThe ZSSC3154 can measure and process nal temperature sensors to compensate the tempernal temperature sensors to compensate the temperature drift bridge sensor signaland andtotooutput outputa a ature drift of of thethe bridge sensor signal separate temperature signal. separate temperature signal.



applicationsvia viatwo twoantivalent antivalentanalog analog outputs outputs or or applications via half-bridge sensor measurement output via half-bridge sensor measurement output Simultaneousmeasurement measurementof ofsensor sensor signals, signals, Simultaneous including temperature signal for compensation including temperature signal for compensation andfor fortemperature temperatureoutput output and Efficientuse useofofnon-calibrated non-calibratedelements elements for for Efficient bridge sensors and temperature sensors without bridge sensors and temperature sensors without external trimming components external trimming components Single-passend-of-line end-of-linecalibration calibration algorithm algorithm Single-pass minimizes production costs minimizes production costs ExcellentEMC/ESD EMC/ESDrobustness robustnessand and AEC-Q100 AEC-Q100 Excellent qualification qualification

VBR_T

VBR_T VBP

VBP VBR_B VBN VBR_B

VBN

SDA SCL SCL VDD VDD VDDE

VCC

VDDE AOUT1

VCC AOUT1

AOUT1 AOUT2

AOUT2 VSSE

GND AOUT2

VSSE

GND

For more information, contact ZMDI via SSC@zmdi.com. For© more information, contact ZMDI via SSC@zmdi.com. 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — April 28, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated,

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stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice. © 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — April 28, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSSC3154

Automotive Sensor Signal Conditioner with Dual Analog Output

ZSSC3154 Block Diagram External Temperature Sensor 2 External Temperature Sensor 1

Conditioning Coefficients

Temperature Sensor Select

Gain Factor

Offset Shift

ADC Mode

EEPROM

I2C™*

I2C™* Diagnostic Fault Band Mode

RAM MUX

PGA

ADC Analog Front-End AFE

Sensor Bridge

Internal Temperature Sensor

CMC

DAC

ROM

ZACwire™

BAMP

AOUT2

BAMP

AOUT1 OWI (Digital Data IO)

Conditioning Calculation Digital Core

Conditioning Formula

Interfaces * I2C™ is a trademark of NXP.

Ordering Information Product Sales Code

Description

Package

ZSSC3154BA1B

ZSSC3154 Die (3.10 x 2.98mm) – Temperature Range -40 to 125°C

Wafer

ZSSC3154BA1C

ZSSC3154 Die (3.10 x 2.98mm) – Temperature Range -40 to 125°C

Sawn on frame

ZSSC3154BA3R

ZSSC3154 QFN32 (5x5 mm; wettable flank) – Temperature Range -40 to 125 °C

Reel

ZSSC3154BE3R

ZSSC3154 QFN32 (5x5 mm; wettable flank) – Temperature Range -40 to 150 °C

Reel

ZSSC3154KIT

ZSSC3154 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, 5 QFN32 samples (software can be downloaded from the product page www.zmdi.com/zssc3154)

Kit

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.306 Fax +49.351.8822.337

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — April 28, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

Products available at

On-Line Store

ZSSC3170 ZSSC3170

Automotive AutomotiveSensor SensorSignal SignalConditioner Conditionerwith withLIN LIN&&PWM PWMInterface Interface

ZSSC3170

Automotive Sensor Signal Conditioner with LIN & PWM Interface

Brief BriefDescription Description

Benefits Benefits

The TheZSSC3170 ZSSC3170isisa aCMOS CMOSintegrated integratedcircuit circuitforforhighly highly accurate accurateamplification amplificationand andsensor sensorspecific specificcorrection correction ofofbridge bridgesensor sensorsignals. signals.Featuring Featuringa amaximum maximumanalog analog gain gainofof420, 420,asaswell wellasasextended extendedoffset offsetcompensation compensation capabilities, capabilities,the theZSSC3170 ZSSC3170isisadjustable adjustabletotonearly nearlyallall resistive bridge sensor types. resistive bridge sensor types.

  Measurand Measurandand andtemperature temperaturesignal signalavailable availablevia via

Digital Digitalcompensation compensationofofoffset, offset,sensitivity, sensitivity,temperature temperature drift, and nonlinearity is accomplished drift, and nonlinearity is accomplishedvia viaa a16-bit 16-bit RISC RISCmicrocontroller. microcontroller.Conditioning Conditioningcoefficients coefficientsare are stored storedininananEEPROM EEPROMcertified certifiedforforautomotive automotiveappliapplications. cations. Measured Measuredvalues valuesare areprovided providedbybyone oneofofthe thedigital digital LIN or PWM interfaces. Each interface can support LIN or PWM interfaces. Each interface can support end-of-line end-of-linecalibration calibrationusing usingthe thesensor sensoroutput. output.Noise Noise sensitivity sensitivityisisgreatly greatlyreduced reducedbecause becausethe thecalibration calibration equipment equipmentand andthe theZSSC3170 ZSSC3170are aremated mateddigitally. digitally. For For quick quick and and easy easy evaluation evaluation and and support support forfor calibrating calibratingprototypes, prototypes,ZMDI ZMDIoffers offersthe theZSSC3170 ZSSC3170 SSC SSCEvaluation EvaluationKit, Kit,which whichincludes includesevaluation evaluationhardhardware, SSOP20 samples, and software. ware, SSOP20 samples, and software.

  Complies Complieswith withLIN LINspecifications specifications1.3 1.3/ 2.0 / 2.0/ 2.1 / 2.1   Configurable LIN publisher frame content Configurable LIN publisher frame content

  Data Dataconversion conversionrate rateofofupuptoto430Hz 430Hzfully fullyutilizes utilizes  

   



the themaximum maximumLIN LINchannel channelcapacity capacityofof20kbit/s 20kbit/s  PWM PWMhigh-side high-sideand andlow-side low-sideswitches, switches,support supportforfor LIN communication for end-of-line calibration LIN communication for end-of-line calibration  Digital Digitalcompensation compensationofofoffset, offset,gain, gain,temperature temperature nd nd rd rd order, and nonlinearity effects up to 2 effects up to 2 order, and nonlinearityupuptoto3 3 order. order.Compensation Compensationofoftemperature temperaturesensor sensoroffset, offset, nd nd gain, order. gain,and andnonlinearity nonlinearityupuptoto2 2 order.  Internal Internalororexternal externaltemperature temperaturereference reference Media temperature sensing by diode RTD  Media temperature sensing by diodeoror RTD  Load Loaddump dumpprotection protectionofofthe theLIN LINpin pinupuptoto±40V ±40V  Accuracy Accuracy ±0.25% ±0.25%FSO FSO@@-20 -20toto85°C 85°C ±0.50% FSO @ -40 to 125°C ±0.50% FSO @ -40 to 125°C ±1.00% ±1.00%FSO FSO@@-40 -40toto150°C 150°C EEPROM  33 EEPROMwords wordsavailable availableforforoptional optionaluser userdata data

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  Single-pass Single-passcalibration calibrationminimizes minimizescalibration calibrationcosts costs   End-of-line End-of-linecalibration calibrationusing usingsensor sensoroutput output   Optimized for automotive environments Optimized for automotive environmentswith with

special specialprotection protectioncircuitry, circuitry,excellent excellentelectroelectromagnetic magneticcompatibility, compatibility,and andnumerous numerousdiagnostic diagnostic features features

Available AvailableSupport Support   Evaluation EvaluationKitKit   Application ApplicationNotes Notes   Calculation CalculationTools Tools

Physical PhysicalCharacteristics Characteristics   Supply Supplyvoltage: voltage:7 7toto1818V V   Current Currentconsumption consumptionininSleep SleepMode: Mode:≤ ≤100μA 100μA   Input Inputspan: span:1.8 1.8toto267 267mV/V mV/V   ADC resolution: 13 to 14 ADC resolution: 13 to 14bitbit

  Output Outputresolution: resolution:upuptoto12-bit 12-bit(LIN (LINand andPWM) PWM)   Operating Operatingtemperature temperaturerange: range:-40 -40toto125°C 125°C

  Extended Extendedoperating operatingtemperature temperaturerange: range:≤150°C ≤150°C   Package: SSOP20 or die Package: SSOP20 or die

ZSSC3170 ZSSC3170Basic BasicCircuit Circuit LIN LIN

GND GND VBAT VBAT

ZSSC3170 ZSSC3170

Features Features

one oneoutput outputpin pin

  Compatible Compatiblewith withnearly nearlyallallresistive resistivebridge bridgeinputs inputs   No Noexternal externaltrimming trimmingcomponents componentsrequired required

For Formore moreinformation, information,contact contactZMDI ZMDIvia viaSSC@zmdi.com. SSC@zmdi.com.

© 2014 Zentrum Mikroelektronik Dresden AGAG —— Rev. 2.40 —— January 22,22, 2014. All All rights reserved. TheThe material contained herein may notnot be be reproduced, adapted, merged, translated, © 2014 Zentrum Mikroelektronik Dresden Rev. 2.40 January 2014. rights reserved. material contained herein may reproduced, adapted, merged, translated, stored, or used without thethe prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice. stored, or used without prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSSC3170

Automotive Sensor Signal Conditioner with LIN & PWM Interface

ZSSC3170 Block Diagram Ext. Temp. Diode

Ext. RTD



Sensor Bridge

SCL

I2CTM*

Control Registers

SDA

VBR_T Temp. Sens. Select

VTN1 VBN VBP

MUX

Gain Factor

Offset Shift

ADC Mode

PGA

ADC

Analog Front-End (AFE) VTN2 VBR_B

CMC

EEPROM

Internal Temp. Sensor

HOUT

PWM

RAM

Digital Block

LOUT

LIN

Protection & Power Management

VB VSSE

Interfaces

ZSSC3170

* I2C™ is a trademark of NXP.

Applications

LIN Pressure Sensor with Temperature Sensor LIN 11 LIN 12 LOUT 13 n.c. 14

VBN

VBR_B

VBP

VTN 1

VBR_T

VTN2

n.c.

VSSE

GND

VBAT

HOUT 7

ZSSC3170

Sensor Bridge With Integrated Temperature Diode

C3 220pF

VSS 10

C2 220nF

R1 10W

VDD 6 SCL 5

SCL

SDA 4

SDA

RTD Media Temperature Sensor



VSSA 3 VDDA 2 n.c. 1

R2 C1 100nF

Ordering Information (See section 7 of the data sheet for additional options.) Product Sales Code

Description

ZSSC3170EE1B

ZSSC3170 Die — Temperature range: -40°C to +150°C

ZSSC3170EE1C

ZSSC3170 Die — Temperature range: -40°C to +150°C

Sawn on Wafer Frame, 2450 pcs.

ZSSC3170EE2

ZSSC3170— SSOP20 — Temperature range: -40°C to +150°C

Add R for 13” reel, 2000 pcs. Add T for tube, 660 pcs.

ZSSC3170EA1B

ZSSC3170 Die — Temperature range: -40°C to +125°C

Unsawn on Wafer, 2450 pcs.

ZSSC3170EA1C

ZSSC3170 Die — Temperature range: -40°C to +125°C

Sawn on Wafer Frame, 2450 pcs.

ZSSC3170KIT

ZSSC3170 Evaluation Kit and 5 SSOP20 samples

Kit

Sales and Further Information

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Package Unsawn on Wafer, 2450 pcs.

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.40 — January 22, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZSSC3122 ZSSC3122 ZSSC3122 ZSSC3122 cLite™ Low Voltage Capacitive Sensor Signal Conditioner cLite™ cLite™ Low Low Voltage Voltage Capacitive Capacitive Sensor Sensor Signal Signal Conditioner Conditioner cLite™ Low Voltage Capacitive Sensor Signal Conditioner

ZSSC3122

cLite™ Low Voltage Capacitive Sensor Signal Conditioner

Brief Description Brief Brief Description Description Brief Description The ZSSC3122 is a CMOS integrated circuit for

Theaccurate The ZSSC3122 ZSSC3122 is ais CMOS a CMOS integrated integrated circuit circuit for capacitance-to-digital conversion andfor The ZSSC3122 is a CMOS integrated circuit for conversion and accurate accuratecapacitance-to-digital capacitance-to-digital conversion sensor-specific correction of capacitive sensorand sigaccurate capacitance-to-digital conversion and sensor-specific correction of capacitive sensor sigsensor-specific correction of capacitive sensor signals. Digital compensation of sensor offset, sensitisensor-specific correction ofofsensor capacitive sensor signals. Digital compensation of sensor offset, sensitinals. Digital compensation offset, sensitivity, and temperature drift is accomplished via an nals. Digital compensation offset,via sensitivity, and temperature drift issensor accomplished via vity, and temperature isofaccomplished an an internal digital signaldrift processor running a correction vity, and temperature drift is accomplished via an internal digital signal processor running a correction internal digital signal processor running a correction algorithm with calibration coefficients stored in a internal digital signal processor runningstored a stored correction algorithm calibration coefficients algorithm withwith calibration coefficients in ain a non-volatile EEPROM. algorithm withEEPROM. calibration coefficients stored in a non-volatile non-volatile EEPROM. The ZSSC3122 is configurable for capacitive sennon-volatile EEPROM. The ZSSC3122 is configurable capacitive Thesors ZSSC3122 is configurable for for capacitive sen-senwith capacitances up to 10pF and a sensitivity The ZSSC3122 isIt configurable for capacitive sensors with capacitances up 10pF to 10pF and a sensitivity sors with capacitances to and a sensitivity of 125aF/LSB. isupcompatible with both single sors with capacitances up to 10pF and a sensitivity capacitive sensors terminals must be of 125aF/LSB. is (both compatible single of 125aF/LSB. It isIt compatible withwith bothboth single ofaccessible) 125aF/LSB. It isdifferential compatible with both single and capacitive sensors. capacitive sensors (bothterminals terminals must capacitive sensors (both must be be capacitive sensors (both sensor terminals must be Measured and corrected values can be accessible) and differential capacitive sensors. accessible) and differential capacitive sensors. 2 and* differential accessible) capacitive sensors. C ™ , SPI, PDM, or alarms. output as I Measured corrected sensor values Measured andand corrected sensor values cancan be be 2 2 * * Measured and corrected values can be C2™ C,™SPI, PDM, PDM, orsensor alarms. or alarms. output I interface output asI2C™ Ias can be used for a simple PCThe * , SPI, ™ , SPI, PDM, or alarms. output as 2 2 I C calibration to program a PCset PCof interface interface canprocedure can be be used used for for a simple a simple Thecontrolled The I C™ 2 I C™ C™ interface can be used for a simple PCThe I calibration coefficients into an on-chip EEPROM. controlled controlled calibration calibration procedure procedure to program to program a set a set of of controlled calibration procedure program a setare of The calibrated ZSSC3122 andan atospecific sensor calibration calibration coefficients coefficients intointo an on-chip on-chip EEPROM. EEPROM. calibration coefficients into an on-chip EEPROM. digitally: fast, precise, and without theare cost Themated The calibrated calibrated ZSSC3122 ZSSC3122 andand a specific a specific sensor sensor are The calibrated ZSSC3122 and a specific sensor are overhead of trimming by external devices or laser. mated mated digitally: digitally: fast,fast, precise, precise, andand without without the the costcost mated digitally: fast, precise, and without the cost overhead overhead of trimming of trimming by external by external devices devices or laser. or laser. overhead of trimming by external devices or laser. Features Features Maximum Target input capacitance: 10pF Features Features  rates as input fast as 0.7ms at10pF 8-bit resolution;  Maximum  Sampling Maximum Target Target input capacitance: capacitance: 10pF  Maximum Target input capacitance: 10pF 1.6ms at 10-bit; 5.0ms at 12-bit; 18.5ms at14-bit  Sampling  Sampling rates rates as fast as fast as 0.7ms as 0.7ms at 8-bit at 8-bit resolution; resolution; st   Sampling rates as fast of assensor: 0.7ms at 8-bit resolution; Digital compensation piece-wise 1 1.6ms 1.6ms at 10-bit; at 10-bit; 5.0ms 5.0ms at 12-bit; at 12-bit; 18.5ms 18.5ms at14-bit at14-bit nd 1.6ms 5.0ms at 12-bit; 18.5ms order sensor compensation orat14-bit up tost st and 2at 10-bit; st  Digital  Digital compensation of sensor: of sensor: piece-wise piece-wise rd compensation  Digital compensation of sensor sensor:compensation piece-wise1 1 1 3 ndorder nd single-region nd order order sensor sensor compensation compensation or up or to up to and and 2 2 st nd sensor compensation up to rdand rd 2 order Digital compensation of sensor 1 and 2 or order rd order single-region single-region sensor compensation compensation 3 3order 3 order single-region sensor compensation temperature gain and offset st st drift nd nd st  Digital  Digital compensation compensation ofof1of and 1and and 2 2ndorder 2 order   Digital compensation 1 Internal temperature compensationorder reference temperature temperature gain gain and and offset offset drift drift temperature and offset drift (no externalgain components)   Internal  Internal temperature temperature compensation compensation reference reference temperature compensation reference  Internal Programmable capacitance span and offset (no (no external external components) components) (no external components)  Layout customized for die-die bonding with sensor   Programmable  Programmable Programmable capacitance capacitance span span and and offset offset capacitance span and offset for low-cost, high-density chip-on-board assembly   Layout  Layout Layout customized customized forfor die-die for die-die bonding bonding with with sensor sensor † customized die-die bonding with sensor  Accuracy as high as forfor low-cost, forlow-cost, low-cost, high-density high-density chip-on-board chip-on-board assembly assembly high-density chip-on-board assembly ±0.25%† FSO@ -40 to 125°C, 3V, 5V, Vsupply ±10% † † high   Accuracy  Accuracy Accuracy as as high as as as high as ±0.25% ±0.25% FSO@ FSO@ -20 to -20 125°C, to 125°C, 3V, 3V, 5V, 5V, Vsupply Vsupply ±10% ±10% ±0.25% FSO@ -20 to 125°C, 3V, 5V, Vsupply ±10%

Benefits Benefits Benefits Benefits  Minimized calibration costs: no laser trimming,

Minimized  one-pass Minimized calibration calibration costs: costs: laser no laser trimming, trimming, calibration using ano digital interface  one-pass Minimized calibration costs: no laser trimming, one-pass calibration calibration using using a digital a digital interface interface  one-pass Excellent for low-power battery applications calibration using a digital interface  Excellent  Excellent for low-power for low-power battery battery applications applications  Excellent for low-power battery applications 

Interfaces Interfaces Interfaces Interfaces  I²C™ or SPI interface—easy connection to a µC   I²C™  PDM I²C™ oroutputs SPI or SPI interface—easy interface—easy connection connection to afor to a (Filtered Analog Ratiometric)  I²C™ or SPI interface—easy connection to a

microcontroller microcontroller both capacitance and temperature microcontroller   PDM  UpPDM outputs outputs (Filtered (Filtered Analog Ratiometric) for or for to outputs two alarms that Analog can act Ratiometric) as full push-pull  PDM (Filtered Analog Ratiometric) for both both capacitance capacitance andand temperature temperature open-drain switches both capacitance and temperature  Up  to Uptwo to two alarms alarms thatthat cancan act act as full as push-pull full push-pull or or  Up to two alarms that can act as full push-pull or open-drain open-drain switches switches open-drain switches Physical Characteristics 

Supply voltage: 1.8 to 5.5V

Physical Physical Characteristics Characteristics Physical Characteristics  Typical current consumption 650μA down to

Supply  60μA Supply voltage: voltage: 1.8on1.8 toconfiguration 5.5V to 5.5V depending  Supply voltage: 1.8 to 5.5V  Typical Sleep Mode current: ≤ 1μA at 85°C  Typical  Typical current current consumption consumption 650μA 650μA down down to to  Typical current consumption 650μA down to 60μA depending depending on configuration on configuration  60μA Operation temperature: –40°C to +125°C 60μA depending on configuration   Typical  Die Typical Sleep Mode Mode current: current: ≤ 1μA ≤ 1μA at 85°C at 85°C or Sleep TSSOP14 package  Typical Sleep Mode current: ≤ 1μA at 85°C  Operation  Operation temperature: temperature: –20°C –20°C to +125°C to +125°C  Operation temperature: –20°C to +125°C Available Support  Die  Die (1.640mm (1.640mm x 1.555mm) x 1.555mm) or TSSOP14 or TSSOP14 package package  Die (1.640mm x 1.555mm) or TSSOP14 package  ZSSC3122 SSC Evaluation Kit available: SSC 

Available Available Support Support Evaluation Board, samples, software, Available Support 

documentation.

ZSSC3122  ZSSC3122 SSCSSC Evaluation Evaluation Kit available: Kit available: SSCSSC  ZSSC3122 SSC Evaluation Kit available: SSC Support for industrial mass software, calibration available. Evaluation Evaluation Board, Board, samples, samples, software, Evaluation Board, samples, software,  documentation. Quick circuit customization option for large documentation.

documentation. volumes. Support  production Support for industrial for industrial mass mass calibration calibration available. available.  Support for industrial mass calibration available.  Quick  Quick circuit customization customization option option for for large Application: Quickcircuit circuit customization option forlarge large Digital Output, Alarms production production volumes. volumes. production volumes. 

VSUPPLY

cLite (+1.8V to 5.5V) Application: Application: Digital Digital Output, Output, Alarms Alarms Application: Digital Output, ZSSC3122 VcoreAlarms VDD

0.1µF

VDD VDD ™ ™Ready VDD ™ VSSZSSC3122 SDA/MISO ZSSC3122 Vcore Vcore ZSSC3122 0.1µF0.1µF0.1µF0.1µF Vcore 0.1µF GND 0.1µF ReadySCL/SCLK Ready Ready VSS VSS SDA/MISO SDA/MISO SS VSS C0 SDA/MISO GND GND SCL/SCLK SCL/SCLK GND SCL/SCLK Alarm_High SS SS C0 C0 SS C0

VSUPPLY VSUPPLY V to(+1.8V (+1.8VSUPPLY 5.5V) to 5.5V)

cLite cLite cLite

(+1.8V to 5.5V)

CC CC CC * †

* †

™

Alarm_Low

Alarm_High Alarm_High Alarm_High Alarm_Low Alarm_Low Alarm_Low

I C™ is a registered trademark of NXP. See data sheet section 1.3 for restrictions.

2 * 2 Iis I2C™ C™ aisregistered a registered trademark trademark of NXP. of NXP. I C™ aisregistered trademark of NXP.

† See

†

data See sheet data sheet section section 1.31.3 for1.3 restrictions. for restrictions. See data sheet section for restrictions.

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© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.52 — December 11, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

© 2014 © Zentrum 2014 Zentrum Mikroelektronik Mikroelektronik Dresden Dresden AGAG —AG Rev. —1.61 Rev. — 1.61 June — 13, June 2014. 13, 2014. AllAll rights All rights reserved. reserved. The material The material contained contained herein herein may not may bebe not reproduced, be reproduced, adapted, adapted, merged, merged, translated, translated, © 2014 Zentrum Mikroelektronik Dresden — Rev. 1.61 — June 13, 2014. rights reserved. The material contained herein may not reproduced, adapted, merged, translated, stored, stored, or used or without used without thethe prior the written prior written consent consent of the of copyright the copyright owner. owner. The information The information furnished furnished in in this in publication this publication is is subject is subject to to changes to changes without without notice. notice. stored, or used without prior written consent of the copyright owner. The information furnished this publication subject changes without notice.

0.1µF

ZSSC3122 ZSSC3122 cLite™ Low Voltage Capacitive Sensor Signal Conditioner

Sensor

(Optional)

cLite™ Low Voltage Capacitive Sensor Signal Conditioner

MU VSS

Application: Analog Output ZSSC3122 cLite™ Low Voltage Capacitive Sensor Signal Conditioner VDD (1.8V to 5.5V)

ZSSC3122 ZSSC3122

VDD (1.8V toVcore 5.5V)

Block Diagram Block Diagram

0.1µF

Vcore

0.1µF

Sensor

0.1µF

Temp Sensor

Ref Cap

Offset Cap

EEPROM

Temp Sensor

Ref Cap

Offset Cap

EEPROM

C0 CC

C01

C1 CC

MUX

0.1µF

GND GND

Vcore VSS

PDM_C

VSS

PDM_T

Alarm_High

Analog Core

Sales Code

(+1.8V to 5.5V)

Temp Analog Output

LED

SS Alarm_Low/PDM_T Alarm_High

Alarm_High SS Alarm_High

ZSSC3122AA1BN

ZSSC3122 Die — Temperature range: -20°C

ZSSC3122AI3BN VDD

ZSSC3122 Die — Temperature range: -20°C

VSUPPLY

Cap. Analog Output Cap. Analog Output Temp

(+1.8V to 5.5V)

ZSSC3122 ZSSC3122 ™ Die — Temperature range: -20°C

Vcore

ZSSC3122 Die — Temperature range: -20°C ZSSC3122

0.1µF 0.1µF ZSSC3122AA1CN VSS

Analog Output Temp Analog LED Output

cLite™ cLite

Vcore ZSSC3122AA3BN VDD 0.1µF 0.1µF

Ready

SDA/MISO Ready

GND

ZSSC3122AI1CN C0 VSS

ZSSC3122 Die — Temperature range: -20°C SCL/SCLK

GND

ZSSC3122AA2*N C0

SS TSSOP14 — Temperature range ZSSC3122 SCL/SCLK

CC CC

C1 ZSSC3122AI2*N

LED

ZSSC3122KIT Description

SDA/MISO

Alarm_High SS

Alarm_Low TSSOP14 — Temperature range Alarm_High ZSSC3122 Alarm_Low

ZSSC3122 SSC Evaluation Kit: Communica Board, USB Cable, 5 IC Samples (software Package

Sales and Further Information Packagewafer, 370µm Tested dice on un-sawn

Description ZSSC3122 Die — Temperature range: -20°C to +125°C

ZSSC3122AA1BN ZSSC3122AI1BN

ZSSC3122 to +85°C +125°C ZSSC3122 Die Die — — Temperature Temperature range: range: -20°C -20°C to

ZSSC3122AI1BN ZSSC3122AI3BN

ZSSC3122 to +85°C +85°C ZSSC3122 Die Die — — Temperature Temperature range: range: -20°C -20°C to

ZSSC3122AI3BN ZSSC3122AA3BN

ZSSC3122 Die — to +125°C +85°C ZSSC3122 Die — Temperature Temperature range: range: -20°C -20°C to

ZSSC3122AA3BN ZSSC3122AA1CN

ZSSC3122 to +125°C +125°C ZSSC3122 Die Die — — Temperature Temperature range: range: -20°C -20°C to

ZSSC3122AA1CN ZSSC3122AI1CN

ZSSC3122 to +85°C +125°C ZSSC3122 Die Die — — Temperature Temperature range: range: -20°C -20°C to

ZSSC3122AI1CN ZSSC3122AA2*N

ZSSC3122 Die — Temperature range: range: -20°C to +85°C ZSSC3122 TSSOP14 — Temperature -20°C to +125°C – Lead-free package

ZSSC3122AA2*N ZSSC3122AI2*N

ZSSC3122 TSSOP14 — Temperature range: -20°C to +125°C – Lead-free package ZSSC3122 TSSOP14 — Temperature range: -20°C to +85°C – Lead-free package

ZSSC3122KIT

Cap. Analog Output

Communication Output Communication

Digital Core

Sales Code ZSSC3122AA1BN

ZSSC3122AI2*N ZSSC3122KIT

Alarm_Low/PDM_T Ready/PDM_C

Ordering CodesOutput

Digital Core

VSUPPLY

(+1.8V to 5.5V)

Ordering Codes Ordering Sales Code Codes

PDM_T Ready/PDM_C SDA/MISO

High Alarm

ROM

ZSSC3122

SDA/MISO SCL/SCLK

SUPPLY (+1.8V to 5.5V)

Application: Differential Capacitance Input ZSSC3122AI1BN ZSSC3122 Die — Temperature range: -20°C Application: Differential Capacitance Input

VSUPPLY

VSS

Low Alarm High Alarm

ROM

PDM_T

CDC D

SUPPLY (+1.8V to 5.5V)

ZSSC3122

Ready PDM

cLite™

PDM_C SCL/SCLK

I2C / SPI Low Alarm

Analog Core

VSS

Vcore VDD

CLK/Reset GND

Vcore

Ready

DSP DSP

MUX

VSS

cLite™ ZSSC3122 ™ cLite PDM_C

0.1µF

CDC

(Optional)

VDD

C/A

(Optional) C 1 C1

Application: Analog Output Application: Analog Output

0.1µF CLK/Reset

PDM I2C / SPI

C/A

C0Sensor

VDD

ZSSC3122 cLite™ Low Voltage Capacitive Sensor Signal Conditioner

Zentrum Mikroelektronik America, Tested dice dice on on un-sawn un-sawn ZMD wafer, 370µm Inc. Tested wafer, 370µm Dresden AG 1525 McCarthy Blvd., #212 Global Headquarters CA 95035-7453 Tested dice dice on on un-sawn un-sawn Milpitas, wafer, 725µm 370µm Tested wafer, Grenzstrasse 28 USA Tested dice on on un-sawn un-sawn wafer, wafer, 725µm 725µm Tested dice 01109 Dresden, Germany USA Phone 1.855.275.9634 Central Office: Tested dice dice on on frame, un-sawn wafer, 725µm Tested 370µm Phone +49.351.8822.306 Phone +1.408.883.6310 Tested dice dice on on frame, frame, 370µm 370µm Fax +49.351.8822.337 Tested Fax +1.408.883.6358

Testedsubstitute dice on frame, Tube: “T” for370µm * in code Reel: substitute “R” for * in code Tube: substitute “T” for *DISCLAIMER: in code European Technical Support This information appl Reel: substitute in Tube: substitute “R” “T” for for **Zentrum in code codeMikroelektronik Dresden A Phone +49.351.8822.7.772 information furnished hereby is beli Reel: substitute “R” for * in code Fax +49.351.8822.87.772 ZSSC3122 TSSOP14 — Temperature range: -20°C to +85°C – Lead-free package Tube: substitute “T” for *licensee, in code or any other third party for way related to the furnishing, Reel: code European Kit Salessubstitute (Stuttgart)“R” for *ininany ZSSC3122 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement customer, licensee or any other third Phone +49.711.674517.55 Board, USB Cable, 5 IC Samples (software can be downloaded from www.zmdi.com/zssc3122) any damages in connection with or ZSSC3122 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Kit Fax +49.711.674517.87955 tort (including negligence), strict liab Board, USB Cable, 5 IC Samples (software can be downloaded from www.zmdi.com/zssc3122)

Sales and Further Information Sales Mikroelektronik and Further Information Zentrum ZMD America, Inc. Dresden AG Zentrum Mikroelektronik Global Headquarters Dresden AG Grenzstrasse 28 Global Headquarters 01109 Dresden, Germany Grenzstrasse 28 CentralDresden, Office: Germany 01109 Phone +49.351.8822.306 Central Office: Fax +49.351.8822.337 Phone +49.351.8822.306 Fax +49.351.8822.337

European Technical Support Phone +49.351.8822.7.772 European Technical Support Fax +49.351.8822.87.772 Phone +49.351.8822.7.772 European Sales (Stuttgart) Fax +49.351.8822.87.772 Phone +49.711.674517.55 European Sales (Stuttgart) Fax +49.711.674517.87955 Phone +49.711.674517.55 Fax +49.711.674517.87955

www.zmdi.com

SSC@zmdi.com

www.zmdi.com SSC@zmdi.com Zentrum Mikroelektronik ZMD FAR EAST, Ltd. The Zentrum Mikroelektronik All rights reserved. material contained herein may not be reproduced, ad Dresden AG, Japan Office Dresden AG, Korea Office 1525 McCarthy Blvd., #212 3F, No. 51, Sec. 2, ZMD America, Inc. Zentrum Mikroelektronik ZMD FAR EAST, Ltd. Zentrum Mikroelektronik Milpitas, CA 95035-7453 2nd Floor, Shinbashi Tokyu Bldg. Keelung Road U-space 1 Building Dresden AG, Japan Office Dresden AG, Korea Office 1525 McCarthy Blvd., #212 3F, No. 51, Sec. 2, USA 4-21-3, Shinbashi, Minato-ku 11052 Taipei 11th Floor, Unit JA-1102 Milpitas, CA 95035-7453 2nd Floor, Shinbashi Tokyu Bldg. Keelung Road U-space 1 Building Tokyo, 105-0004 Taiwan 670 Sampyeong-dong USA 4-21-3, Shinbashi, Minato-ku 11052 Taipei 11th Floor, Unit JA-1102 Japan Bundang-gu, Seongnam-si USA Phone 1.855.275.9634 Tokyo, 105-0004 Taiwan 670 Sampyeong-dong Gyeonggi-do, 463-400 Phone +1.408.883.6310 Phone +81.3.6895.7410 Phone +886.2.2377.8189 Japan Bundang-gu, Seongnam-si USA Phone 1.855.275.9634 Fax +1.408.883.6358 Fax +81.3.6895.7301 Fax +886.2.2377.8199 Korea 463-400 Phone +1.408.883.6310 Phone +81.3.6895.7410 Phone +886.2.2377.8189 Gyeonggi-do, Phone +82.31.950.7679 Fax +1.408.883.6358 Fax +81.3.6895.7301 Fax +886.2.2377.8199 Korea Fax +82.504.841.3026 Phone +82.31.950.7679 Fax DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are subject +82.504.841.3026 to change without notice.

Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The DISCLAIMER: This information to to a product development. Its characteristics and specifications are subject change without notice. information furnished hereby isapplies believed be true under and accurate. However, under no circumstances shall ZMD AG betoliable to any customer, Zentrum Dresden AGany (ZMD AG) indirect, assumesincidental, no obligation regarding future manufacture unless agreed toarising in writing. The licensee, Mikroelektronik or any other third party for special, or consequential damages of any kind or otherwise nature whatsoever out of or information furnished hereby is believed to be true and of accurate. However, no circumstances shall ZMD AG liableoftoZMD any AG customer, in any way related to the furnishing, performance, or use this technical data.under ZMD AG hereby expressly disclaims anybe liability to any licensee, any other thirdother partythird for any special, indirect, consequential ofparty any kind or nature offor or customer,orlicensee or any party, and any such incidental, customer, or licensee and anydamages other third hereby waiveswhatsoever any liabilityarising of ZMDout AG in any way related to the furnishing, performance, or use of this technical data. or ZMD expressly disclaims liability of ZMD AG to any any damages in connection with or arising out of the furnishing, performance useAG of hereby this technical data, whetherany based on contract, warranty, customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for tort (including negligence), strict liability, or otherwise. any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise. © 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.61 — June 13, 2014 rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. 33All © 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.61 — June 13, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

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ZSSC3123 ZSSC3123 cLite™ cLite™Capacitive CapacitiveSensor SensorSignal SignalConditioner Conditioner ZSSC3123

cLite™ Capacitive Sensor Signal Conditioner ZSSC3123 cLite™ Capacitive Sensor Signal Conditioner

Brief BriefDescription Description Brief Description The TheZSSC3123 ZSSC3123is isa aCMOS CMOSintegrated integratedcircuit circuitforforaccurate accurate

capacitance-to-digital capacitance-to-digital conversion conversion and and sensor-specific sensor-specific The ZSSC3123 is a CMOS integrated circuit for accurate correction correctionof ofcapacitive capacitivesensor sensorsignals. signals.Digital Digitalcompencompencapacitance-to-digital conversion and sensor-specific sation sation of of sensor sensor offset, offset, sensitivity, sensitivity, and and temperature temperature drift drift is is correction of capacitive sensor signals. Digital compenaccomplished accomplished via via an an internal internal digital digital signal signal processor processor sation of sensor offset, sensitivity, and temperature drift is running runninga a correction correction algorithm with withcalibration calibration coefficients coefficients accomplished via analgorithm internal digital signal processor stored stored in in a non-volatile a non-volatile EEPROM. EEPROM. running a correction algorithm with calibration coefficients The The ZSSC3123 ZSSC3123 is is configurable configurable capacitive capacitive sensors sensors with with stored in a non-volatile EEPROM.forfor to to 260pF 260pF and and a a sensitivity sensitivity of of 125aF/LSB 125aF/LSB capacitances capacitances up up The ZSSC3123 is configurable for capacitive sensors with to to1pF/LSB 1pF/LSBdepending onresolution, resolution, speed, speed, and andrange range to 260pFon and a sensitivity of 125aF/LSB capacitances updepending settings. settings. Itis iscompatible compatible with withboth both single single capacitive capacitive to 1pF/LSBIt depending on resolution, speed, and range sensorsIt(both (both terminalswith must accessible) and sensors terminals must bebe accessible) and settings. is compatible both single capacitive differential capacitive sensors. Measured and corrected differential capacitive sensors. Measured and corrected sensors (both terminals must be2 2 accessible) and C*, ™and *,SPI, SPI, PDM, PDM,oror sensorvalues values canbe beoutput output I™ sensor can asasI C differential capacitive sensors. Measured corrected 2 alarms. alarms. sensor values can be output as I C™*, SPI, PDM, or 2 2 alarms. interface interface can can bebe used used forfor a simple a simple PC-controlled PC-controlled The The I C™ I C™ 2 calibration calibration procedure procedure to to program program a asetset of ofcalibration calibration can be used for a simple PC-controlled The I C™ interface coefficients coefficients into intoananon-chip EEPROM. EEPROM. The The calibrated calibrated calibration procedure toon-chip program a set of calibration ZSSC3123 ZSSC3123 and and aan a specific specific sensor sensor are are mated mated digitally: fast, fast, coefficients into on-chip EEPROM. Thedigitally: calibrated precise, precise, and and without without the the cost cost overhead overhead of of trimming trimming by ZSSC3123 and a specific sensor are mated digitally: fast, by external external devices devices oror laser. laser. precise, and without the cost overhead of trimming by external devices or laser.

Features Features Features   Maximum Maximum Target Target input input capacitance: capacitance: 260pF 260pF

 Maximum Target input capacitance: 260pF Sampling Sampling rates rates as as fast fast asas 0.7ms 0.7ms at at 8-bit 8-bit resolution; resolution;  Sampling rates as5.0ms fast asat0.7ms at18.5ms 8-bit resolution; 1.6ms 1.6ms at at 10-bit; 10-bit; 5.0ms at 12-bit; 12-bit; 18.5ms at at 14-bit 14-bit st st nd nd atcompensation 10-bit; 5.0ms of atof 12-bit; 18.5ms at 14-bit  1.6ms Digital Digital compensation sensor: sensor: piece-wise piece-wise 1 1and and 22 nd rd rd st  Digital compensation of sensor: piece-wise 1 and 2 order order sensor sensor compensation compensation oror up up to to 3 3order order singlesinglerd order sensor compensation or up to 3 order singleregion region sensor sensor compensation compensation st st nd nd sensor compensation  region Digital Digital compensation compensation of of 1 1and and 2 2 order order temperature temperature st nd  Digital compensation of 1 and 2 order temperature gain gain and and offset offset drift drift gain and offset drift   Internal Internal temperature temperature compensation compensation reference reference  Internal temperature compensation reference (no (no external external components) components) (no external components)   Programmable Programmable capacitance capacitance span span and and offset offset  Programmable capacitance span and offset   Layout Layout customized customized forfor die-die die-die bonding bonding with with sensor sensor forfor  Layout customized for die-die bonding assembly with sensor for low-cost, low-cost, high-density high-density chip-on-board chip-on-board assembly low-cost, high-density chip-on-board assembly † †   Accuracy Accuracy high high asas † asas  Accuracy as high as ±0.25% ±0.25% FSO@ FSO@ -40-40 to to 125°C, 125°C, 3V,3V, 5V, 5V, Vsupply Vsupply ±10% ±10% ±0.25% FSO@ -40 to 125°C, 3V, 5V, Vsupply ±10%

Benefits Benefits Benefits   Minimized Minimized calibration calibration costs: costs: nono laser laser trimming, trimming, oneone-

pass pass calibration calibration using using a digital a digital interface interface Minimized calibration costs: no laser trimming, one pass  Wide Wide capacitance capacitance to to support support a broad a broad portfolio portfolio of of calibration usingrange arange digital interface different different sensor sensor elements elements  Wide capacitance range to support a broad portfolio of  different  Excellent Excellent forfor low-power low-power battery battery applications applications sensor elements  Excellent for low-power battery applications 

Interfaces Interfaces Interfaces   I²C™ I²C™ oror SPI SPI interface—easy interface—easy connection connection to to a µC a µC

  I²C™ oroutputs SPI interface—easy connection to a µC  PDM PDM outputs (Filtered (Filtered Analog Analog Ratiometric) Ratiometric) forfor both both capacitance capacitance and and temperature temperature  PDM outputs (Filtered Analog Ratiometric) for both and temperature  capacitance  UpUp to to two two alarms alarms that that can can actact asas fullfull push-pull push-pull oror openopendrain switches switches  Updrain to two alarms that can act as full push-pull or opendrain switches

Physical PhysicalCharacteristics Characteristics Physical Characteristics     

  Supply Supply voltage: voltage: 2.3V 2.3V to to 5.5V 5.5V voltage: 2.3V to 5.5V 650μA  Supply  Typical Typical current current consumption consumption 650μA down down to to 60μA 60μA depending depending onconsumption on configuration configuration Typical current 650μA down to 60μA on configuration  depending  Typical Typical Sleep Sleep Mode Mode current: current: ≤ 1μA ≤ 1μA at at 85°C 85°C Typical Sleep Mode current: ≤ 1μA at 85°C   Operation Operation temperature: temperature: –40°C –40°C to to +125°C +125°C Operation temperature: –40°C to +125°C   Die Die oror TSSOP14 TSSOP14 package package Die or TSSOP14 package

Available AvailableSupport Support Available Support

  ZSSC3123 ZSSC3123 SSC SSC Evaluation Evaluation KitKit available: available: SSC SSC ZSSC3123 SSC Evaluation Kit software, available: SSC Evaluation Evaluation Board, Board, samples, samples, software, documentation. documentation. Board, samples, software, documentation.  Evaluation  Support Support for for industrial industrial mass mass calibration calibration available. available.   Support for industrial mass calibration available.  Quick Quick circuit circuit customization customization option option forfor large large production production  Quick circuit customization option for large production volumes. volumes. volumes. 

Application: Digital Output, Alarms Application: Digital Output, Alarms Application: Digital Output, Alarms

VSUPPLY VSUPPLY VSUPPLY (2.3V (2.3V to 5.5V) to 5.5V) (2.3V to 5.5V)

cLite cLite cLite

VDD VDD ™™ VDD ™ ZSSC3123 ZSSC3123 Vcore Vcore 0.1µF Vcore 0.1µF 0.1µF 0.1µF ZSSC3123 0.1µF 0.1µF Ready Ready Ready VSS VSS SDA/MISO SDA/MISO VSS SDA/MISO GND GND SCL/SCLK SCL/SCLK GND SCL/SCLK SSSS C0C0 SS C0 Alarm_High Alarm_High Alarm_High CCCC Alarm_Low Alarm_Low CC Alarm_Low

2 * I2*C™ I C™ is aisregistered a registered trademark trademark of NXP. of NXP. * I2C™ is a registered trademark of NXP.

† See † See data data sheet sheet section section 1.31.3 for for restrictions. restrictions. † See data sheet section 1.3 for restrictions.

For For more more information, information, contact contact us atSSC@zmdi.com. atSSC@zmdi.com. SSC@zmdi.com. For more information, contact ususat

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© 2013 © 2013 Zentrum Zentrum Mikroelektronik Mikroelektronik Dresden Dresden AGAG — Rev. — Rev. 1.62 1.62 — December — December 11,11, 2013. 2013. All All rights rights reserved. reserved. TheThe material material contained contained herein herein may may notnot be be reproduced, reproduced, adapted, adapted, merged, merged, © 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.62 — December 11, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, translated, stored, stored, or used or used without without thethe prior prior written written consent consent of the of the copyright copyright owner. owner. TheThe information information furnished furnished in this in this publication publication is subject is subject to changes to changes without without notice. notice. translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSSC3123

cLite™ Capacitive Sensor Signal Conditioner

ZSSC3123

ZSSC3123 cLite™ Capacitive Sensor Signal Conditioner

Block Diagram

VDD (2.3V to 5.5V) Vcore

Temp Sensor

0.1µF

Ref Cap

Offset Cap

EEPROM

CLK/Reset

Ready

SCL/SCLK SDA/MISO

PDM 0.1µF

Sensor

C/A

MUX

0.1µF

Low Alarm

ROM Analog Core

Application: Analog Output

0.1µF

Alarm_Low/PDM_T

DSP

SUPPLY (+2.3V to 5.5V)

cLite™

PDM_C

Output Communication

Digital Core

VSUPPLY

VDD

(+2.3V to 5.5V)

0.1µF

Cap. Analog Output

0.1µF

VSS

GND

Temp Analog Output

PDM_T C0

Vcore

Ready SDA/MISO

SCL/SCLK

Alarm_High

cLite™

ZSSC3123

VSS

LED CC

Alarm_High

Application: Differential Capacitance Input

ZSSC3123

GND

High Alarm

VSS

Vcore

D CDC

(Optional)

VDD

Ready/PDM_C

I2C / SPI

SS Alarm_High Alarm_Low

Ordering Codes Sales Code

Description

Package

ZSSC3123AA1B

ZSSC3123 die — Temperature range: -40°C to +125°C

ZSSC3123AI1B

ZSSC3123 die — Temperature range: -40°C to +85°C

Tested dice on un-sawn wafer

ZSSC3123AA1C

ZSSC3123 die — Temperature range: -40°C to +125°C

Tested dice on frame

ZSSC3123AI1C

ZSSC3123 die — Temperature range: -40°C to +85°C

Tested dice on frame

ZSSC3123AA2

ZSSC3123 TSSOP14 — Temperature range: -40°C to +125°C – Lead-free package

Tube: add “T” to code; reel: add “R”

ZSSC3123AI2

ZSSC3123 TSSOP14 — Temperature range: -40°C to +85°C – Lead-free package

Tube: add “T” to code; reel: add “R”

ZSSC3123KIT

Kit ZSSC3123 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples (software can be downloaded from www.zmdi.com/zssc3123)

Sales and Further Information Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772 European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

Tested dice on un-sawn wafer

www.zmdi.com

SSC@zmdi.com

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone Fax

+81.3.6895.7410 +81.3.6895.7301

+886.2.2377.8189 +886.2.2377.8199

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© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.62 — December 11, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

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Basic Application Overview

ZMDI‘s Sensor Signal Conditioners Resistive SSC Sensitivity > 20mV/V Sensor Measurand

> 10mV/V

Typical Resistive Sensor Type

>5mV/V > 2mV/V Analog Output Digital Output Analog Output Digital Output Analog Output Digital Output Analog Output

Pressure Temperature Flow Level

Ceramic Thick Film Bridge Metal Thin-Film Bridge Strain Gauge Bridge

Position

Magneto-resistive

Altitude

Resistive Bridge

Sensor Measurand

ZSC31050 ZSSC3138 ZSC31150 ZSSC3154

ZSC31050 ZSSC3170

ZSSC3138

ZSC31014

ZSC31015 ZSSC3015 ZSSC3131 ZSSC3135 ZSSC3136

ZSSC3016 ZSSC3026 ZSSC3036 ZSSC3027

ZSC31010

ZSSC3016 ZSSC3026 ZSSC3036 ZSSC3027

Maximum Input Capacitance

Typical Sensor Type

2 - 10pF

NOTE: PINK FONT INDICATES AUTOMOTIVE QUALIFIED PRODUCTS

2-260pF

Analog Output Digital Output Analog Output Digital Output

Humidity

Supply Voltage Range Resistive SSC

Capacitive

Supply Voltage Range Automotive Resistive SSC

ZSSC3122

ZSSC3015: 2.7 to 5.5 V *

ZSSC3122: 1.8 to 5.5 V

ZSSC3016: 1.8 to 3.6 V

ZSC31050: 2.7 to 5.5 V **

ZSSC3123: 2.3 to 5.5 V

ZSC31150: 4.5 to 5.5 V

ZSSC3036: 1.8 to 3.6 V

ZSSC3131: 4.5 to 5.5 V

ZSC31010: 2.7 to 5.5 V *

ZSSC3135: 4.5 to 5.5 V

ZSC31014: 2.7 to 5.5 V

ZSSC3136: 4.5 to 5.5 V

ZSC31015: 2.7 to 5.5 V *

ZSSC3138: 4.5 to 5.5 V ZSSC3154: 4.5 to 5.5 V ZSSC3170: 7 to 18 V

ZSSC3123

Supply Voltage Range Capacitive SSC

ZSSC3027: 1.7 to 3.6 V ZSSC3026: 1.8 to 3.6 V

ZSSC3123

* 5.5 to 30 V with external JFET ** 5 to 40 V with external JFET

The modular Sensor Signal Conditioner (SSC) Evaluation Kits are designed to provide an overview of the functions and configuration options for ZMDI’s SSC IC Family. These kits provide support for newcomers and experienced users. To evaluate different SSCs with a ZMDI modular kit, simply interchange the IC-specific SSC Evaluation Boards and software designed specifically for the SSCs. Each SSC Evaluation Board is simple to connect and operate. ICs under test are installed in a common ZIF-socket for easy interchange. On-board LEDs display the status of the power supply and, if applicable, the status of digital outputs (e.g., alarm signals for the ZSC31050). Several connectors allow access to all I/O signal lines for the SSC for simple system verification. Screw terminals can be used to connect actual sensor elements. Initial evaluation of the SSC can be done with a Sensor Replacement Board.

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Battery Management Adaptive and Efficient

Battery Management from Our Award-Winning Solutions Enable Energy-Efficient Usage

ZMDI’s Battery Monitoring ICs Enable Energy-Efficiency Due to the urgent global need to reduce environmental pollution and to meet governmental regulations limiting maximum harmful emission from vehicles, automotive companies are increasing their efforts to introduce features aimed towards reducing fuel consumption. One of these highly effective fuel saving features is the start-stop-system, which automatically shuts down and restarts the engine as needed to reduce the amount of time the engine spends idling, thereby reducing fuel consumption and emissions by as much as 5 to10 percent. In order to ensure a safe re-start of the engine once it has been turned off, precise information on the charge condition of the starter battery is essential. ZMDI’s battery monitoring ICs accurately determine the charge condition of the battery based on inputs including charge and discharge currents, battery voltage, temperature, and aging. Both voltage and current are measured with two highly linear, synchronous 24-bit analog-to-digital converters. Measuring charge and discharge currents is particularly challenging as the battery monitoring IC must be capable of precisely measuring milliampere currents when the engine is turned off and up to more than one thousand amperes when the engine is started. ZMDI’s battery monitoring ICs can achieve this requirement by means of a shunt-resistor-based current measurement technique combined with a highly dynamic embedded programmable gain amplifier. Another challenging requirement is for ultralow power consumption in standby mode, for example when a vehicle is parked. The battery monitoring IC must continue to monitor the battery’s state even when the engine is turned off. In this standby mode, our battery monitoring ICs typically consume only 55 to 60 μA.

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Battery Monitoring ICs with Internal and External Microcontrollers ZMDI offers two product lines for battery monitoring ICs: one for external microcontrollers and a more advanced line with an integrated 32-bit ARM© Cortex™ based microcontroller.* Our leading-edge ICs with an internal microcontroller are preferred for small form-factor, standalone intelligent battery monitoring systems. Our battery monitoring ICs for use with external microcontrollers are preferred for solutions that are embedded in systems that already contain a microcontroller or where one master controller controls several battery monitoring slaves, such as in multi-battery applications or systems requiring additional safety via redundant measurement of battery current. ZMDI’s ICs with an internal microcontroller offer effective intellectual property safeguarding for customer software by employing copy protection for the user’s firmware on the chip.

Battery Management by ZMDI – Award Winning Products The ever-increasing global demand for energy underscores the need for products that have a real impact in helping to conserve energy and therefore reduce CO2 emissions. We at ZMDI believe that energy-efficiency begins at the chip level, and we are proud of being leaders in this area. Our product designers develop semiconductor products that are used by our customers to design innovative energy-efficient systems. Our efforts have received worldwide recognition. The jury for the 2013 Green Apple Awards chose ZMDI for its award for “Battery Monitoring ICs for Start-Stop Features in Vehicles.” We were selected as a finalist in the EE Times and EDN Annual Creativity in Electronics (ACE) Awards 2014 for the category ”Energy Technology Award“ for our ZSSC1956 Intelligent Battery Monitoring Solution. Frost & Sullivan recognized ZMDI with the 2012 Europe Frost & Sullivan New Product Innovation Award for our battery monitoring device.

Applications for ZMDI Battery Management ICs • Lead acid battery monitoring • Battery monitoring for energy storage; e.g., in photovoltaic installations • Intelligent sensors and sensor interfaces • Electric energy measurement and monitoring

’s award winning battery

Key Features Intelligent Battery Sensor ICs • Wide operating temperature: -40°C to +125°C • High-Precision 24-bit sigma-delta ADC (18 bits with no missing codes) • On-chip voltage reference (5ppm/K) • External or internal, factory-calibrated temperature sensor • Small PQFN packages: 5x5mm or 6x6mm • 32-bit ARM® Cortex™-M0* microcontroller

monitoring ICs offer high precision, high resolution, ultra-low power consumption, and the smallest package footprint of its kind on the

Highly Efficient Analog ICs for Charge Management • ZSPM4121 Under-Voltage Load Switch • ZSPM4521 High-Efficiency Charger for Li-Ion Batteries with Photovoltaic Sources

market

• ZSPM4523 High-Efficiency Solar PV MPPT Regulator for Super Capacitor Systems • ZSPM4551 High-Efficiency Li-Ion Battery Charger ARM© and Cortex™ are trademarks of ARM, Ltd.

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ZSSC1856 ZSSC1856 Intelligent Battery Sensor IC ZSSC1856 Intelligent Battery Sensor IC Intelligent Battery Sensor IC

ZSSC1856

Intelligent Battery Sensor IC

Brief Description Brief Description Brief Description The ZSSC1856 is a dual-channel ADC with an em-

The ZSSC1856 is a dual-channel ADC with an embedded microcontroller for battery sensing/manageThe ZSSC1856 is a dual-channel ADC with an embedded microcontroller for battery sensing/management inmicrocontroller automotive, industrial, andsensing/managemedical systems. bedded for battery ment in automotive, industrial, and medical systems. Oneinofautomotive, the two input channels measures the battery ment industrial, and medical systems. One of the two channels measures the battery IBAT viainput the voltage drop at the external shunt current One of Ithe two input channels the battery BAT via second the voltage dropmeasures at the external shunt current resistor. The channel measures the battery IBAT via the voltage dropmeasures at the external shunt current resistor. second channel theintegrated battery and the temperature. An voltage The VBAT resistor. The second channel measures the battery BAT and the temperature. An integrated voltage V flash memory is provided for customer-specific softand the temperature. An integrated voltage VBAT is flash memory provided for customer-specific software; e.g., dedicated algorithms for calculating the flash memory is provided for customer-specific software; e.g., dedicated algorithms for calculating the battery state. ware; batterye.g., state.dedicated algorithms for calculating the Duringstate. Sleep Mode (e.g., engine off), the system battery During Sleep Mode (e.g., enginetooff), the system makes periodic measurements monitor the disDuring periodic Sleep Mode (e.g., engine off), the the system makes measurements to monitor discharge of the battery. Measurement cycles are makes periodic measurements to monitor the discharge of the battery. Measurement cycles are controlled by the software and include various wakecharge ofbythe battery. Measurement cycleswakeare controlled theThe software and include various up conditions. ZSSC1856 is optimized for ultracontrolled by the software and include various wakeuplow conditions. The ZSSC1856 optimized ultra-or power consumption and is only for 100µA up conditions. The ZSSC1856 isdraws optimized for ultralow power and draws only 100µA or less in thisconsumption mode. low power consumption and draws only 100µA or less in this mode. less in this mode.

Benefits Benefits Benefits  Precision measurement solution for accurate

   

Features Features Features  High-precision 24-bit sigma-delta ADC

 

   

 

                 

High-precision 24-bit sigma-delta (18 bits with no missing codes) ADC High-precision sigma-delta (18 bits with no24-bit missing codes) ADC  (18 On-chip voltage reference (5ppm/K) bits with no missing codes) On-chip voltage reference (5ppm/K)  On-chip Currentvoltage channel reference (5ppm/K) Current channel  IBATchannel offset error: ≤ 10mA Current  IBAT offset error: ≤ 10mA IBAToffset resolution: 1mA   IBAT error: ≤≤ 10mA  IBAT resolution: ≤ 1mA  Programmable gain:  IBAT resolution: ≤ 1mA 4 to 512  Programmable gain: 4 to 512 Sampling rate:gain: 1Hz 4toto16kHz   Programmable 512  Sampling rate: 1Hz to 16kHz   Voltage channel Sampling rate: 1Hz to 16kHz Voltage channel  Input range: 4 to 28.8V Voltage channel  Input range: 4 to 28.8V Voltage accuracy: ± 2mV   Input range: 4 to 28.8V  Voltage accuracy: ± 2mV   Temperature channel Voltage accuracy: ± 2mV Temperature channel  Internal temperature sensor: ± 2°C Temperature channel  Internal temperature sensor: ± 2°C External temperature sensor± (NTC)   Internal temperature sensor: 2°C  External temperature sensor (NTC)   On-chip precision oscillator (1%) External temperature sensor (NTC) On-chip precision oscillator (1%)  On-chip On-chipprecision low-power oscillator oscillator (1%) On-chip ® low-power oscillator  On-chip ARM Cortex™-M0* microcontroller: low-power oscillator ® ARM Cortex™-M0* microcontroller: ® core, 10MHz to 20MHz 32-bit ARM Cortex™-M0* 32-bit core, 10MHz tomicrocontroller: 20MHz  32-bit 96kBcore, Flash/EE Memory with ECC, 8kB SRAM 10MHz to 20MHz 96kB Flash/EE Memory with ECC, 8kB SRAM  96kB LIN2.1 / SAE J2602-1 Flash/EE Memory Transceiver with ECC, 8kB SRAM LIN2.1 / SAE J2602-1 Transceiver  LIN2.1 Directly connected to 12V battery supply / SAE J2602-1 Transceiver Directly connected to 12V battery supply  Directly Currentconnected consumption to 12V battery supply Current consumption  Normal Mode: 10mA to 20mA Current consumption  Normal Mode: 10mA to 20mA Low-Power   Normal Mode:Mode: 10mA≤to100µA 20mA  Low-Power Mode: ≤ 100µA  Low-Power Mode: ≤ 100µA ® ® * The ARM , Cortex™, and Thumb -2 trademarks are owned by ARM, Ltd.

® 2 ® * The ARM , Cortex™, Thumbby -2NXP. trademarks are owned by ARM, Ltd. trademarkand is owned The I C™ 2 owned by ®NXP. I C™®trademark * The ARM , Cortex™,isand Thumb -2 trademarks are owned by ARM, Ltd. 2 The I C™ trademark is owned by NXP.

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 

Precision measurement solution for accurate prediction of battery state of health (SOH), state Precision measurement solution for(SOH), accurate prediction of battery state of health state of charge (SOC) or state of function (SOF) prediction of battery stateofoffunction health (SOH), of charge (SOC) or state (SOF) state  ofFlexible wake-up minimum charge (SOC) or modes state ofallow function (SOF)power Flexible wake-up modes allow minimum power consumption without sacrificing performance Flexible wake-up modes allow minimum power consumption without sacrificing performance  consumption No temperature calibration or external trimming without sacrificing performance No temperaturerequired calibration or external trimming components No temperature calibration or external trimming components required  components Optimized code density through small instruction required ® Optimized code density through -2 * small instruction set architecture Thumb Optimized code Thumb density®through small instruction -2 * set architecture ®  set Robust POR concept automotive -2 harsh * architecture Thumb for Robust POR concept for harsh automotive environments Robust POR concept for harsh automotive environments  environments Industry’s smallest footprint allows minimal Industry’s smallest footprint allows minimal module size and cost Industry’s smallest footprint allows minimal module size and cost module size and cost

Available Support Available Support Available Support  Evaluation Kit and application notes  

Evaluation Kit and application notes Evaluation Kit and application notes

Physical Characteristics Physical Characteristics Physical Characteristics  Wide operation temperature: -40°C to +125°C  Wide operation temperature: -40°C to +125°C Supply voltage: 3.5 to 18 V -40°C to +125°C   Wide operation temperature:  Supply voltage: 3.5 to 18 V  Small footprint package:  Supply voltage: 3.5 to 18 VPQFN32 5x5 mm  Small footprint package: PQFN32 5x5 mm  Small footprint package: PQFN32 5x5 mm

Basic ZSSC1856 Application Circuit Basic ZSSC1856 Application Circuit To Harness Basic ZSSC1856 Application Circuit To+ Harness- Car Chassis Ground +To Harness + -Car Chassis Ground Car Chassis Ground

VBAT VDDE VBAT VDDE INP VBAT INN INP VDDE INN INPVDDA INN VDDA

Rshunt Rshunt Rshunt

+ + Battery +BatteryBattery

f f f

LIN LIN LIN

ZSSC1856 ZSSC1856 ZSSC1856

VDDA 5 GPIO NTH 5 GPIO NTH 5 VSSA VSSE GPIO NTH VSSE NTC VSSA

NTC

VSSA

Host Controller Host LIN Controller Host Interface LIN Controller Interface LIN Interface

Optional GPIO: Optional SPI, I²C™, GPIO: Optional UART SPI, I²C™, GPIO: UART SPI, I²C™, UART

VSSE

NTC

ZSSC1856

Intelligent Battery Sensor IC

CAR BODY

UBAT

ZSSC1856 Block Diagram

ZSSC1856 Stacked Die

Analog Block

LP_REG

VDDP_REG

BG_REF

WD_TIMER

VDDA_REG

VDDC_REG

OSC

GP_TIMER

SD_ADC

DIGITAL FILTER

CONFIG REGISTER

RESULT REGISTER

SD_ADC

DIGITAL FILTER

CALIBRATION DATA PATH

SPI

SHUNT

PGA

Digital Block

RREF

+ – BATTERY

MUX NTC

GPIO: SPI, I2C™, UART

GPIO: SPI, I C™, UART 2

LIN

LIN UART

LIN_PHYS

RAM

SBC

FLASH

Microcontroller

Typical Application Circuit

Applications  Intelligent battery sensing

BAT+

for automotive applications; e.g., start/stop systems, e-bikes, scooters, and e-carts

Dbat PESD1LIN

Cddl c=10nF

Rtest r=1kΩ

Cbat c=22nF

Clin c=220pF

Ddde

 Industrial and medical applica-

tions requiring precise battery SOC, SOH and SOF monitoring; e.g., emergency lighting, uninterruptable power supplies, hospital equipment, alarm systems, and more

Cddp c=2.2µF Cddp c=2.2µF

Rbat r=100Ω

µC

BAS20

Chassis GND

BAT-

Rinp Rshunt r=221Ω r=100µΩ Rinn r=221Ω

Cdda c=470nF

VBAT VPP VDDP VDDC TEST VSSPC VDDL LIN

Rdde r=2.2Ω

lin

Cdde c=10µF

Cinp c=1nF

VDDE

VSSLIN

VSSE

TESTH

n.c.

VSSA

TESTL

n.c .

INP

Cin c=10nF

STO

sto

TCK

tck

VSSA

TMS

tms

VDDA

TRSTN

ZSSC1856

INN

Cinn c=1nF Rref r=2.2kΩ Rntc r=1kΩ

NTH

Cntc c=470pF

Ordering Information

trstn

VSSN

NTL GPIO0 GPIO1 GPIO2 GPIO3 GPIO4 TDO

gpio0 gpio1 gpio2 gpio3 gpio4

tdo

TDI

tdi

Product Sales Code

Description

Package

ZSSC1856CA6R

ZSSC1856 battery sensing IC – temperature range -40°C to +125°C

PQFN32 5x5 mm (reel)

ZSSC1856KIT V1.0

Modular evaluation and development board for Kit boards, IC samples, USB cable, ZSSC1856 DVD with software and documentation

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ZSSC1956

Intelligent Battery Sensor IC

ZSSC1956

Intelligent Battery Sensor IC

Brief Description The ZSSC1956 is a dual-channel ADC with an embedded microcontroller for battery sensing/management in automotive, industrial, and medical systems. One of the two input channels measures the battery current IBAT via the voltage drop at the external shunt resistor. The second input channel measures the battery voltage VBAT and the temperature. An integrated flash memory is provided for customerspecific software; e.g., dedicated algorithms for calculating the battery state. During Sleep Mode (e.g., engine is off), the system makes periodic measurements to monitor the discharge of the battery. Measurement cycles are controlled by the software and include various wakeup conditions. The ZSSC1956 is optimized for ultralow power consumption and draws only 100µA or less in Low-Power Mode.

Features   

High-precision 24-bit sigma-delta ADC (18-bit with no missing codes); sample rate: 1Hz – 16kHz On-chip voltage reference (5ppm/K typical) Current channel    



Voltage channel  



    

Input range: 4 to 28.8V Voltage accuracy: better than ±2mV

Temperature channel  



IBAT offset error: ≤ 10mA IBAT resolution: ≤ 1mA Programmable gain: 4 to 512 Differential input stage input range: ± 300mV

Integrated, precision measurement solution for accurate prediction of battery state of health (SOH), state of charge (SOC) or state of function (SOF) Flexible wake-up modes allow minimum power consumption without sacrificing performance No temperature calibration or external trimming components required Optimized code density through small instruction ® set architecture Thumb -2 * Robust power-on-reset (POR) concept for harsh automotive environments Industry’s smallest footprint allows minimal module size and cost AEC-Q100 qualified solution



     

Available Support Evaluation Kit Application Notes

 

Physical Characteristics Wide operation temperature: -40°C to +125°C Supply voltage: 4.2 to 18 V Small footprint package: PQFN32 5x5 mm

  

Basic ZSSC1956 Application Circuit

To Harness

Car Chassis Ground

Internal temperature sensor: ± 2°C External temperature sensor (NTC)

On-chip precision oscillator (1%) and on-chip low-power oscillator ® ARM Cortex™-M0* microcontroller: 32-bit core, 10MHz to 20MHz 96kB Flash/EE Memory with ECC, 8kB SRAM LIN2.2 / SAE J2602-2 compliant Directly connected to 12V battery supply Current consumption  

Benefits

Normal Mode: 10mA to 20mA Low-Power Mode: ≤ 100µA

VBAT VDDE

Host Controller LIN Interface

LIN

INP INN Rshunt

VDDA

Battery

ZSSC1956

NTH

GPIO

NTC NTL

VSSA

Optional GPIO: SPI, I²C™, UART

VSSE Module Ground

* The ARM®, Cortex™, and Thumb®-2 trademarks are owned by ARM, Ltd. The I2C™ trademark is owned by NXP.

For more information, contact ZMDI via Sales@zmdi.com © 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.04 — May 19, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZSSC1956

Intelligent Battery Sensor IC

CAR BODY

UBAT

ZSSC1956 Stacked Die

ZSSC1956 Block Diagram

Analog Block

LP_REG

VDDP_REG

BG_REF

WD_TIMER

VDDA_REG

VDDC_REG

OSC

GP_TIMER

SD_ADC

DIGITAL FILTER

CONFIG REGISTER

RESULT REGISTER

SD_ADC

DIGITAL FILTER

CALIBRATION DATA PATH

SPI

SHUNT

PGA

Digital Block

RREF

+ – BATTERY

MUX NTC

GPIO: SPI, I2C™, UART

GPIO: SPI, I C™, UART 2

LIN

Module GND

LIN UART

LIN_PHYS

RAM

SBC

100Ω

 Intelligent battery sensing for automotive

Ddde

requiring precise battery SOC, SOH and SOF monitoring; e.g., emergency lighting, uninterruptable power supplies, hospital equipment, alarm systems, and more

Rinp

Chassis GND

BAT-

Rshunt 100µΩ

221Ω Rinn 221Ω

Cdda 470nF

100nF

Cinp 10nF

VDDE

VSSLIN

VSSE

TESTH

n.c.

VSSA

TESTL

n.c .

STO

sto

TCK

tck

VSSA

TMS

tms

VDDA

TRSTN

ZSSC1956

INN

Cinn 10nF Rref 75kΩ

NTH

Cntc 470pF

lin

VBAT VPP VDDP VDDC TEST VSSPC VDDL LIN 1

INP

Cin 100nF

Rntc 10kΩ

Cddl 10nF

Clin 220pF

Rdde Cdde1 Cdde2 10µF

Cddc 2.2µF Rtest 1kΩ

Cbat 100nF

Dbat GSOT36

BAS21 2.2Ω

 Industrial and medical applications

Cddp 2.2µF

Rbat

BAT+

applications; e.g., start/stop systems, e-bikes, scooters, and e-carts

µC

Microcontroller

Typical Application Circuit Applications

FLASH

trstn

VSSN

NTL GPIO0 GPIO1 GPIO2 GPIO3 GPIO4 TDO

gpio0 gpio1 gpio2 gpio3 gpio4

tdo

TDI

tdi

Ordering Information Product Sales Code

Description

Package

ZSSC1956AA2R ZSSC1956KIT V1.0

ZSSC1956 battery sensing IC – temperature range -40°C to +125°C PQFN32 5x5 mm (reel) ZSSC1956 Evaluation Kit: modular evaluation and development board for ZSSC1956, IC samples, and USB cable, (software and documentation can be downloaded from the product page at www.zmdi.com/zssc1956)

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Mobile Sensing Smart and Mobile

Mobile Sensing from Interface Solutions for Mobile And Wearable Sensors

Mobile Sensing ICs from ZMDI Industry leaders are predicting double-digit growth for the global market for mobile sensors, which is expected to expand to over 22 billion dollars by 2018. ZMDI’s next generation sensing technology can shorten critical time-to-market essential to meeting the increasing demands for smaller mobile products with more sophisticated features. Given ZMDI’s focus on designing best-in-class energy efficient solutions that reduce the demand for energy consumption, it is clear why market leaders build long-term relationships with ZMDI. With new solutions rapidly emerging in the market for mobile sensing systems and higher levels of integration driving new development, ZMDI is well placed to offer solutions that advance opportunities in this high-growth market. With highly integrated products providing advanced signal conditioning and sensing capabilities, ZMDI is positioned to be a true partner to tier-one suppliers, emerging market suppliers, MEMS suppliers, and reference design houses. For example, our recently released ZOPT3100 includes an ambient light sensor (ALS), a color sensor (CS), a proximity sensor (PS), and an integrated IR LED driver on a single chip.

Key Features for ZMDI Mobile Sensor ICs • High accuracy and resolution for precise sensor signal conditioning • Best-in-class power consumption, accuracy, and resolution • Small package size and flexible delivery forms • Minimal number of external components • Single-pass calibration

Applications for ZMDI Mobile Sensor ICs • • • • • •

Altimeter/barometric Proximity sensing Ambient light/color sensing Temperature sensing Vital parameter sensing Humidity sensing

Sensor Signal Conditioner ICs are highly integrated energyefficient products that are easy to use as they are supported by sophisticated evaluation software and experienced technical staff

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ZSSC3016 ZSSC3016 ZSSC3016

Low Power 16 Bit Sensor Signal Conditioner IC Low Low Power Power 1616 Bit Bit Sensor Sensor Signal Signal Conditioner Conditioner ICIC

ZSSC3016

Low Power 16-Bit Sensor Signal Conditioner IC

  

  

TheZSSC3016 ZSSC3016isisisa aasensor sensorsignal signalconditioner conditioner The The ZSSC3016 sensor signal conditioner (SSC) integrated circuit for highaccuracy ampli (SSC) (SSC)integrated integratedcircuit circuitforforhighaccuracy highaccuracyampli ampli fication and analogtodigital conversion of a differ fication ficationand andanalogtodigital analogtodigitalconversion conversionofofa adiffer differ ential input signal. Designed for high resolution ential entialinput inputsignal. signal.Designed Designedforforhigh highresolution resolution altimeter module applications, the ZSSC3016 can altimeter module applications, the ZSSC3016 can altimeter module applications, the ZSSC3016 can nd st1stst and nd nd 2 order perform offset, span, and and 2 2 order order perform perform offset, offset, span, span, and and 1 1 and temperature compensation of the measured signal. temperature compensation ofof the measured signal. temperature compensation the measured signal. Developed forfor for correction correction ofof of resistive resistive bridge bridge Developed Developed correction resistive bridge sensors, it can also provide a corrected sensors, sensors, it it can can also also provide provide a a corrected corrected temperatureoutput outputmeasured measuredwith withanan aninternal internal temperature temperature output measured with internal sensor. sensor. sensor.

Integrated 18bit calibration math DSP   Integrated Integrated 18bit 18bit calibration calibration math math DSP DSP Fully corrected signal at digital output   Fully Fully corrected corrected signal signal atat digital digital output output

Themeasured measuredand andcorrected correctedbridge bridgevalues valuesare are The The measured and corrected bridge values are providedatat atthe thedigital digitaloutput outputpins, pins,which whichcan canbebe be provided provided the digital output pins, which can 22C* (≤ 3.4MHz) or SPI (≤ 20MHz). configuredasas asI2C* (≤(≤3.4MHz) 3.4MHz)ororSPI SPI(≤(≤20MHz). 20MHz). configured configured II C* Digitalcompensation compensationofof ofsignal signaloffset, offset,sensitivity, sensitivity, Digital Digital compensation signal offset, sensitivity, temperature, and nonlinearity accomplished via temperature, and nonlinearity isisis accomplished via temperature, and nonlinearity accomplished via an18bit 18bitinternal internaldigital digitalsignal signalprocessor processor(DSP) (DSP) anan 18bit internal digital signal processor (DSP) running a correction correction algorithm. Calibration coeffici running a acorrection algorithm. Calibration coeffici running algorithm. Calibration coeffici entsare arestored storedonchip onchipinin ina aahighly highlyreliable, reliable,non non ents ents are stored onchip highly reliable, non volatile,multipletime multipletime programmable (MTP) mem volatile, programmable (MTP) mem volatile, multipletime programmable (MTP) mem ory. Programming the ZSSC3016 simple via the ory. Programming the ZSSC3016 isisis simple via the ory. Programming the ZSSC3016 simple via the serialinterface interfaceand andthe thePCcontrolled PCcontrolledcalibration calibration serial serial interface and the PCcontrolled calibration softwareprovided providedinin inthe theZMDI ZMDIDevelopment DevelopmentKit. Kit. software software provided the ZMDI Development Kit. The interface is used for the PCcontrolled cali The Theinterface interfaceisisused usedforforthe thePCcontrolled PCcontrolledcali cali bration procedure, which programs the set of cali bration procedure, which programs the set ofof cali bration procedure, which programs the set cali bration coefficients in memory. The digital mating bration brationcoefficients coefficientsininmemory. memory.The Thedigital digitalmating mating fastand andprecise, precise,eliminating eliminatingthe theoverhead overhead isisisfast fast and precise, eliminating the overhead normallyassociated associatedwith withtrimming trimmingexternal externalcom com normally normally associated with trimming external com ponents and multipass calibration routines. ponents ponentsand andmultipass multipasscalibration calibrationroutines. routines.

  

Flexible, programmable analog frontend   Flexible, Flexible, programmable programmable analog analog frontend frontend

  

   

design; up to 16bit scalable, chargebalancing design; design; upup toto 16bit 16bit scalable, scalable, chargebalancing chargebalancing twosegment analogtodigital converter (ADC) twosegment twosegmentanalogtodigital analogtodigitalconverter converter (ADC) (ADC) Fully programmable gain amplifier accepting  Fully Fully programmable programmable gain gain amplifier amplifier accepting accepting sensors from 14 to 72 (linear factor) sensors sensors from from 1414 toto 7272 (linear (linear factor) factor) Internal autocompensated temperature sensor  Internal Internal autocompensated autocompensated temperature temperature sensor sensor  Digital compensation of individual sensor offset;  Digital Digitalcompensation compensationofofindividual individualsensor sensoroffset; offset; nd st1stst andnd nd 2 order digital compensation of sensor and2 2 order orderdigital digitalcompensation compensationofofsensor sensor 1 1 and gain gain gain nd st stst andnd nd Digital compensation of order tem  Digital Digital compensation compensation ofof 1 11and and2 22 order order tem tem perature gain and offset drift perature perature gain gain and and offset offset drift drift Intelligent power management unit  Intelligent Intelligent power power management management unit unit Layout customized for diedie bonding with  Layout Layout customized customized forfor diedie diedie bonding bonding with with sensor for highdensity chiponboard assembly sensor sensor forfor highdensity highdensity chiponboard chiponboard assembly assembly Typical sensor elements can achieve accuracy  Typical Typical sensor sensor elements elements can can achieve achieve accuracy accuracy of less than ±0.10% FSO @ 40 to 85 °C ofof less less than than ±0.10% ±0.10% FSO FSO @@ 40 40 toto 8585 °C°C

Minimize calibration costs through the onepass   Minimize Minimize calibration calibration costs costs through through the the onepass onepass calibration concept calibration calibration concept concept No external trimming components required   No No external external trimming trimming components components required required  Highly integrated CMOS design   Highly Highlyintegrated integratedCMOS CMOSdesign design Excellent for lowvoltage and lowpower battery   Excellent Excellent forfor lowvoltage lowvoltage and and lowpower lowpower battery battery applications applications applications

   Supply voltage range: 1.8 to 3.6V   Supply Supply voltage voltage range: range: 1.8 1.8 toto 3.6V 3.6V Current consumption: 1mA (operating mode)   Current Current consumption: consumption: 1mA 1mA (operating (operating mode) mode) Sleep State current <250nA (25°C)   Sleep Sleep State State current current <250nA <250nA (25°C) (25°C) Temperature resolution: <0.003K/LSB   Temperature Temperature resolution: resolution: <0.003K/LSB <0.003K/LSB

Operation temperature: –40°C to +85 °C   Operation Operation temperature: temperature: –40°C –40°C toto +85 +85 °C°C Small die size: 1.5mm²   Small Small die die size: size: 1.5mm² 1.5mm² Delivery options: die for wafer bonding   Delivery Delivery options: options: die die forfor wafer wafer bonding bonding

   The ZSSC3016 designed for operation in The The ZSSC3016 ZSSC3016 isisis designed designed forfor operation operation inin calibrated resistive (pressure) sensor modules: calibrated calibratedresistive resistive(pressure) (pressure)sensor sensormodules: modules: Barometric altitude measurement for portable   Barometric Barometric altitude altitude measurement measurement forfor portable portable navigation navigation navigation Altitude measurement for emergency call   Altitude Altitude measurement measurement forfor emergency emergency call call systems systems systems Altitude measurement for car navigation   Altitude Altitude measurement measurement forfor car car navigation navigation  Inside hard disk pressure measurement   Inside Insidehard harddisk diskpressure pressuremeasurement measurement Weather forecast   Weather Weather forecast forecast Fan control   Fan Fan control control   

* I2C is a registered trademark of NXP.

* **

 

2 Cis registered trademark ofNXP. NXP. I2CII2C is aisregistered aaregistered trademark trademark of of NXP.

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   Allrights rights reserved. The material contained herein may not bereproduced, reproduced, adapted, merged, translated, stored, orused used without the prior written consent the copyright owner. All All rights reserved. reserved. The The material material contained contained herein herein may may notnot be be reproduced, adapted, adapted, merged, merged, translated, translated, stored, stored, or used or without without thethe prior prior written written consent consent of the ofofthe copyright copyright owner. owner. The information furnished this publication is and subject changes without notice. The The information information furnished furnished in this ininthis publication publication is is andand subject subject to changes totochanges without without notice. notice.

ZSSC3016

Low Power 16 Bit Sensor Signal Conditioner IC



 





ZSSC3016CC1B

Temperature range: –40°C to +85 °C, ConsumerLevel: Parameter according Data Sheet

Wafer (304um) unsawn

ZSSC3016CI1B

Temperature range: –40°C to +85 °C, IndustrialLevel: 10 years MTPData Retention; 20FIT

Wafer (304um) unsawn

ZSSC3016CI1D ES

Engineering Samples, Temperature range: –40°C to +85 °C

Dice in Waffle Pack

ZSSC3016KIT

ZSSC3016 Evaluation Kit, including sample, modular evaluation board, and evaluation software.

Kit

* Please contact ZMDI Sales for additional options.

  



Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone Fax

+49 (0)351.8822.7.772 +49 (0)351.8822.87.772

+1 (608) 8291987 +1 (631) 5492882



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 



Phone Fax

2nd Floor, Shinbashi Tokyu Bldg. 4213, Shinbashi, Minatoku Tokyo, 1050004 Japan +81.3.6895.7410 +81.3.6895.7301

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

+886.2.2377.8189 +886.2.2377.8199

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are and subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise

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ZSSC3026 ZSSC3026

Low Low Power Power 1616 BitBit Sensor Sensor Signal Signal Conditioner Conditioner ICIC

ZSSC3026

Low Power 16-Bit Sensor Signal Conditioner IC

 

 

The The ZSSC3026is is isa a asensor sensorsignal signalconditioner conditioner TheZSSC3026 ZSSC3026 sensor signal conditioner (SSC) (SSC)integrated integratedcircuit circuitforfor forhighaccuracy highaccuracyampli ampli (SSC) integrated circuit highaccuracy ampli fication fication and and analogtodigital analogtodigital conversion conversion of of a differ a fication and analogtodigital conversion of a differ differ ential ential input signal. Designed high resolution entialinput inputsignal. signal.Designed Designedforfor forhigh highresolution resolution altimeter altimeter module module applications, applications, thethe ZSSC3026 ZSSC3026 can can altimeter module applications, the ZSSC3026 can st st nd nd stand ndorder and 2 2 order perform perform offset, offset, span, span, and and 1 1 order perform offset, span, and 1 and 2 temperature temperature compensation compensation of of thethe measured measured signal. signal. temperature compensation of the measured signal. Developed Developed for for correction correction of of resistive resistive bridge Developed for correction of resistive bridge bridge sensors, sensors, can also provide corrected sensors, it itit can can also also provide provide a a a corrected corrected temperature temperatureoutput outputmeasured measuredwith withanan aninternal internal temperature output measured with internal sensor. sensor. sensor.

  Integrated Integrated 18bit 18bit calibration calibration math math DSP DSP Integrated 18bit calibration math DSP   Fully Fully corrected corrected signal signal at at digital digital output output Fully corrected signal at digital output

The The measuredand andcorrected correctedbridge bridgevalues valuesareare are Themeasured measured and corrected bridge values provided providedat at atthethe thedigital digitaloutput outputpins, pins,which whichcan canbebe be provided digital output pins, which can 2 2 2C* (≤ (≤ (≤ 3.4MHz) 3.4MHz)or or orSPI SPI(≤ (≤ (≤ 20MHz). 20MHz). configured configuredasas asI C* 3.4MHz) SPI 20MHz). configured II C* Digital Digitalcompensation compensationof of ofsignal signaloffset, offset,sensitivity, sensitivity, Digital compensation signal offset, sensitivity, temperature, temperature, and and nonlinearity nonlinearity is is accomplished accomplished viavia temperature, and nonlinearity is accomplished via anan 18bit 18bit internal internal digital digital signal signal processor processor (DSP) (DSP) an 18bit internal digital signal processor (DSP) running running a correction a algorithm. algorithm. Calibration Calibration coeffici coeffici running a correction correction algorithm. Calibration coeffici ents ents are are stored stored onchip onchip in in a a highly highly reliable, reliable, non ents are stored onchip in a highly reliable,non non volatile, volatile, multipletime multipletime programmable programmable (MTP) (MTP) mem mem volatile, multipletime programmable (MTP) mem ory. ory. Programming Programming thethe ZSSC3026 ZSSC3026 is is simple simple viavia thethe ory. Programming the ZSSC3026 is simple via the serial serial interface. interface. The The ICinternal ICinternal charge charge pump pump serial interface. The ICinternal charge pump provides provides MTP programming voltage. The providesthethe theMTP MTPprogramming programmingvoltage. voltage.The The interface interfaceis is isused usedforfor forthethe thePCcontrolled PCcontrolledcalibration calibration interface used PCcontrolled calibration procedure, procedure,which whichprograms programsthethe thesetset setof of ofcalibration calibration procedure, which programs calibration coefficients coefficientsin in inmemory. memory.The Thedigital digitalmating matingis is isfast fast coefficients memory. The digital mating fast and andprecise, precise,eliminating eliminatingthethe theoverhead overheadnormally normally and precise, eliminating overhead normally associated associated with with trimming trimming external external components components and and associated with trimming external components and multipass multipass calibration calibration routines. routines. multipass calibration routines.

 

  Flexible, Flexible, programmable programmable analog analog frontend frontend Flexible, programmable analog frontend

  

   



design; design; upup to to 16bit 16bit scalable, scalable, chargebalancing chargebalancing design; up to 16bit scalable, chargebalancing twosegment twosegment analogtodigital analogtodigital converter (ADC) (ADC) twosegment analogtodigital converter converter (ADC) Fully programmable programmable gain gain amplifier amplifier accepting accepting  Fully Fully programmable gain amplifier accepting sensors sensors from from 1414 14 to to to 7272 72 (linear (linear factor) factor) sensors from (linear factor)  Internal Internal autocompensated autocompensated temperature temperature sensor sensor Internal autocompensated temperature sensor  Digital Digital compensation compensation of of individual individual sensor sensor offset; offset; Digital compensation of individual sensor offset; st st nd nd st and nd and 2 2 order order digital digital compensation compensation of of sensor sensor 11 1 and 2 order digital compensation of sensor gain gain gain st st st nd nd nd Digital compensation compensation of of of 11 1and and 22 2 order order tem tem  Digital Digital compensation and order tem perature perature gain gain and and offset offset drift drift perature gain and offset drift  Intelligent Intelligent power power management management unit unit Intelligent power management unit Layout customized customized forfor for diedie diedie bonding bonding with with  Layout Layout customized diedie bonding with sensor sensor forfor highdensity highdensity chiponboard chiponboard assembly assembly sensor for highdensity chiponboard assembly Typical sensor sensor elements elements can can achieve achieve accuracy accuracy  Typical Typical sensor elements can achieve accuracy of of of less less than than ±0.10% ±0.10% FSO FSO @@ @ 4040 40 to to to 110°C 110°C less than ±0.10% FSO 110°C

* ** 

* I2C is2 a 22registered trademark of NXP. I CII is C a trademark trademark of NXP. of C ais isregistered a registered registered trademark of NXP. NXP.

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  Minimize Minimize calibration calibration costs costs through through thethe onepass onepass Minimize calibration costs through the onepass

calibration calibration concept concept calibration concept   NoNo No external external trimming trimming components components required required external trimming components required   Highly Highly integrated integrated CMOS CMOS design design Highly integrated CMOS design   Excellent Excellent forfor for lowvoltage lowvoltage and and lowpower lowpower battery battery Excellent lowvoltage and lowpower battery applications applications applications

    Supply Supply voltage voltage range: range: 1.81.8 to to 3.6V 3.6V Supply voltage range: 1.8 to 3.6V   Current Current consumption: consumption: 1mA 1mA (operating (operating mode) mode) Current consumption: 1mA (operating mode)   Sleep Sleep State State current: current: 50nA 50nA (typical) (typical) Sleep State current: 50nA (typical)   Temperature Temperature resolution: resolution: <0.003K/LSB <0.003K/LSB Temperature resolution: <0.003K/LSB

  Operation Operation temperatures: temperatures: –40°C –40°C to to +85°C +85°C Operation temperatures: –40°C to +85°C

–40°C –40°C to to to +110°C +110°C –40°C +110°C

  Small Small diedie size: size: 1.5mm² 1.5mm² Small die size: 1.5mm²   Delivery Delivery options: options: diedie die forfor for wafer wafer bonding, bonding, Delivery options: wafer bonding,

bumped bumped diedie die forfor for Flip Flip Chip, Chip, PQFN24 PQFN24 bumped Flip Chip, PQFN24

  The The ZSSC3026 ZSSC3026 is is designed designed forfor operation operation in in The ZSSC3026 is designed for operation in calibrated calibrated resistive resistive (pressure) (pressure) sensor sensor modules: modules: calibrated resistive (pressure) sensor modules:   Barometric Barometric altitude altitude measurement measurement forfor portable portable Barometric altitude measurement for portable navigation navigation navigation   Altitude Altitude measurement measurement forfor for emergency emergency call call Altitude measurement emergency call systems systems systems   Altitude Altitude measurement measurement forfor carcar navigation navigation Altitude measurement for car navigation   Inside Inside hard hard disk disk pressure pressure measurement measurement Inside hard disk pressure measurement   Weather Weather forecast forecast Weather forecast

  Fan Fan control control Fan control

  

   All rights All rights rights reserved. reserved. TheThe The material material contained contained herein herein maymay may not not not be reproduced, be reproduced, reproduced, adapted, adapted, merged, merged, translated, translated, stored, stored, or used or used used without without the the the priorprior prior written written consent consent of the of the the copyright copyright owner. owner. All reserved. material contained herein be adapted, merged, translated, stored, or without written consent of copyright owner. TheThe information information furnished furnished in this in publication publication is is andand subject subject to changes to without without notice. notice. The information furnished in this this publication is and subject to changes changes without notice.

ZSSC3026

Low Power 16 Bit Sensor Signal Conditioner IC



 





ZSSC3026CC1B

Temperature range: –40°C to +85 °C, ConsumerLevel: Parameter according Data Sheet

Chips, Wafer (304um) unsawn, tested

ZSSC3026CI1B

Temperature range: –40°C to +85 °C, IndustrialLevel: 10 years MTPData Retention

Chips, Wafer (304um) unsawn, tested

ZSSC3026CI4

Temperature range: –40°C to +110 °C, Industrial

PQFN24 4x4, tested

ZSSC30x6KIT

Evaluation Kit for ZSSC30x6 Product Family

Boards, cable, softwareCD, 1 sample

* Please contact ZMDI Sales for additional options.







 



 



Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone Fax

+49 (0)351.8822.7.772 +49 (0)351.8822.87.772

+1 (608) 8291987 +1 (631) 5492882

2nd Floor, Shinbashi Tokyu Bldg. 4213, Shinbashi, Minatoku Tokyo, 1050004 Japan +81.3.6895.7410 +81.3.6895.7301

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

+886.2.2377.8189 +886.2.2377.8199

Global Corporate Catalog

Products available at

On-Line Store

ZSSC3027

Low-Power 16-Bit Sensor Signal Conditioner IC

ZSSC3027

Low Power 16-Bit Sensor Signal Conditioner IC

Brief Description

Benefits

The ZSSC3027 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Designed for high-resolution altimeter module applications, the ZSSC3027 can perform offset, st nd span, and 1 and 2 order temperature compensation of the measured signal. Developed for correction of resistive bridge sensors, it can also provide a corrected temperature output measured with an internal sensor. The measured and corrected bridge values are provided at the digital output pins, which can be 2 configured as I C™* (≤ 3.4MHz) or SPI (≤ 20MHz). Digital compensation of signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) running a correction algorithm. Calibration coefficients are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Programming the ZSSC3027 is simple via the serial interface. The IC-internal charge pump provides the MTP programming voltage. The interface is used for the PC-controlled calibration procedure, which programs the set of calibration coefficients in memory. The ZSSC3027 provides accelerated signal processing in order to support high-speed control, safety, and real-time sensing applications. It complements ZMDI’s ZSSC30x6 products.

  

 

     

Integrated 18-bit calibration math DSP Fully corrected signal at digital output One-pass calibration minimizes calibration costs No external trimming, filter, or buffering components required Highly integrated CMOS design Excellent for low-voltage and low-power battery applications Optimized for operation in calibrated resistive sensor modules

Physical Characteristics       

Supply voltage range: 1.7 to 3.6V Operating mode current consumption: 930mA (typical) Sleep State current: 20nA (typical) Temperature resolution: <0.003K/LSB Operation temperatures: –40°C to +85°C Small die size: 1.5mm² Delivery options: die for wafer bonding

Available Support  

ZSSC3026 Evaluation Kit can be used to evaluate ZSSC3027 capabilities Support Documentation

ZSSC3027 Application Example

Features 



Flexible, programmable analog front-end design; up to 16-bit scalable, charge-balancing twosegment analog-to-digital converter (ADC) Fully programmable gain amplifier accepting sensors from 14 to 72 (linear factor) Internal auto-compensated temperature sensor Digital compensation of individual sensor offset; st nd 1 and 2 order digital compensation of sensor st nd gain as well as of 1 and 2 order temperature gain and offset drift Layout optimized for stacked-die bonding for high-density chip-on-board assembly Typical sensor elements can achieve accuracy of better than ±0.10% FSO** @ -40 to 85°C

* I2C™ is a trademark of NXP. ** FSO = Full Scale Output.

For more information, contact ZMDI via mobile.sensing@zmdi.com.

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© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — December 10, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSSC3027

Low-Power 16-Bit Sensor Signal Conditioner IC

ZSSC3027 Block Diagram

VDDB

Vreg int VTP VTN

Temperature Reference Sensor

AGND / CM Generator

Bias Current Generator

Power Ctr.

VDD

Voltage Regulator

VSS

Sensor Bridge

INP INN

Multiplexer

ZSSC3027 A PreAmplifier

D 16 Bit

18-bit DSP Core (Calculations, Communication)

VSSB

Applications  Barometric altitude measurement for portable navigation or emergency call systems  Altitude measurement for car navigation  Inside hard disk pressure measurement  Weather forecast  Fan control  Industrial, pneumatic, and liquid pressure  High-resolution temperature measurements

Power-ON Reset

Clock Generator

Ring Oscillator

System Control Unit

MTP ROM

SPI I²CTM

EOC

SCLK/SCL SS MOSI/SDA MISO SEL

Ordering Information (See section 6 in the data sheet for additional options for delivery) Sales Code

Description

Delivery Package

ZSSC3027AC1B

Die—temperature range: –40°C to +85 °C

Wafer (304µm) unsawn, tested

ZSSC3027AC6B

Die—temperature range: –40°C to +85 °C

Wafer (725µm) unsawn, tested

ZSSC3027AC7C

Die—temperature range: –40°C to +85°C

Wafer (200µm) unsawn, tested

ZSSC3027AI1D

Engineering samples, die—temperature range: –40°C to +85°C

Dice in waffle pack (304µm)

ZSSC3026-KIT

Evaluation Kit for ZSSC3026, including boards, cable, software, and 1 ZSSC3026 PQFN24 sample (equivalent to ZSSC3027—kit is recommended for evaluation of the capabilities of the ZSSC3027)

Sales and Further Information

www.zmdi.com

mobile.sensing@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00—December 10, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

Products available at

On-Line Store

ZSSC3036

Low-Power 16-Bit Sensor Signal Conditioner IC

ZSSC3036

Low Power 16-Bit Sensor Signal Conditioner IC

Brief Description

Benefits

The ZSSC3036 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Designed for high-resolution altimeter module applications, the ZSSC3036 can perform offset, st nd span, and 1 and 2 order temperature compensation of the measured signal. Developed for correction of resistive bridge sensors, it can also provide a corrected temperature output measured with an internal sensor. The measured and corrected bridge values are provided at the digital output pins, which can be 2 configured as I C™* (≤ 3.4MHz) or SPI (≤ 20MHz). Digital compensation of signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) running a correction algorithm. Calibration coefficients are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Programming the ZSSC3036 is simple via the serial interface. The IC-internal charge pump provides the MTP programming voltage. The interface is used for the PC-controlled calibration procedure, which programs the set of calibration coefficients in memory. The ZSSC3036 provides accelerated signal processing in order to support high-speed control, safety, and real-time sensing applications. It complements ZMDI’s additional ZSSC30x6 products.

Features 

  

 

       

Integrated 18-bit calibration math DSP Fully corrected signal at digital output Layout customized for die-die bonding with sensor for high-density chip-on-board assembly One-pass calibration minimizes calibration costs No external trimming, filter, or buffering components required Highly integrated CMOS design Excellent for low-voltage and low-power battery applications Optimized for operation in calibrated resistive sensor modules

Physical Characteristics       

Supply voltage range: 1.8 to 3.6V Current consumption: 1mA (operating mode) Sleep State current: 50nA (typical) Temperature resolution: <0.003K/LSB Operation temperatures: –40°C to +85°C –40°C to +110°C Small die size: 1.5mm² Delivery options: die for wafer bonding

* I2C™ is a trademark of NXP. ** FSO = Full Scale Output.

ZSSC3036 Application Example

Flexible, programmable analog front-end design; up to 16-bit scalable, charge-balancing twosegment analog-to-digital converter (ADC) Fully programmable gain amplifier accepting sensors from 14 to 72 (linear factor) Internal auto-compensated temperature sensor Digital compensation of individual sensor offset; st nd 1 and 2 order digital compensation of sensor st nd gain as well as of 1 and 2 order temperature gain and offset drift Fast sensing: 16-bit conditioned sensor signal -1 measurement rate at more than 200s Typical sensor elements can achieve accuracy of less than ±0.10% FSO** @ -40 to 110°C

Visit .com for more detailed information

For more information, contact ZMDI via mobile.sensing@zmdi.com.

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — May 28, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSSC3036

Low-Power 16-Bit Sensor Signal Conditioner IC

ZSSC3036 Block Diagram

VDDB

Vreg int VTP VTN

Temperature Reference Sensor

AGND / CM Generator

Bias Current Generator

Power Ctr.

VDD

Voltage Regulator

VSS

Sensor Bridge

INP INN

Multiplexer

ZSSC3036 A PreAmplifier

18-bit DSP Core (Calculations, Communication)

D 16 Bit

VSSB

Power-ON Reset

Clock Generator

Ring Oscillator

MTP ROM

System Control Unit

SPI I²CTM

EOC

SCLK/SCL SS MOSI/SDA MISO SEL

Ordering Information (See section 6 in the data sheet for additional options for delivery package and wafer thickness of 725µm.) Sales Code

Description

Delivery Package

ZSSC3036CC1B

Die—temperature range: –40°C to +85 °C

Wafer (304µm) unsawn, tested

ZSSC3036CI1B

Die—temperature range: –40°C to +85 °C, extended qualification

Wafer (304µm) unsawn, tested

ZSSC3036CC1C

Die—temperature range: –40°C to +85°C

Dice on frame (304µm), tested

ZSSC3036CI1BH

Die—temperature range: –40°C to +110 °C, extended qualification

Wafer (304µm) unsawn, tested

ZSSC3036CI1CH

Die—temperature range: –40°C to +110 °C, extended qualification

Dice on frame (304µm), tested

ZSSC30x6-KIT

Evaluation Kit for ZSSC30x6 Product Family, including boards, cable, software, and 1 sample

Sales and Further Information

www.zmdi.com

mobile.sensing@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.20— May 28, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Products available at

On-Line Store

ZOPT3100 ZOPT3100

Digital Digital RGB/Ambient RGB/Ambient Light Light ++ Proximity ProximitySensor SensorIC IC

ZOPT3100

Digital RGB/Ambient Light + Proximity Sensor IC

Brief Brief Description Description

ALS ALS Features Features

The The ZOPT3100 ZOPT3100 Sensor Sensor IC IC integrates integrates an an ambient ambient light sensor sensor (ALS), (ALS), aa color color sensor sensor (CS), (CS), and and aa proxproxlight imity sensor sensor (PS), (PS), as as well well as as an an LED LED driver driver on on aa imity single chip. chip. The The device device isis connected connected by by an an I²C™* I²C™* single interface to to aa microcontroller. microcontroller. Other Other I²C™ I²C™ or or SMBus SMBus interface devices can can be be connected connected to to the the same same interface. interface. devices device has has aa programmable programmable interrupt interrupt with with The device The hysteresis to to respond respond to to events events and and reduce reduce the the hysteresis microcontrollertasks. tasks. microcontroller

 Dynamic Dynamicrange range::0.006 0.006lux luxto to32,000 32,000lux lux  ALS ALSmeasurement measurementuses usesCS CSgreen greenfiltered filteredvalues values  Temperature Temperaturecompensation compensation  CS/ALS CS/ALSoutput outputresolution: resolution:14 14to to18 18bits bits  Linear Linearoutput outputcode code  50ms 50msconversion conversionrate ratefor for14-bit 14-bitresolution resolution  50Hz/60Hz 50Hz/60Hzlight lightflicker flickerimmunity immunity  Fluorescent Fluorescentlight lightflicker flickerimmunity immunity

The device device allows allows adjusting adjusting the the brightness brightness as as well well The This device device can can as the the color color of of the the display display panel. panel. This as also measure measure distance distance in in parallel parallel with with ALS ALS and and CS CS also measurements in in order order to to deactivate deactivate the the touch touch measurements screenduring duringphone phonecalls. calls. screen

CS CS Features Features  Temperature Temperaturecompensation compensation  CS/ALS CS/ALSoutput outputresolution: resolution:14 14to to18 18bits bits  Linear Linearoutput outputcode code

Features Features

 50ms 50msconversion conversionrate ratefor for14-bit 14-bitresolution resolution  50Hz/60Hz 50Hz/60Hzlight lightflicker flickerimmunity immunity

 55integrated integratedphotodiodes photodiodes(1 (1proximity proximitydiode diodeand and  

  

 Fluorescent Fluorescentlight lightflicker flickerimmunity immunity

44diodes diodesfor forwhite, white,green, green,blue, blue,and andred redchannels) channels) 55analog-to-digital analog-to-digitalconverters converters(ADCs) (ADCs)to tomeasure measure PS PSin inparallel parallelto toALS/CS ALS/CS I²C™ I²C™capable capableof ofstandard standardmode mode(100kHz) (100kHz)or orfast fast mode mode(400kHz) (400kHz)communication; communication;1.8V 1.8Vlogic logic compatible compatible Programmable Programmableinterrupt interruptfunction functionfor forALS ALS(green (green channel) channel)and andPS PSwith withupper upperand andlower lowerthresholds thresholds PS PSmeasurement measurementparallel parallelto toALS/CS ALS/CSmeasuremeasurements ments Many Manymeasurement measurementmodes: modes:PS+ALS+CS, PS+ALS+CS, ALS+CS, ALS+CS,PS+ALS, PS+ALS,PS PSonly, only,ALS ALSonly, only,CS CSonly only

Physical Physical Characteristics Characteristics  Wide Wideoperation operationtemperature: temperature:-40 -40to to+90 +90°C °C  Wide Widesupply supplyvoltage: voltage:2.4 2.4to to3.6 3.6 VV  Low Lowsupply supplycurrent: current:<<200µA 200µA

(LED (LEDdriver driverexcluded) excluded)  Low Lowstandby standbycurrent: current:<<2µA 2µA

ZOPT3100 ZOPT3100Application ApplicationCircuit Circuit VDD VDD

PS PS Features Features  High Highambient ambientlight lightsuppression suppression  Built-in Built-inLED LEDdriver driverand anddetector detector

3.3V 3.3V

3.3V 3.3V VDD VDD

VDD VDD

 Detection Detectionof ofmovement movement(in/out) (in/out)

SCL SCL SDA SDA INT INT

 Cancelation Cancelationof ofcrosstalk crosstalk(lowest (lowestPS PSvalue valueisis

stored storedand andsubtracted subtractedfrom fromoutput outputvalue valueto to memorize memorizethe thereflection reflectionquantity) quantity)  Programmable Programmablepulsed pulsedLED LEDdriver: driver:up upto to125mA 125mA output outputcurrent current  11-bit 11-bitresolution resolution

2 **I2IC Cisisaatrademark trademarkofofNXP. NXP.

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LED LEDVDD VDD

PWM PWM

SCL SCL SDA SDA INT INT

SEL SEL AGND AGND

LED_GND LED_GND ZOPT3100 ZOPT3100

VSS VSS Microcontroller Microcontroller

For Formore moreinformation, information,contact contactZMDI ZMDIvia viamobile.sensing@zmdi.com. mobile.sensing@zmdi.com.

©©2013 2013Zentrum ZentrumMikroelektronik MikroelektronikDresden DresdenAG AG— —Rev. Rev.1.01 1.01— —September September13, 13,2013. 2013.All Allrights rightsreserved. reserved.The Thematerial materialcontained containedherein hereinmay maynot notbe bereproduced, reproduced,adapted, adapted,merged, merged, translated, translated,stored, stored,ororused usedwithout withoutthe theprior priorwritten writtenconsent consentofofthe thecopyright copyrightowner. owner.The Theinformation informationfurnished furnishedininthis thispublication publicationisissubject subjecttotochanges changeswithout withoutnotice. notice.

ZOPT3100

Digital RGB/Ambient Light + Proximity Sensor IC

ZOPT3100 Block Diagram

VDD 2.4 to 3.6V

Regulator ADC

Main State Machine

Fuses

ADC ADC ADC

CS/ALS FSM

Interrupt FSM

Reference

INT

Bandgap

I²C PS FSM

SCL SEL

Dual Slope ADC 11 Bit

Applications  Cellular phones

POR

 Notebooks

IR LED

 Consumer devices

PWM

OSC

IR LED Driver LED GND

AGND

= Analog Block

= Digital Block

Ordering Information Product Sales Code

Description

Package

ZOPT3100AC6B

ZOPT3100 die — Temperature Range: -40 to +90 °C

Unsawn wafer

ZOPT3100 KIT

ZOPT3100 Evaluation Kit, including Evaluation Board, cable, and 1 IC sample

Kit

Sales and Further Information

www.zmdi.com

mobile.sensing@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.01— September 13, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZOPT3100 Application Overview ZMDI‘s Optical Sensor IC

ZOPT3100’s Integrated Ambient Light Sensor (ALS)

ZOPT3100’s Integrated Color Sensor (CS)

• Dynamic range: 0.006 lux to 32,000 lux

• Temperature compensation

• ALS measurement uses CS green filtered values

• CS output resolution: 14 to 18 bits

• Temperature compensation • ALS output resolution: 14 to 18 bits • 50ms conversion rate for 14-bits resolution

• Linear output code • 50ms conversion rate for 14-bit resolution

• Linear output code

• 50Hz/60Hz light flicker immunity

• Fluorescent light flicker immunity

ZOPT3100 Physical Characteristics • Unique, all-in-one optical sensor IC – integrated ambient light sensor, color sensor, proximity sensor, and IR LED • Low-power – ideal for mobile applications including consumer devices, cell phones, notebooks • Current consumption: 200μA (LED driver excluded); low standby mode current: 2μA (see data sheet for conditions) • Maximum temperature range: -40 to +90°C

ZOPT3100’s Integrated Proximity Sensor (PS) • High ambient light suppression • Built-in LED driver and detector • Detection of movement (in/out) • Cancelation of cross-talk (lowest PS value is stored and subtracted from output value to memorize the reflection quantity) • Programmable pulsed LED driver: up to 125mA output current • 11-bit resolution

• Supply voltage: 2.4 to 3.6 VDC • Available as die

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Automotive ASSICs and Industrial ASSPs Multi-Functional and Robust

The Fast Track to Energy-Efficient Vehicles â&#x20AC;&#x2122;s Leading-Edge Automotive ASICs and Industrial ASSPs: Precise, Rugged, Versatile and Low-Power

 

IOLink IOLink compliant compliant HVHV LineLine Driver Driver (Single (Single Channel) Channel)

ZIOL2201

IO-Link compliant HV Line Driver (Single Channel)

 

 

TheThe ZIOL2201 ZIOL2201 is aissmart a smart power power solution solution of aofline a line 1 1 I/Ochannel I/Ochannel driver/level driver/level shifter shifter IC containing IC containing an HV an HV having having a wide a wide range range of configurable of configurable system system features. features. It addresses It addresses the the physical physical layer layer of sensor/actuator of sensor/actuator systems systems in factory in factory automation automation andand is especially is especially designed designed to support to support the the communication communication standard standard IO IO Link. Link.



TheThe output output driver driver is aispush a push pullpull stage stage which which reaches reaches an an RDSon RDSon of less of less thanthan 6.6 6.6 Ohms Ohms at all at operational all operational temperatures. temperatures. TheThe configuration configuration is stored is stored in an in onchip an onchip EEPROM EEPROM andand automatically automatically loaded loaded intointo the the IC’sIC’s control control register register during during power power up. up. TheThe IC IC alsoalso provides provides status status information, information, such such as as overload overload andand overover temperature. temperature. An implemented An implemented SPISPI interface interface supports supports access access to configuration to configuration andand status status registers. registers. TheThe IC IC is produced is produced in ain powerful a powerful CMOS CMOS Mixed Mixed Signal Signal Technology Technology thatthat allows allows supply supply voltages voltages up to up to 40V.40V. TheThe EEPROM EEPROM read/write read/write functionality functionality is is guaranteed guaranteed within within the the entire entire operating operating temperature temperature range range in combination in combination withwith a low a low Voltage Voltage corecore supply supply of 3.3V. of 3.3V.

 



Output  Output current current limitation limitation (50 (50  300mA)  300mA) Standard  Standard cable cable driver/ driver/ physical physical layer layer transceiver transceiver for IOLink for IOLink (Device) (Device) Slewrate  Slewrate controlled controlled driver driver Wide  Wide range range of configurable of configurable feature feature set set which which is is automatically automatically loaded loaded afterafter power power on reset on reset Onboard  Onboard DC/DC DC/DC converter converter 2 2 IOLink  IOLink specific specific WURQ WURQ detection detection On  On chipchip registers registers andand EEPROM EEPROM for system for system configuration configuration andand status status information information SPI  SPI to access to access on chip on chip registers registers andand EEPROM EEPROM Dig.  Dig. interface: interface: 3.3V 3.3V output, output, 5V tolerant 5V tolerant inputs inputs Chip  Chip temperature temperature monitoring/diagnosis monitoring/diagnosis Overcurrent  Overcurrent andand temperature temperature signaling signaling

         

      

Configurable  Configurable feature feature set set Non  Non volatile volatile storage storage of system of system configuration configuration Excellent  Excellent EMC EMC performance performance duedue to adjustable to adjustable output output slewslew raterate control control Low  Low RDSon RDSon of 6.6 of 6.6 Ohms Ohms Programmable  Programmable limitation limitation of driver of driver output output current current DC/DC  DC/DC converter converter on Chip on Chip EEPROM  EEPROM read/write read/write functionality functionality within within entire entire operating operating temperature temperature range range Space  Space saving saving 4x44x4 mm²mm² 24 pin 24 pin QFN QFN

   

Evaluation  Evaluation KitsKits Application  Application Notes Notes

    

Operation  Operation temperature temperature 40 40 to +85 to +85 °C °C Supply  Supply voltage voltage 8.0 8.0 to 36.0 to 36.0 V V QFN  QFN 24 package 24 package

 

 2



HighHigh Voltage Voltage (max. (max. power power supply supply / signal / signal swing swing is 36isvolt) 36 volt) 2 IOLink IOLink device device wakeup wakeup 20112.1.0 20112.1.0 All rights All rights reserved. reserved. The material The material contained contained hereinherein may not may benot reproduced, be reproduced, adapted, adapted, merged, merged, translated, translated, stored,stored, or used or without used without the prior thewritten prior written consent consent of the of copyright the copyright owner.owner. The information The information furnished furnished in thisinpublication this publication is is and subject and subject to changes to changes without without notice.notice.

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

IOLink compliant HV Line Driver (Single Channel)





The ZIOL2201 application field is acting as universal cable driver. Furthermore the IC supports IOLink communications as physical layer transceiver (PHY) for IOLink master ports and IOLink devices. An integrated DC/DC converter in combination with two linear voltage regulators allows optimizing the power supply of the application.  

24V line driver/level shifter IOLink compliant devices

Note: The datasheet  contains detailed technical information

 (# stands for the device revision) 





#

Single Channel IOLink compliant HV Line Driver IC, packing: 13” reel

PQFN24, 4x4

#

Single Channel IOLink compliant HV Line Driver IC, packing: 7” tray

PQFN24, 4x4

 

ZIOL2401 LabKit for detailed lab evaluation (suitable for ) (configurable IC/Communication/Controller PCB, software, USBcable)

 

ZIOL2401 Introduction tool (USB stick, extension board, software) (suitable for )







 



 



Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone Fax

+49 (0)351.8822.7465 +49 (0)351.8822.87465

+1 (608) 8291987 +1 (631) 5492882

2nd Floor, Shinbashi Tokyu Bldg. 4213, Shinbashi, Minatoku Tokyo, 1050004 Japan +81.3.6895.7410 +81.3.6895.7301

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

+886 2 2377 8189 +886 2 2377 8199

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are and subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise. 20112.1.0 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is and subject to changes without notice.

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ZIOL2211 ZIOL2211

IO-Link-Compliant HVHV Line Driver (Single Channel) IO-Link-Compliant Line Driver (Single Channel)

ZIOL2211

IO-Link compliant HV Line Driver (Single Channel)

Brief Description Brief Description

Benefits Benefits

The ZIOL2211 is is a line driver/level shifter IC IC thatthat The ZIOL2211 a line driver/level shifter 1 1 I/O channel with a wide range of of provides an HV provides an HV I/O channel with a wide range configurable system features. It addresses thethe physiconfigurable system features. It addresses physicalcal layer of sensor/actuator systems in factory autolayer of sensor/actuator systems in factory automation applications, andand it isit specifically designed to to mation applications, is specifically designed 2 2 . support the communication standard IO-Link support the communication standard IO-Link .

 Configurable feature setset Configurable feature  Nonvolatile storage of system configuration Nonvolatile storage of system configuration

The output driver is a stage thatthat reaches The output driver is push-pull a push-pull stage reaches an an RDSon of less than 6.6Ω at all operational temRDSon of less than 6.6Ω at all operational temperatures. peratures.



The configuration is stored in in an an on-chip EEPROM The configuration is stored on-chip EEPROM andand automatically loaded intointo thethe ZIOL2211’s control automatically loaded ZIOL2211’s control register during power-up. The ZIOL2211 also proregister during power-up. The ZIOL2211 also provides status information, such as overload and overvides status information, such as overload and overtemperature. AnAn integrated SPISPI interface supports temperature. integrated interface supports access to configuration and status registers. access to configuration and status registers. The ZIOL2211 is is fabricated in in a powerful CMOS The ZIOL2211 fabricated a powerful CMOS Mixed Signal Technology that allows supply voltages Mixed Signal Technology that allows supply voltages up up to to 40V. The EEPROM read/write functionality is is 40V. The EEPROM read/write functionality guaranteed within the entire operating temperature guaranteed within the entire operating temperature range in combination with a low-voltage core supply range in combination with a low-voltage core supply of 3.3V. of 3.3V.

Features Features  Output current limitation: 50mA to 410mA Output current limitation: 50mA to 410mA  Standard cable driver / physical-layer transceiver Standard cable driver / physical-layer transceiver        

forfor IO-Link (device) IO-Link (device) Slew-rate controlled driver  Slew-rate controlled driver Wide range for configurable feature setset thatthat is is  Wide range for configurable feature automatically loaded after power-on reset automatically loaded after power-on reset 3 3 IO-Link specific WURQ detection  IO-Link specific WURQ detection registers andand EEPROM forfor system On-chip On-chip registers EEPROM system configuration and status information configuration and status information interface forfor access on on chip registers andand SPISPI interface access chip registers EEPROM EEPROM interface: 3.3V output, 5V-tolerant inputs Digital Digital interface: 3.3V output, 5V-tolerant inputs Chip temperature monitoring/diagnosis  Chip temperature monitoring/diagnosis andand over-temperature indication Over-current Over-current over-temperature indication

 Excellent electromagnetic compatibility (EMC) Excellent electromagnetic compatibility (EMC)

  

output slew rate performance duedue to adjustable performance to adjustable output slew rate control control RDSon : 6.6Ω Low Low RDSon : 6.6Ω limitation of driver output current Programmable Programmable limitation of driver output current EEPROM read/write functionality within entire  EEPROM read/write functionality within entire operating temperature range operating temperature range Space saving package options  Space saving package options

Available Support Available Support  Evaluation KitsKits Evaluation  Application Notes Application Notes

Physical Characteristics Physical Characteristics  Operation temperature: -40-40 to +85 °C °C Operation temperature: to +85  Supply voltage: 8.0V to 36.0V Supply voltage: 8.0V to 36.0V  Package options: PQFN 24 24 4x44x4 mm, Package options: PQFN mm,

WL-CSP 35 35 2.5x2.5mm WL-CSP 2.5x2.5mm

ZIOL2211 Application Circuits ZIOL2211 Application Circuits SIO sensor ZIOL2211 PLC SIOTraditional sensor ZIOL2211 Traditional PLC

IO-L sensor ZIOL2211 IO-L ZIOL24x1 sensor ZIOL2211 ZIOL24x1

IO-L actuator ZIOL2211 IO-L ZIOL24x1 actuator ZIOL2211 ZIOL24x1 IO-Link IO-Link PLC PLC (master) (master)

IO-L sensor ZIOL2211 IO-L ZIOL24x1 sensor ZIOL2211 ZIOL24x1

sensor ZIOL2211 sensor ZIOL2211

1 high voltage (maximum power supply / signal swing is 36V) HV: HV: high voltage (maximum power supply / signal swing is 36V) 2 ZMDI is aismember of the IO-Link Consortium: www.io-link.com ZMDI a member of the IO-Link Consortium: www.io-link.com 3 3 IO-Link device wake-up IO-Link device wake-up 2

© 2012 Zentrum Mikroelektronik Dresden AG — Rev. 2.20 © 2012 Zentrum Mikroelektronik Dresden AG — Rev. 2.20 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice. The information furnished in this publication is subject to changes without notice.

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ZIOL2211

IO-Link-Compliant HV Line Driver (Single Channel)

Typical Applications

ZIOL2211 Block Diagram

In field applications, the ZIOL2211 acts as a universal cable driver. The ZIOL2211 can support IO-Link communications as a physical-layer transceiver (PHY) for IO-Link master ports and IO-Link devices.

ZIOL2211 Configuration Diagnosis

Common applications:  

Cable Side High Voltage (HV) Signals

Application Side Low Voltage (LV) Signals

24V line driver/level shifter IO-Link-compliant devices

Actuator, Sensor, or Interface to Host System

See the ZIOL2xxx IC Family datasheet for detailed technical information.

Control

Application Circuit

Power Supply

COM

Power

RX/TX

Ch 0

Cable

Single channel transceiver

GND

Ordering Information Product Sales Code

Description

IC Package

ZIOL2211BI1R

Single Channel IO-Link-compliant HV Line Driver IC, packaging; 13” reel

PQFN24, 4x4mm

ZIOL2211BI1W

Single Channel IO-Link-compliant HV Line Driver IC, packaging; 7” tray

PQFN24, 4x4mm

ZIOL2211BI2R (CSP) Single Channel IO-Link-compliant HV Line Driver IC, packaging; reel

WL-CSP35, 2.5x2.5mm

ZIOL2401-Lab Kit

ZIOL2401 lab kit for evaluation of the ZIOL2xxx family including ZIOL2211: configurable IC/communication/controller circuit board, software, USB cable

ZIOL2401-Starter Kit

ZIOL2401 demonstration tool for the ZIOL2xxx family including ZIOL2211(USB stick, extension board, software)

Sales and Further Information

www.zmdi.com

io-link@zmdi.com

Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +49.351.8822.7465 Fax +49.351.8822.87465

Phone +855-ASK-ZMDI (+855.275.9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700

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 

 

ZIOL2401

IO-Link compliant HV Line Driver (Dual Channel)  

 

 

                                                        

   

                                                                                                        

 

   

   

 

      

       

   

     

     

   

         

   

 

   

   

                                                 

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  

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   

   

   

   

   

   

   

         

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 

IOLink compliant HVHV Line Driver (Dual Channel) IOLink compliant Line Driver (Dual Channel)

ZIOL2411

IO-Link compliant HV Line Driver (Dual Channel)

 

 

The ZIOL2411 is is a line driver/level shifter ICIC with two The ZIOL2411 a line driver/level shifter with two 1 1 I/Ochannels having a wide range independent HV independent HV I/Ochannels having a wide range of ofconfigurable configurablesystem systemfeatures. features.It Itaddresses addressesthethe physical layer of of sensor/actuator systems in in factory physical layer sensor/actuator systems factory automation and is especially designed to support thethe automation and is especially designed to support communication standard IOLink. communication standard IOLink.

  Configurable feature setset Configurable feature   Non volatile storage of of system configuration Non volatile storage system configuration

The output drivers areare push pull stages which reach The output drivers push pull stages which reach in in tandem mode an R of less than 3.3 Ohms at at tandem mode an DSon RDSon of less than 3.3 Ohms allall operational temperatures. operational temperatures. The configuration is is stored in in anan onchip EEPROM The configuration stored onchip EEPROM and andautomatically automaticallyloaded loadedinto intothetheIC’s IC’scontrol control register during power up. The IC also provides register during power up. The IC also provides status statusinformation, information,such suchasasoverload overloadand andover over temperature. An implemented SPI interface supports temperature. An implemented SPI interface supports access to to configuration and status registers. access configuration and status registers.

  Excellent EMC performance due to to adjustable Excellent EMC performance due adjustable    

output slew rate control output slew rate control RDSon of of 3.33.3 Ohms in in tandem mode  Low Low RDSon Ohms tandem mode Programmable limitation of driver output current  Programmable limitation of driver output current EEPROM read/write functionality within entire  EEPROM read/write functionality within entire operating temperature range operating temperature range Space saving 4x4 mm² 24 pinpin QFN  Space saving 4x4 mm² 24 QFN

    Evaluation Kits Evaluation Kits   Application Notes Application Notes

The TheICICis isproduced producedin ina apowerful powerfulCMOS CMOSMixed Mixed Signal Technology that allows supply voltages upup to to Signal Technology that allows supply voltages 40V. 40V.The TheEEPROM EEPROMread/write read/writefunctionality functionalityis is guaranteed within thethe entire operating temperature guaranteed within entire operating temperature range in combination with a low Voltage core supply range in combination with a low Voltage core supply of of 3.3V. 3.3V.

 

 

 

  Operation temperature 4040 to to +85 °C°C Operation temperature +85   Supply voltage 8.0 to 36.0 V Supply voltage 8.0 to 36.0 V   QFN 2424 package QFN package

  Output current limitation (50(50  300mA) Output current limitation 300mA)   Standard cable driver/ physical layer transceiver Standard cable driver/ physical layer transceiver        

forfor IOLink (Master & Device) IOLink (Master & Device) Slewrate controlled drivers  Slewrate controlled drivers range of of configurable feature setset which is is  Wide Wide range configurable feature which automatically loaded after power on reset automatically loaded after power on reset 2 2 specific WURQ  IOLink IOLink specific WURQdetection detection On chip registers and EEPROM forfor system  On chip registers and EEPROM system configuration and status information configuration and status information to to access onon chip registers and EEPROM  SPI SPI access chip registers and EEPROM Dig. interface: 3.3V output, 5V tolerant inputs  Dig. interface: 3.3V output, 5V tolerant inputs Chip temperature monitoring/diagnosis  Chip temperature monitoring/diagnosis and temperature signaling  Overcurrent Overcurrent and temperature signaling

  1 2

1 High Voltage (max. power supply / signal swing is 36 volt) High Voltage (max. power supply / signal swing is 36 volt) 2 IOLink device wakeup IOLink device wakeup

2.1.0 2.1.0 All rights reserved. TheThe material contained herein maymay not not be reproduced, adapted, merged, translated, stored, or used without the the priorprior written consent of the owner. All rights reserved. material contained herein be reproduced, adapted, merged, translated, stored, or used without written consent of copyright the copyright owner. TheThe information furnished in this publication is andand subject to changes without notice. information furnished in this publication is subject to changes without notice.

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

IOLink compliant HV Line Driver (Dual Channel)





The ZIOL2411 application field is acting as universal cable driver. Furthermore the IC supports IOLink communications as physical layer transceiver (PHY) for IOLink master ports and IOLink devices.   

24V line driver/level shifter IOLink compliant master IOLink compliant device

Note: The datasheet  contains detailed technical information.

(# stands for the device revision) 





#

Dual Channel IOLink compliant HV Line Driver, packing: 13” reel

QFN24, 4x4

#

Dual Channel IOLink compliant HV Line Driver, packing: 7” reel

QFN24, 4x4

 

ZIOL2401 LabKit for detailed lab evaluation (suitable for ) (configurable IC/Communication/Controller PCB, software, USBcable)

 

ZIOL2401 Introduction tool (USB stick, extension board, software) (suitable for )







 



 



Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone Fax

+49 (0)351.8822.7465 +49 (0)351.8822.87465

+1 (608) 8291987 +1 (631) 5492882

2nd Floor, Shinbashi Tokyu Bldg. 4213, Shinbashi, Minatoku Tokyo, 1050004 Japan +81.3.6895.7410 +81.3.6895.7301

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

+886 2 2377 8189 +886 2 2377 8199

2.1.0 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is and subject to changes without notice.

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ASI4U//ASI4U-E ASI4U-E//ASI4U-F ASI4U-F ASI4U Spec. 3.0 Compliant Universal AS-I IC

Spec. 3.0 Compliant Universal AS-I IC ASI4U / ASI4U-E / ASI4U-F

Spec. 3.0 Compliant Universal AS-I IC

BriefDescription Description Brief

ASI4Uisisa anew newgeneration generationCMOS CMOSintegrated integratedcircuit circuit ASI4U for AS-I networks. for AS-I networks. The low-level low-level field field bus bus AS-I AS-I (Actuator (Actuator Sensor Sensor The Interface) was designed for easy, safe and costInterface) was designed for easy, safe and costeffective interconnection of sensors, actuators and effective interconnection of sensors, actuators and switches. It transports both power and data over the switches. It transports both power and data over the same two-wire unshielded cable. same two-wire unshielded cable. ASI4Uisisused usedasasa apart partofofa amaster masterororslave slavenode node ASI4U and works as an interface to the physical bus. The and works as an interface to the physical bus. The device realizes power supply, physical data transfer device realizes power supply, physical data transfer andcommunication communicationprotocol protocolhandling. handling.ASI4U ASI4Uisisfully fully and compliant with AS-I Complete Specification 3.0 and compliant with AS-I Complete Specification 3.0 and functioning and PIN compatible with the A²SI IC. functioning and PIN compatible with the A²SI IC. configuration data data are are stored stored inin anan internal internal AllAll configuration EEPROM that can be easily programmed EEPROM that can be easily programmed bybya a stationaryororhandheld handheldprogramming programmingdevice. device.The The stationary special AS-I safety option assures short response special AS-I safety option assures short response timesregarding regardingsecurity securityrelated relatedevents. events. times

Features Features

Compliantwith withAS-I AS-IComplete CompleteSpecification SpecificationV3.0 V3.0  Compliant Universalapplication: application:ininslaves, slaves,masters, masters,  Universal repeaters and bus-monitors repeaters and bus-monitors

Benefits Benefits

Flexible,separated separatedI/Os I/Os  Flexible, FlexibleAS-I AS-IBus Busadoption adoption(isolated (isolatedtransceiver) transceiver)  Flexible Verysmall smallpackage packageSSOP SSOP2828(ASI4U) (ASI4U)  Very SupportsAS-I AS-Icomplete completeSpecification SpecificationV3.0 V3.0  Supports Supportshigh highambient ambienttemperature temperatureapplications applications  Supports (ASI4U-E) (ASI4U-E)

AvailableSupport Support Available

ZMDIAS-Interface AS-InterfaceProgrammer ProgrammerKit KitUSB USB  ZMDI ZMDIASI4U ASI4UEvaluation EvaluationBoard BoardV2.0 V2.0  ZMDI

PhysicalCharacteristics Characteristics Physical

Operationaltemp. temp.range: range:-25 -25toto+85°C +85°C(ASI4U) (ASI4U)  Operational Operationaltemp. temp.range: range:-40 -40toto+85°C +85°C(ASI4U-F) (ASI4U-F)  Operational Operationaltemp. temp.range: range:-25 -25toto+105°C +105°C(ASI4U-E) (ASI4U-E)  Operational SSOP28(ASI4U) (ASI4U)/ SOP28 / SOP28(ASI4U-E) (ASI4U-E)package package  SSOP28

ASI4UBasic BasicApplication ApplicationCircuit Circuit ASI4U

Compatiblewith withA²SI A²SI  Compatible FloatingAS-I AS-Itransmitter transmitterand andreceiver receiverfor forhigh high  Floating symmetricalhigh highpower powerapplications applications symmetrical

UIN UIN OSC1 OSC1

ASI+ ASI+

On-chipelectronic electronicinductor inductorwith withcurrent currentdrive drive  On-chip capability of 55 mA capability of 55 mA Twoconfigurable configurableLED LEDoutputs outputstotosupport supportallallSpec. Spec.  Two V3.0 status indication modes V3.0 status indication modes  Severaldata datapre-processing pre-processingfunctions, functions,including including  Several configurable data input filters and bit selective configurable data input filters and bit selective datainverting inverting data Additionaladdressing addressingchannel channelfor foreasy easywireless wireless  Additional module setup module setup Supportofof8 8/ 16 / 16MHz MHzcrystals crystalsbybyautomatic automatic  Support frequency detection frequency detection  SpecialAS-I AS-Isafety safetyoption option  Special Clockwatchdog watchdogfor forhigh highsystem systemsecurity security  Clock

ASIASI-

UOUT UOUT FID FID DSR DSR PST PST

OSC2 OSC2 ASIP ASIP

ASIN ASIN CAP CAP U5R U5R

+24V +24V

DI0...3 DI0...3 DO0...3 DO0...3

ASI4U ASI4U

P0...3 P0...3

LED1 LED1 LED2 LED2 IRD IRD

0V GND GND

+0V +0V

Standard Application Standard Application +24V +24V

UIN UIN OSC1 OSC1

ASI+ ASI+

ASIASI-

UOUT UOUT FID FID DSR DSR PST PST

OSC2 OSC2 ASIP ASIP

ASIN ASIN CAP CAP U5R U5R

DI0...3 DI0...3 DO0...3 DO0...3

ASI4U ASI4U

P0...3 P0...3

0V GND GND

LED1 LED1 LED2 LED2 IRD IRD +0V +0V

Extended Power Application with IR-Addressing Option Extended Power Application with IR-Addressing Option

© 2012 Zentrum Mikroelektronik Dresden AG— Rev. 2.2 © 2012 Zentrum Mikroelektronik Dresden AG— Rev. 2.2 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. AllThe rights reserved. furnished The material contained herein may nottobe reproduced, adapted, information in this publication is subject changes without notice. merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ASI4U / ASI4U-E / ASI4U-F Spec. 3.0 Compliant Universal AS-I IC

Typical Applications

ASI4U Block Diagram

 AS-I Master Modules  AS-I Slave Modules  AS-I Safety Modules

Ordering Information Operating Temperature Range

Type

ASI4UE-G1-ST

Standard -25°C to +85°C

SSOP28 / 5.3mm

ASI4UE-G1-SR

Standard -25°C to +85°C

SSOP28 / 5.3mm

ASI4UE-G1-SR-7

Standard -25°C to +85°C

SSOP28 / 5.3mm

ASI4UE-G1-MT

Master

-25°C to +85°C

SSOP28 / 5.3mm

ASI4UE-G1-MR

Master

-25°C to +85°C

SSOP28 / 5.3mm

ASI4UE-E-G1-ST

Standard -25°C to +105°C

SOP28 / 300 mil

ASI4UE-E-G1-SR

Standard -25°C to +105°C

SOP28 / 300 mil

ASI4UE-F-G1-ST

Standard -40°C to +85°C

SSOP28 / 5.3mm

ASI4UE-F-G1-SR

Standard -40°C to +85°C

SSOP28 / 5.3mm

Sales and Further Information

Package Type

RoHS Packaging Conform

Ordering Code

Minumum Order Quantity

Tube (47 parts/tube) Tape & Reel (1500 parts/reel) Tape & Reel (500 parts/reel) Tube (47 parts/tube) Tape & Reel (1500 parts/reel) Tube (27 parts/tube) Tape & Reel (1000 parts/reel) Tube (47 parts/tube) Tape & Reel (1500 parts/reel)

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470 pcs. (10 tubes) 1500 pcs. (one reel) 500 pcs. (one 7" reel) 470 pcs. (10 tubes) 1500 pcs. (one reel) 270 pcs. (10 tubes) 1000 pcs. (one reel) 470 pcs. (10 tubes) 1500 pcs. (one reel)

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Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +49.351.8822.7274 Fax +49.351.8822.87274

Phone +855-ASK-ZMDI (+855.275.9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700

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67 no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.

SAP5S SAP5S SAP5S / SAP51 // SAP51 SAP51

Universal Universal Universal Actuator-Sensor Actuator-Sensor Actuator-Sensor Interface Interface Interface IC ICIC

SAP5S / SAP51

Universal Actuator-Sensor Interface IC

Brief Brief Brief Description Description Description

Benefits Benefits Benefits

SAP5S/SAP51 SAP5S/SAP51 SAP5S/SAP51 is aisis new aa new new generation generation generation CMOS CMOS CMOS Cost   Cost savings Costsavings savings due to due due integrated totointegrated integrated Safety Safety Safety codecode code integrated circuit for AS-I networks. integrated integrated circuit circuit for forAS-I AS-Inetworks. networks. Generator Generator Generator (SAP5S) (SAP5S) (SAP5S) The The low-level field field bus AS-I (Actuator Sensor The low-level low-level field bus bus AS-I AS-I (Actuator (Actuator Sensor Sensor Functional   Functional Functional and pin and and compatible pin pincompatible compatible to SAP4.1 totoSAP4.1 SAP4.1 Interface) was was designed for easy, safe safe and costInterface) Interface) wasdesigned designed for foreasy, easy, safeand andcostcost- Automatic   Automatic Automatic x-tal x-tal detection x-taldetection detection (5,3333MHz (5,3333MHz (5,3333MHz or oror effective interconnection of sensors, actuators and and effective effective interconnection interconnection ofofsensors, sensors, actuators actuators and 16,0000MHz) 16,0000MHz) 16,0000MHz) switches. It transports both both power and data over the switches. switches. ItIttransports transports bothpower power and anddata dataover overthe the  Supports   Supports Supports AS-I AS-I complete AS-Icomplete complete Specification Specification Specification 3.0 3.0 3.0 samesame two-wire unshielded cable. same two-wire two-wire unshielded unshielded cable. cable. SAP5S/SAP51 is used as aasas part ofpart a ofmaster or oror SAP5S/SAP51 SAP5S/SAP51 isisused used aapart ofaamaster master Available Available Support Support Support slaveslave nodenode and and works as an to the slave node and works works asasinterface an an interface interface toto the theAvailable physical bus. bus. physical physical bus.  ZMDI   ZMDI ZMDI AS-Interface AS-Interface AS-Interface Programmer Programmer Programmer Kit USB Kit KitUSB USB The The device realizes power supply, physical data data Thedevice device realizes realizes power power supply, supply, physical physical data  ZMDI   ZMDI ZMDI SAP5SAP5 SAP5 Evaluation Evaluation Evaluation Board Board Board V2.0 V2.0 V2.0 transfer and and communication protocol handling and and transfer transfer andcommunication communication protocol protocol handling handling and is fully compliant with with AS-Interface Complete isis fully fully compliant compliant with AS-Interface AS-Interface Complete Complete Physical Physical Physical Characteristics Characteristics Characteristics Specification V3.0.V3.0. Specification Specification V3.0. SAP5S/SAP51 can be programmed by the to SAP5S/SAP51 SAP5S/SAP51 can can be beprogrammed programmed bybyuser the theuser usertoto Operational   Operational Operational temperature temperature temperature range: range: range: -25 to-25 -25 +85°C toto+85°C +85°C operate in Standard SlaveSlave Mode, Safety ModeMode operate operate inin Standard Standard Slave Mode, Mode, Safety Safety Mode SOP16   SOP16 SOP16 and SOP20 and andSOP20 SOP20 package package package SAP5S only)only) or Master Mode. SAP5S SAP5S only) ororMaster Master Mode. Mode. The The special AS-I AS-I Safety ModeMode (SAP5S only)only) The special special AS-I Safety Safety Mode (SAP5S (SAP5S only) assures shortshort response timestimes regarding security assures assures short response response times regarding regarding security securitySAP5S/SAP51 SAP5S/SAP51 SAP5S/SAP51 Basic Basic Basic Application Application Application Circuit Circuit Circuit related events. related related events. events. UIN UINUIN UOUT UOUT UOUT All configuration data data are stored in aninininternal All All configuration configuration data are are stored stored an an internal internal PFAULT PFAULT PFAULT OSC1 OSC1 OSC1 EEPROM that that can be programmed by abyby aa EEPROM EEPROM that can caneasily be be easily easily programmed programmed DSTBn DSTBn DSTBn PSTBn PSTBn PSTBn stationary or handheld programming device. stationary stationary ororhandheld handheld programming programming device. device. OSC2 OSC2 OSC2 LTGP LTGP LTGP SAP5S / SAP51 is optimized for for harsh SAP5S SAP5S / / SAP51 SAP51 isis optimized optimized for harsh harsh D0...3 D0...3 D0...3 environments by it’s special burstburst protection environments environments byby it’s it’s special special burst protection protection SAP51/ SAP51/ SAP51/ circuitry and excellent electromagnetic compatibility. circuitry circuitry and andexcellent excellent electromagnetic electromagnetic compatibility. compatibility. LTPN SAP5S LTPN LTPNSAP5S SAP5S P0...3 P0...3 P0...3 +24V

ASI+

ASI+ ASI+

ASI-

ASI-ASI-

Features Features Features

CDC

CDC CDC

U5R

U5R U5R

LED1 LED2

 Compliant   Compliant Compliant with ASI with with Complete ASI ASIComplete Complete Specification Specification Specification V3.0 V3.0 V3.0

+24V +24V

LED1 LED1 LED2 LED2

 Integrated   Integrated Integrated safety safety safety codecode generator codegenerator generator (SAP5S (SAP5S (SAP5S only)only) only)  Universal   Universal Universal application: application: application: in slaves, ininslaves, slaves, masters, masters, masters, repeaters repeaters repeaters and bus-monitors and andbus-monitors bus-monitors  On-chip   On-chip On-chip electronic electronic electronic inductor: inductor: inductor: 55 mA 55 55 current mA mAcurrent current drivedrive drive capability capability capability  Two   Two LED TwoLED outputs LEDoutputs outputs to support totosupport support Spec.Spec. Spec. V3.0 V3.0 status V3.0status status indication indication indication modes modes modes  User   User programmable Userprogrammable programmable to operation totooperation operation in Standard ininStandard Standard SlaveSlave Slave Mode, Mode, Mode, Safety Safety Safety ModeMode Mode or Master ororMaster Master ModeMode Mode  Supports   Supports Supports 5.33/16 5.33/16 5.33/16 MHz MHz crystals MHzcrystals crystals by automatic bybyautomatic automatic frequency frequency frequency detection detection detection  Data   Data pre-processing Datapre-processing pre-processing functions functions functions  Special   Special Special burstburst protection burstprotection protection circuitry circuitry circuitry

+0V

Standard Standard Standard Application Application Application

ASI+

ASI-

ASI+ ASI+

ASI-ASI-

UIN

UINUIN

OSC1

OSC1 OSC1

OSC2

OSC2 OSC2

LTGP

LTGP LTGP

LTPN CDC

UOUT

UOUT UOUT

U5R

U5RU5R

D2 D2

D3 D3

+0V+0V

SAP5S SAP5S SAP5S LTPN LTPN CDC CDC

D0 D0

D1 D1

 Excellent   Excellent Excellent electromagnetic electromagnetic electromagnetic compatibility compatibility compatibility  Clock   Clock Clock and communication and andcommunication communication watchdogs watchdogs watchdogs for high for forhigh high system system system security security security

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SafetySafety Safety ModeMode Slave ModeSlave Application SlaveApplication Application

© 2012 © Zentrum © 2012 2012 Zentrum Mikroelektronik Zentrum Mikroelektronik Mikroelektronik DresdenDresden AG Dresden — Rev. AG AG — 3.1 — Rev. Rev. 3.13.1 All rightsAllreserved. All rights rights reserved. The reserved. material The The material contained material contained contained herein may herein herein notmay bemay reproduced, notnot bebe reproduced, reproduced, adapted,adapted, merged, adapted, merged, translated, merged, translated, translated, stored, or stored, stored, used or without or used used the without without priorthe written the prior prior consent written written consent ofconsent the copyright of of thethe copyright owner. copyright owner. owner. The information The The information information furnished furnished in furnished this publication in in this this publication publication is PRELIMINARY is is PRELIMINARY PRELIMINARY and subject and and to subject subject changes to to changes without changes notice. without without notice. notice.

SAP5S / SAP51

Universal Actuator-Sensor Interface IC

Typical Applications

SAP5S/SAP51 Block Diagram

 AS-I Master Modules  AS-I Slave Modules  AS-I Safety Modules (SAP5S only)

Ordering Information Ordering Code

SAP5SD-A-G1-T SAP51D-A-G1-T SAP5SD-A-G1-R SAP51D-A-G1-R SAP5SD-B-G1-T SAP51D-B-G1-T SAP5SD-B-G1-R SAP51D-B-G1-R

Operating Temperature Range

Package Type

RoHS Conform

Packaging

Minimum Order Quantity

-25°C to +85°C

SOP20 / 300 mil

Tubes (37 parts/tube)

370 pcs. (10 tubes)

-25°C to +85°C

SOP20 / 300 mil

Tape & Reel (1000 parts/reel)

1000 pcs. (one reel)

-25°C to +85°C

SOP16 / 300 mil

Tubes (46 parts/tube)

460 pcs. (10 tubes)

-25°C to +85°C

SOP16 / 300 mil

Tape & Reel (1000 parts/reel)

1000 pcs. (one reel)

Sales and Further Information

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asi@zmdi.com

Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +49.351.8822.7274 Fax +49.351.8822.87274

Phone +855-ASK-ZMDI (+855.275.9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700

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ZLED7000 40V LEDZLED7000 Driver with Internal Switch

ZLED700040V LED Driver with Internal Switch 40V LED Driver with Internal Switch

Brief Description

Features

The ZLED7000, one of our ZLED Family of LED control Brief Description ICs, is an inductive step-down converter that is optimal The ZLED7000, one of our ZLED Family of LED control for driving a single LED or multiple LEDs (connected in ICs, is an inductive step-down converter that is optimal series) from a voltage source greater than the voltage for driving a single LED or multiple LEDs (connected in rating of the LED. The ZLED7000 operates in continuseries) from a voltage source greater than the voltage ous mode. Capable of operating efficiently with voltage rating of the LED. The ZLED7000 operates in continusupplies ranging from 6 VDC to 40 VDC, it is ideal for ous mode. Capable of operating efficiently with voltage low-voltage lighting applications. The ZLED7000 supplies ranging from 6 VDC to 40 VDC, it is ideal for minimizeslow-voltage current consumption remaining in a lowlighting by applications. The ZLED7000 current standby mode (output is off) until a voltage minimizes current consumption by remainingofin a low≥0.3V is applied the ADJmode pin. (output is off) until a voltage of current tostandby

≥0.3V is applied to the ADJ pin. In operating mode, the ZLED7000 can source LEDs with an outputIncurrent of ≤ 750mA (≤ 30 watts output operating mode, the ZLED7000 canof source LEDs with power) that is externally adjustable.* The ZLED7000’s an output current of ≤ 750mA (≤ 30 watts of output output that switch and high-side current The sensing integratedpower) is externally adjustable.* ZLED7000’s circuit useintegrated an external resistor adjust the average output switchtoand high-side current sensing output current. Linearity is achieved external circuit use an external resistorviato an adjust the average control signal at the ZLED7000’s pin, implemented output current. LinearityADJ is achieved via an external either as acontrol pulse-width modulation (PWM) ADJ waveform for signal at the ZLED7000’s pin, implemented a gated output or a DC voltage for a(PWM) continuous either current as a pulse-width modulation waveform for current. a gated output current or a DC voltage for a continuous current.

ZLED7000 Application Circuit ZLED7000 Application Circuit 6 to 40 VDC 6 to 40 VDC

C1 1μF

VIN

 One pin on/off or brightness  Integrated 40V powercontrol switch via PWM or DC voltage control signal input  One pin on/off or brightness control via PWM or DC  Switching frequency: 1MHzinput voltage control≤signal  Dimming rate: 1200:1 (typical)  Switching frequency: ≤ 1MHz  Output accuracy: 5% (typical)  current Dimming rate: 1200:1  Built-in thermal shutdown and open-circuit  Output current accuracy: 5% (typical)protection for LED  Built-in thermal shutdown and open-circuit protection forexternal LED components needed for operation  Very few  Very external components needed for operation  Broad range few of applications: outputs up to ≤750mA  Broad range of applications: outputs up to ≤750mA  SOT89-5 package  SOT89-5 package

Application Examples Application Examples

 Illuminated LED signs and other displays  Illuminated LED signs and other displays  LED traffic and street lighting (low-voltage)  LED traffic and street lighting low-voltage (low-voltage)  Architectural LED lighting, including  Architectural LED lighting, including low-voltage applications for buildings applications for buildings  Halogen replacement LEDs (low-voltage)  Halogen replacement LEDs (low-voltage)  LED backlighting  LED backlighting  General purpose exterior and interior LED lighting,  General purpose exteriorlow-voltage and interior LED lighting, including applications requiring including applications requiring low-voltage  General purpose low-voltage industrial applications  General purpose low-voltage industrial applications

4 D1

ADJ ADJ GND GNDLX

2.3 in the data-sheet See sectionSee 2.3section in the data-sheet for details for details

n LED n LED

ISENSEISENSE

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 Operates in continuous with a wide input  Capable of up to mode 95% efficiency* range from 6 VDC to 40 VDC  Operates in continuous mode with a wide input  Integrated 40Vfrom power switch range 6 VDC to 40 VDC

ZLED7000 ZLED7000 2

 Capable of up to 95% efficiency* Features

L1 LX

47μH 47μH

ZLED7000

40V LED Driver with Internal Switch

SOT89-5 Package Dimensions and Pin Assignments D D1

LX E1

VIN

GND

Thermal Pad

ADJ

L e

ISENSE

Dimension (mm)

Symbol

Dimension (mm)

Min

Max

Min

Max

1.400

1.600

2.300

2.600

0.320

0.520

3.940

4.250

0.360

0.560

0.350

0.440

2.900

1.500 Typ 3.100

4.400

4.600

0.900

1.100

1.400

1.800

Ordering Information Product Sales Code

Description

Package

ZLED7000-ZI1R

ZLED7000 â&#x20AC;&#x201C; 40V LED Driver

SOT89-5 (Tape & Reel)

ZLED7000KIT-D1

ZLED7000 used in a MR16 Halogen replacement Demo Kit 12VAC/VDC, including 1 ZLED-PCB1

Kit

ZLED-PCB1

Test PCB with one 3W white High Brightness (HB) LED, cascadable to one multiple LED string

Printed Circuit Board (PCB)

ZLED-PCB2

10 unpopulated test PCBs for modular LED string with footprints of 9 common HB LED types

Printed Circuit Board (PCB)

Sales and Further Information

www.zmdi.com

Zentrum Mikroelektronik Dresden AG (ZMD AG)

ZMD America, Inc.

Zentrum Mikroelektronik Dresden AG, Japan Office

ZMD Far East, Ltd.

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone +49 (0)351.8822.7.533 Fax +49(0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

LED_Drivers@zmdi.com

2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

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ZLED7001 ZLED7001

Universal UniversalLED LEDDriver Driverwith withTemperature TemperatureCompensation Compensation

ZLED7001

Universal LED Driver with Temperature Compensation

Brief BriefDescription Description

ZLED7001 ZLED7001 Features Features

The TheZLED7001, ZLED7001,one oneofofour ourZLED ZLEDfamily familyofofLED LEDcontrol control ICs, is a peak current-mode control LED driver ICs, is a peak current-mode control LED driverIC ICthat thatisis optimal for buck LED driver applications. The ZLED7001 optimal for buck LED driver applications. The ZLED7001 operates operates inin constant constant off-time off-time mode. mode. Capable Capable ofof operating operatingefficiently efficientlywith withvoltage voltagesources sourcesranging rangingfrom from88 VDC VDCtoto450 450VDC VDCororrectified rectified110 110VAC/ VAC/220 220VAC, VAC,ititisis ideal idealforforHigh HighBrightness Brightness(HB) (HB)LED LEDapplications. applications. The The ZLED7001 ZLED7001provides provides a a PWM PWM input input for for an an external external dimming control dimming controlsignal. signal.The TheZLED7001’s ZLED7001’slinear lineardimming dimming input can be used both for linear dimming (0 input can be used both for linear dimming (0toto240 240mV) mV) and temperature and temperaturecompensation compensationofofthe theLED LEDcurrent. current. Because Becausethe theZLED7001’s ZLED7001’sresponse responsetime timeisislimited limitedonly only byby the rate the rateofofchange changeininthe theinductor inductorcurrent, current,ititattains attainsaa highperformance performancepulse-width pulse-widthmodulation modulation(PWM) (PWM) dimdimhigh mingresponse. response.The TheZLED7001 ZLED7001ensures ensuresproper properoutput output ming currentregulation, regulation,without withoutloop loopcompensation, compensation,via viapeak peak current current-mode operation. current-mode operation.

 Wide 450 VDC VDC or or Wide input input range range from from 88 VDC VDC to to 450 110 VAC/220 VAC 110 VAC/220 VAC  Temperature the LEDs LEDs and and Temperature compensation compensation to to protect protect the extend extend LED LED lifetime lifetime  Operates Operates in in constant constant off-time off-time mode mode  Both signal inputs inputs Both PWM PWM and and linear linear dimming control signal available available  Very operation Veryfew few external external components components needed for operation  Broad greater than than 1A 1A Broad range range of of applications: applications: outputs greater

Application Application Examples Examples Line-powered replacement replacement LED lighting  Line-powered Illuminated LED LED signs signs and other displays  Illuminated LED street street and and traffic traffic lighting  LED Constant-current source source for general purposes  Constant-current purposes Architecture // building building LED lighting  Architecture LED backlighting backlighting  LED  Line powered LED flood flood lighting lighting  Line powered LED Interior // exterior exterior LED LED lighting lighting  Interior

ZLED7001Application ApplicationCircuit Circuit ZLED7001 450VDC VDC 8 8toto450 V VS S

IN RR IN

C CININ

CLED C LED

D1 D1

R1 R1 C1 C1

ZLED7001 ZLED7001

3 3 LD 2 LD 2 PWMD

PWMD TOFF TOFF 7

COFF COFF

R2 R2 NTC NTC

L1 L1

V VININ

VREF VREF

n LED LED n

GATE GATE GND CS GND CS 4 4

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Q1 Q1

5 5 6 6

RCS RCS

ZLED7001 ZLED7001 Universal LED Driver with Temperature Compensation Universal LED Driver with Temperature Compensation

ZLED7001 Block Diagram ZLED7001 Block Diagram

SOP-8 Package Dimensions (mm, except θ) SOP-8 Package DimensionsE(mm,3.900 except θ) A 1.550 ± 0.200 ± 0.100 A A1 A1 A2 A2 b b c c D D

1.550 ± ± 0.075 0.200 0.175 0.175 0.075 1.450 ± Typical

1.450 ± Typical 0.420 0.070 0.420 ± 0.214 ± 0.070 0.036 0.214 ± ± 0.100 0.036 4.900 4.900 ± 0.100

E E1 E1 e e L L θ θ

3.900 ± ± 0.220 0.100 6.020 6.020 0.220 1.270 ± Typical

1.270 ± Typical 0.835 0.435 0.835 ± 4° ± 4° 0.435 4° ± 4°

Ordering Information Ordering Sales Code Information

Description

Package

Sales Code ZLED7001-ZI1R ZLED7001-ZI1R ZLED7001Kit-E1

DescriptionCompensation ZLED7001 – Universal LED Driver with Temperature

Package SOP8 (Tape & Reel)

ZLED7001 – UniversalBoard LED Driver with Temperature Compensation ZLED7001 Evaluation up to 24VAC / 40VDC, including 1 ZLED-PCB1

SOP8 (Tape & Reel) Kit

ZLED7001Kit-E1 ZLED-PCB1 ZLED-PCB1 ZLED-PCB2

ZLED7001 Evaluation to 24VAC / 40VDC,toincluding 1 ZLED-PCB1 Test PCB with one 3WBoard white up HB-LED, cascadable one multiple LED string

Kit Printed Circuit Board

Test PCB with one white to one multipleofLED string HB-LED types 10 unpopulated test3W PCBs forHB-LED, modular cascadable LED string with footprints 9 common

Printed Circuit Circuit Board Board Printed

ZLED-PCB2

10 unpopulated test PCBs for modular LED string with footprints of 9 common HB-LED types

Printed Circuit Board

Sales and Further Information Sales Further Information Zentrumand Mikroelektronik ZMD America, Inc.

www.zmdi.com www.zmdi.com Zentrum Mikroelektronik

01109 Dresden Grenzstrasse 28 Germany 01109 Dresden

4-21-3, Shinbashi, Minato-ku 2nd Floor, Shinbashi Tokyu Bldg. Tokyo, 105-0004 4-21-3, Shinbashi, Minato-ku Japan Tokyo, 105-0004

Dresden AG (ZMD AG) Zentrum Mikroelektronik Grenzstrasse Dresden AG28(ZMD AG)

8413 Drive ZMD Excelsior America, Inc. Suite Excelsior 200 8413 Drive Madison, Suite 200 WI 53717 USA Madison, WI 53717

3F, No. 51, Sec. 2, Ltd. ZMD FAR EAST, Keelung Road 3F, No. 51, Sec. 2, 11052 Taipei Keelung Road Taiwan 11052 Taipei

Taiwan Japan Phone +81.3.6895.7410 Phone +886.2.2377.8189 Fax +81.3.6895.7301 Fax +886.2.2377.8199 Phone +81.3.6895.7410 Phone +886.2.2377.8189 Fax +49(0)351.8822.8.7533 Fax (631) 549-2882 Fax FaxAG (ZMD+886.2.2377.8199 DISCLAIMER: This information applies to a product under development. Its+1 characteristics and specifications are subject to change+81.3.6895.7301 without notice. Zentrum Mikroelektronik Dresden AG) assumes no obligation Germany Phone +49 (0)351.8822.7.533 Fax +49(0)351.8822.8.7533 Phone +49 (0)351.8822.7.533

USA Phone Fax Phone

Dresden AG, Japan Office Zentrum Mikroelektronik 2nd Floor, Shinbashi Tokyu Bldg. Dresden AG, Japan Office

LED_Drivers@zmdi.com LED_Drivers@zmdi.com ZMD FAR EAST, Ltd.

+1 (608) 829-1987 +1 (608) (631) 829-1987 549-2882 +1

Global Corporate Catalog

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On-Line Store

regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind nature whatsoever arising out of orwithout in any way related to the furnishing, performance, or(ZMD use ofAG) thisassumes technicalno data. ZMD AG DISCLAIMER: This information applies to a product under development. Its characteristics andor specifications are subject to change notice. Zentrum Mikroelektronik Dresden AG obligation hereby expressly disclaims any liability of ZMD agreed AG to any customer, licensee or any furnished other thirdhereby party, is and any such customer, and any other thirdno party hereby waives any liability of ZMD for any damages in regarding future manufacture unless otherwise to in writing. The information believed to be true andlicensee accurate. However, under circumstances shall ZMD AG be liableAG to any customer, licensee, or any other third for any indirect, incidental, or consequential any whether kind or nature out tort of or(including in any way related to the furnishing, connection withparty or arising outspecial, of the furnishing, performance or use of thisdamages technicalof data, based whatsoever on contract,arising warranty, negligence), strict liability, orperformance, otherwise. or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection or arising out of the furnishing, performance use of1.1 this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise. © 2010with Zentrum Mikroelektronik Dresden AG —orRev.

ZLED7002

Toggle (Side-Step) Dual-Channel LED Driver

ZLED7002

Toggle (Side-Step) Dual-Channel LED Driver Brief Description

Features

Brief Description

The ZLED7002 toggle (side-step) Features dual-channel LED • Automatic MAIN channel short-circuit protection driver is one of our ZLED family of LED control ICs. It switches the output current to the SUB channel operates in the lower LED DC voltage supply of 2.7VMAIN to if the MAIN LED is shorted The ZLED7002 toggle (side-step) dual-channel • range Automatic channel short-circuit protection Thiscontrol unique LED of controlling a • Under-voltage power supply detection driver is one of our ZLED family 5.5V. of LED ICs. driver It is capable switches the output current to the SUB channel MAIN channel and a SUB channel. Typically, only one of • Over-temperature protection operates in the lower DC voltage supply range of 2.7V to if the MAIN LED is shorted the two channels is active and the ZLED7002 toggles 5.5V. This unique LED driver is capable a betweenof thecontrolling channels automatically in• response to the power supply detection Under-voltage MAIN channel and a SUB channel.voltage Typically, only one supply level andofthe related voltage at the UV • Over-temperature protection Benefits (under-voltage the two channels is active and the ZLED7002protection) toggles pin. A high-to-low transition of the in power supply causes between the channels automatically response to the the output current to switch • Extends lighting life-time by switching to a lowerfrom the MAIN channel to the SUB channel if the UV pin voltage supply level and the related voltage at the UV current LED channel when the supply is low voltage (VUV-PIN) is below the ZLED7002’s under-voltage Benefits (under-voltage protection) pin. A high-to-low of • 80mV (typical) hysteresis prevents unintended =1.17V, typical). A low-to-high tranthreshold (Vtransition UVTHRSH switching activation due to power supply ripple the power supply causes the output sition current switches to the switch output current from the SUB channel • Extends lighting life-time by switching to a lower• Ultra low quiescent current: 250A typical the MAINifchannel the UV pin voltage is 80mV (typifrom the MAIN channel to the SUBtochannel the UVif pin current LED channel when the supply is low cal) above the under-voltage threshold. • Very few external components needed for operation voltage (VUV-PIN) is below the ZLED7002’s under-voltage 80mV (typical) TheAMAIN channel tranis a configurable •constant current hysteresis prevents unintended low-to-high threshold (VUVTHRSH=1.17V, typical). sourcethe driving MAIN LED string with a maximum switching activation due to power supply ripple sition switches the output current from SUBthe channel current draw of 250mA. The MAIN LED channel current Available Support • Ultra low quiescent current: 250A typical to the MAIN channel if the UV pin is voltage is 80mV (typiset by an external resistor (R3) connected to the Iset cal) above the under-voltage threshold. • Evaluation Kit pin. Alternately, the SUB channel is activated the • Very when few external components needed for operation ZLED7002’s SUBcurrent pin is pulled to ground. Its current is The MAIN channel is a configurable constant determined by the forward voltage of the SUB LED and source driving the MAIN LED string with a maximum external components. The SUB channel can drive up to Physical Characteristics current draw of 250mA. The MAIN100mA LED channel current current through the LED channel when active.Support Available is set by an external resistor (R3) The connected to the Iset • Voltage supply: 2.7V to 5.5V DC ZLED7002 enables voltage-level indicator applica-

• Evaluation Kit pin. Alternately, the SUB channel tions is activated when battery-driven the • Operating temperature: -25°C to 85°C and low-power lighting applications ZLED7002’s SUB pin is pulled to that ground. current tois a lower-current LED channel requireItsswitching • Small SOP8 package theSUB supply is low, determined by the forward voltagewhen of the LED andwhich extends the lighting lifetime. Because the dropout DP) is minimal (as external components. The SUB channel can drive up to voltage (V For additional information on our ZLED driver family, Physical Characteristics low as 0.1V when the MAIN channel output current is 100mA current through the LED channel when active. visit www.zmdi.com/products/led-drivers/ ~200mA), the ZLED7002 is optimal for battery-powered • Voltage 2.7V to 5.5V DC applications. Capable of operating efficiently withsupply: DC The ZLED7002 enables voltage-level indicator applicasupplies ranging from 2.7V to 5.5V, it is ideal temperature: for • Operating -25°C to 85°C tions and low-power battery-drivenvoltage lighting applications small portable lighting applications. that require switching to a lower-current LED channel • Small SOP8 package The ZLED7002 can lifealso reduce bill-of-material costs when the supply is low, which extends the lighting because very few external components are required for time. Because the dropout voltagemost (VDPapplications, ) is minimalmaking (as it an optimal fit for small additional information on our ZLED driver family, low as 0.1V when the MAIN channel output current is lifetime isFor devices for which lighting critical. Only four visit www.zmdi.com/products/led-drivers/ ~200mA), the ZLED7002 is optimal for battery-powered resistors, a diode, and a capacitor are needed for a typical basic application. ZLED7002 Typical Application Circuit applications. Capable of operating efficiently with DC voltage supplies ranging from 2.7V to 5.5V, it is ideal for small portable lighting applications.

The ZLED7002 can also reduce bill-of-material costs because very few external components are required for most applications, making it an optimal fit for small devices for which lighting lifetime is critical. Only four resistors, a diode, and a capacitor are needed for a typical basic application.

ZLED7002 Typical Application Circuit

© 2011 Zentrum Mikroelektronik Dresden AG — Rev. 3.0 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZLED7002

Toggle (Side-Step) Dual-Channel LED Driver

SOP8 Package Dimensions and Pin Assignments

Symbol

Dimension (mm, except θ) Min

Max

1.350

1.750

0.100

0.250

Typical Applications  Battery-driven LED lighting including • • • •

1.450 Typical

Helmet lighting Bicycle lighting Miner lamps Pocket lights

0.350

0.490

0.178

0.250

 Voltage-level indicators

4.800

5.000

3.800

4.000

 General purpose low-voltage industrial and consumer LED applications

5.800

6.240

1.270 Typical

0.400

1.270

0°

8°

Ordering Information

Product Sales Code

Description

Package

ZLED7002-ZI1R

ZLED7002 – Toggle (Side-Step) Dual-Channel LED Driver

SOP8 (Tape & Reel)

ZLED7002KIT-E1

ZLED7002 Evaluation Kit

Kit

Sales and Further Information

www.zmdi.com

Zentrum Mikroelektronik Dresden AG (ZMD AG)

ZMD America, Inc.

Zentrum Mikroelektronik Dresden AG, Japan Office

ZMD FAR EAST, Ltd.

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone Fax

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

+1 (608) 829-1987 +1 (631) 549-2882

2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

LED_Drivers@zmdi.com 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

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Products available at

On-Line Store

ZLED7010

40V LED Driver with Temperature Compensation

ZLED7010

40V LED Driver with Remperature Compensation

Brief Description

Features  Capable of 95% efficiency*  Operates in continuous mode with a wide input range from 6 VDC to 40 VDC  Integrated 40V power switch  One-pin on/off or brightness control via DC voltage or PWM control signal  Switching frequency: ≤ 1MHz  Dimming rate: 1200:1 (typical)  Output current accuracy: 5% (typical)  Built-in temperature compensation and open-circuit protection for LEDs  Thermal shutdown protection for the ZLED7010  Very few external components needed for operation  Broad range of applications: outputs up to ≤750mA

The ZLED7010, one of our ZLED Family of LED control ICs, is an inductive step-down converter that is optimal for driving a single LED or multiple LEDs (connected in series) from a voltage source greater than the voltage rating of the LED. The ZLED7010 operates in continuous mode. Capable of operating efficiently with voltage supplies ranging from 6 VDC to 40 VDC, it is ideal for low-voltage lighting applications. The ZLED7010 minimizes current consumption by remaining in a low-current standby mode (output is off) until a voltage of ≥0.3V is applied to the ADJI pin. In operating mode, the ZLED7010 can source LEDs with an output current of ≤ 750mA (≤ 30 watts of output power*) that is externally adjustable. The ZLED7010’s integrated output switch and high-side current sensing circuit use an external resistor to adjust the average output current. LED control is achieved via an external control signal at the ZLED7010’s ADJI pin, implemented as a pulse-width modulation (PWM) waveform for a gated output current or a DC voltage for continuous current.

 SOP-8 package

The ZLED7010 provides a temperature compensation function for maintaining stable and reliable LED operation. LED over-temperature conditions are detected via a negative temperature coefficient (NTC) thermistor mounted close to the LEDs. If an over-temperature condition occurs, the NTC value reaches the value of a threshold resistor and the IC reduces LED current automatically. After the circuit recovers to a safe temperature, current returns to the set value. ADJO outputs and ADJI inputs of consecutive ICs can be interconnected as a driver chain deploying the temperature compensation information of the predecessor. This reduces the part count because only the first stage of the series requires an NTC. 6 to 40 VDC

Application Examples  Illuminated LED signs and other displays  LED traffic and street lighting (low-voltage)  Architectural LED lighting, including low-voltage applications for buildings  Halogen replacement LEDs (low-voltage)  LED flood-lighting  LED backlighting  General purpose exterior and interior LED lighting, including applications requiring low-voltage  General purpose low-voltage industrial applications

ZLED7010 Application Circuit RS

C1 4

1μF

C2 100nF

R2 50kΩ

RNTC RTH

ZLED7010

ADJI

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n LED

ISENSE

VIN

GND

ADJO

8 5

R3 NTC

L1 47μH

ZLED7010

40V LED Driver with Temperature Compensation

SOP-8 Package Dimensions and Pin Assignments

Symbol A A1 A2 b c D

Dimension (mm) Min 1.350 0.100

Max 1.750 0.250 1.450 Typical

0.350 0.178 4.800

0.490 0.250 5.000

Symbol E E1 e L θ

Dimension (mm, except θ) Min Max 3.800 4.000 5.800 6.240 1.270 Typical 0.400 1.270 0° 8°

Ordering Information Product Sales Code

Description

Package

ZLED7010-ZI1R

ZLED7010 – 40V LED Driver with Temperature Compensation

SOP8 (Tape & Reel)

ZLED7010KIT-D1

ZLED7010 Demo Board with LED on Cool Body 12VAC/VDC

Kit

ZLED-PCB1

Test PCB with one 3W white HB-LED, cascadable to 1 multiple LED string

Printed Circuit Board

ZLED-PCB2

10 unpopulated test PCBs for modular LED string with footprints of 9 common HB-LED types

Printed Circuit Board

Sales and Further Information

www.zmdi.com

Zentrum Mikroelektronik Dresden AG (ZMD AG)

ZMD America, Inc.

Zentrum Mikroelektronik Dresden AG, Japan Office

ZMD Far East, Ltd.

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone +49 (0)351.8822.7.533 Fax +49(0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

LED_Drivers@zmdi.com

2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Global Corporate Catalog

Products available at

On-Line Store

ZLED7012

Low-Voltage Four-Channel LED Driver

ZLED7012

Low-Voltage Four-Channel LED Driver

Brief Description

Benefits

 Current matching accuracy: ±0.9% (typical) The ZLED7012, one of our ZLED family of LED control ICs, is a low-noise, constant-frequency charge pump  One-pin on/off or brightness control for up to four DC/DC converter that can drive up to four LED LEDs via a simple PCC serial interface—no pulsechannels, providing a programmable constant current width modulation or additional control circuit needed level ranging from 1.8mA to 20mA per LEDZLED7012 channel. It  programmable current levels for achieving realFour-Channel LED14 Driver can also drive higher current LEDs becauseLow-Voltage its current time control of effects such as LED fade-out or sinks can operate in parallel. It enables white or other sudden changes in brightness color LED applications that require uniform intensity and/or linear progressions in brightness. Capable of  Low EMI and back-injected noise because the operating efficiently with DC voltage supplies ranging charge pump is Benefits not inductor-based Brief Description from 2.8V to 5.5V, it is ideal for small, battery-powered Current matching accuracy: ±0.9% The ZLED7012, one of our ZLED family of LEDfew controlexternal components  Very needed for(typical) operation ICs, is a low-noise, applications because very few external components are constant-frequency charge pump  One-pin on/off or brightness control for up to four DC/DC converter that can drive upFlexible to four LED design enables LED LEDs via diverse a simple PCC serialapplications: interface—no pulse-up needed: typically one small-dimension 1μF capacitor channels, providing a programmable constant current width modulation or additional control circuit needed to 20mA per channel level ranging from 1.8mA to 20mA per LED channel. It across the C+ and C- pins and two small-dimension  14 programmable current levels for achieving realcan also drive higher current LEDs because its current time control of effects such as LED fade-out or 2.2μF capacitors to GND from the VCC andsinks Vout  LED driver with low-voltage can pins. operate in parallel. It enables white or other family concept sudden changes in brightness color LED applications that require uniform intensity six-channel LED driver ZLED7022 The ZLED7012’s Pulse Count Control (PCC) serial and/or linear digiprogressions in brightness. Capable of Low EMI and back-injected noise because the operating efficiently charge pump is not inductor-based tal input is used to enable/disable the LEDs and set the with DC voltage supplies ranging from 2.8V to 5.5V, it is ideal for small, battery-powered  Very few external components needed for operation current level (14 settings using a nearly logarithmic applications because very few external components are  Flexible design enables diverse LED applications: up needed: typically one small-dimension 1μF capacitor scale to provide a linear brightness progression). This to 20mA per channel across the C+ and C- pins and Available two small-dimension Support simple, high-speed interface allows efficient real-time 2.2μF capacitors to GND from the VCC and Vout pins.  LED driver family concept with low-voltage six-channel LED driver ZLED7022 The ZLED7012’s Pulse Count Control serial digi- Kit management of LEDs via microcontrollers or control  (PCC) Evaluation tal input is used to enable/disable the LEDs and set the systems. current level (14 settings using a nearly logarithmic scale to provide a linear brightness progression). This Available Support The ZLED7012’s features include integrated simple, soft-start high-speed interface allows efficient real-time management of LEDs via microcontrollers or control  Evaluation Kit circuitry to protect against excessive in-rush current durPhysical Characteristics systems. ing power-on and a low-current shutdown mode that The ZLED7012’s features include integrated soft-start circuitry to protect against excessive in-rush current dur Voltage supply: Physical 2.8V to Characteristics 5.5V DC reduces quiescent current consumption to approximately ing power-on and a low-current shutdown mode that 1μA (typical) by disconnecting the load from input  Voltage supply: 2.8V 5.5V DC reducesthe quiescent current consumption to approximately  Operating temperature: -40°C toto85°C (typical) by disconnecting the load from the input when the EN/SET pin is low for a specified 1μA time.  Operating temperature: -40°C to 85°C when the EN/SET pin is low for a specified time. footprint 12-pin UTQFN package (2mm×2mm)  Small  Small footprint 12-pin UTQFN package (2mm×2mm)

Features

Features  Low quiescent current in low-current shutdown

mode: 1μA typical; <2μA maximum  Low quiescent current in low-current shutdown  Integrated thermal shutdown protection prevents mode: 1μA typical; <2μA maximum damage by shutting down the ZLED7012 if the die junction temperature exceeds 160°C (typical)

ZLED7012 Application Circuit

 Integrated thermal shutdown protection prevents  Fixed charge pump switching frequency: 1MHz (typ.) damage by shutting down the ZLED7012 ifSoft-start the die feature protects against excessive ZLED7012 Application inrush current during power-on junction temperature exceeds 160°C (typical)  Fixed charge pump switching frequency: 1MHz (typ.)  Soft-start feature protects against excessive inrush current during power-on

Circuit

© 2010 Zentrum Mikroelektronik Dresden AG - Rev. 1.0 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZLED7012

Low-Voltage Four-Channel LED Driver

Block Diagram

Typical Applications  LED backlighting for portable devices  LED lighting for cell phones, smartphones. PDAs  Illumination of digital photo frames  Backlighting for GPS / navigation systems  Low voltage LED lighting fixtures  General purpose low-voltage industrial and consumer applications

Ordering Information Product Sales Code

Description

Package

ZLED7012-ZI1R

ZLED7012 – Low-Voltage Four-Channel LED Driver

UTQFN12 (2x2)mm Tape & Reel

ZLED7012KIT-E1

ZLED7012 Evaluation Board

Kit

Sales and Further Information

www.zmdi.com

Zentrum Mikroelektronik Dresden AG (ZMD AG)

ZMD America, Inc.

Zentrum Mikroelektronik Dresden AG, Japan Office

ZMD FAR EAST, Ltd.

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone Fax

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

+1 (608) 829-1987 +1 (631) 549-2882

2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

LED_Drivers@zmdi.com 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Global Corporate Catalog

Products available at

On-Line Store

ZLED7015

1.0MHz Boost Converter with Internal 35V Switch ZLED7015 1.0MHz Boost Converter with Internal 35V Switch

Brief Description

Features

 Integrated 35V power switch The ZLED7015, ZLED7015 one of our ZLED family of LED control ICs, is a1.0MHz constant current boost converter  Wide input range: 6VDC to 30VDC Boost Converter with Internal 35V Switch with an internal high-power 35V switch. It is opti Over-temperature protection mal for driving multiple white LEDs connected in  Over-voltage (open LED string) protection adjusted series so that the LED current is uniform for better via external resistor divider brightness and color control. It can also drive  Under-voltage lockout ensures reliable circuit Brief Description Features devices that require a constant voltage and is operation  Integrated 35V power switch The ZLED7015, one of our ZLED family of LED capable of operating efficiently with voltage control ICs, is a constant current boost converter Control of output  Wide input range: 6VDCcurrent to 30VDCduring start-up via internal supplies ranging 6VDC to 30VDC. It is Itideal with from an internal high-power 35V switch. is opti Over-temperature “soft-start” protection mal forapplications driving multiple requiring white LEDs low connected for diverse lighting sup- in  Over-voltage LED string) protection adjusted Switching(open frequency: 1.0MHz series so that the LED current is uniform for better via external resistor divider ply voltages such as SELV applications. Typically, brightness and color control. It can also drive Single pin lockout on/offensures or brightness control via PWM,  Under-voltage reliable circuit smaller, less expensive components devices that external require a constant voltage can and is operation microcontroller, or DC voltage control signal input of operating efficientlyat with voltage be used since capable the ZLED7015 switches 1.0MHz  Control of output current during start-up via internal  “soft-start” MSOP-10 package supplies ranging from 6VDC to 30VDC. It is ideal (typical). for diverse lighting applications requiring low sup Switching frequency: 1.0MHz

voltagescurrent such as SELV applications.via Typically, The ZLED7015plyoutput is adjustable an smaller, less expensive external components can connected from external current sense resistor R S be used since the ZLED7015 switches at 1.0MHz the FB pin to ground. (typical).

 Single pin on/off or brightness control via PWM, Benefits

microcontroller, or DC voltage control signal input

High efficiency:  MSOP-10 package

up to 95% efficiency  Few small, low-profile components needed for Benefits operation

ZLED7015 efficiency output current is adjustable via an The ZLED7015The improves and minimizes external current sense resistor RS connected from power losses in current setting resistor RS by the the FB pin to ground. use of an internal 0.3V feedback reference volThe ZLED7015 improves efficiency and minimizes tage. power losses in the current setting resistor RS by

 High efficiency: up to 95% efficiency  Small form-factor package  Few small, low-profile components needed for operation

 Small form-factor package Available Support

use of an internal 0.3V feedback reference vol-

Dimming can tage. be controlled using a pulse-width modulation (PWM) or ausing DC a voltage Dimmingwaveform can be controlled pulse-width modulation (PWM) waveform or a DC voltage applied to the FB pin.

Available Support  Evaluation Kit  Evaluation Kit

Physical Characteristics

applied to the FB pin.

Physical Characteristics

The ZLED7015 provides a “soft-start” function to The ZLED7015 provides a “soft-start” function to prevent excessive current on start-up andand preventin-rush excessive in-rush current on start-up ensures a controlled rise of the output voltage. ensures a controlled rise of the output voltage.

Operating temperature: -40°C  Operating temperature: -40°C to 85°C  RoHS-compliant RoHS-compliant

to 85°C

Over-voltage protection is adjustable via external

Over-voltage protection is Radjustable via external resistors R1 and 2. resistors R1 and R2. ZLED7015 Typical Application Circuit VIN = 6 to 30 VDC Circuit ZLED7015 Typical Application L1

VIN = 6 to 30 VDC C1

CIN RVDD

CVDD

REN

CIN

VOUT

RVDD

REN

CVDD

L1 EN

VDD

OVP

ZLED7015

VDD

PGND

ZLED7015 PGND

VOUT

D1 R21 R

COVP

AGND

COUT

LXVP

OVP

LED String

CVP

LED String

COVP

COUT

AGND

VP S © 2011 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Visit .com for more detailed information

ZLED7015

1.0MHz Boost Converter with Internal 35V Switch

ZLED7015 Block Diagram 6 to 30 VDC VIN

L1 RVDD

CIN

ZLED7015

REN CVDD

D1 2

LDO

VDD Bias & Reference

Bandgap

COUT

CVP

7 –

RS VREF

Oscillator

n LED

Ramp Gen 4

Shutdown

∑

COVP

Slope Compensation

RS Current Sense

OVP

Over-Voltage Protection

Thermal Protection

Current Limit

PGND

AGND

3, 5

Typical Applications  Low-Voltage Retro-fit Lighting

 Architectural/Building Lighting

 MR16 Lights

 Replacement Tubes

 SELV Lighting

 LED Backlighting

 Signage and Outdoor Lighting

 General Purpose Low-Voltage Industrial and Consumer Applications

Ordering Information Product Sales Code

Description

Package

ZLED7015-ZI1R

ZLED7015 – 1.0MHz Boost Converter with Internal 35V Switch

MSOP-10 (Tape & Reel)

ZLED7015KIT-E1

ZLED7015-E1 Evaluation Board, 1 ZLED-PCB10, and 5 ZLED7015 ICs

Kit

Sales and Further Information

www.zmdi.com

LED_Drivers@zmdi.com

Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 275 South 5th Avenue Pocatello, ID 83201 USA

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +49.351.8822.7.533 Fax +49.351.8822.8.7533

Phone +1.208.478.7200 Fax +1.208.478.7200

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700

Global Corporate Catalog

Products available at

On-Line Store

ZLED7x20 Family

High Current 40V LED Driver with Internal Switch

ZLED7x20

High Current 40V LED Driver with Internal Switch

ZLED7x20 Family

High Current 40V LED Driver with Internal Switch

Brief Description

Benefits

The ZLED7x20 continuous-mode inductive stepdown converter family is part of our line of LEDcontrol ICs. It is designed for applications requiring high brightness and high current. It can efficiently Brief Description drive a single LED or multiple series-connected The a ZLED7x20 continuous-mode inductive stepLEDs from voltage input higher than the LED fordown converter family is part of our line of LEDward voltage: Vin = 6 to 40 VDC. It provides an control ICs. It is designed for applications requiring adjustable current whichItiscan setefficiently via an high output brightness and ≤1.2A, high current. externaldrive resistor and LED controlled by theseries-connected ZLED7x20’s a single or multiple integrated output current-sensing circuit LEDshigh-side from a voltage input higher than the LED forand high internal wardspeed voltage: Vin = 640V to 40power VDC. Itswitch. providesAn an output current set via an externaladjustable control signal, which ≤1.2A, can bewhich a DCisvoltage, resistor and controlled bywaveform, the ZLED7x20’s PWM, external or microcontroller-generated on integrated high-side output current-sensing circuit the ADJ pin can also be used to linearly adjust a and high speed internal 40V power switch. An continuous output current or to control a gated outexternal control signal, which can be a DC voltage, put current. PWM, or microcontroller-generated waveform, on

 High efficiency: up to 98%  Single pin on/off and brightness control using

DC voltage or PWM Benefits Very few external components needed for operation  High efficiency: up to 98%  Footprint compatible with ourcontrol ZLED7000 Single pin on/off and brightness using depending onPWM the application. DC voltage or  Very few external components needed for

operation Support Available

 Footprint compatible with our ZLED7000  Evaluation Kit depending on the application.

Physical Characteristics Available Support  Operating junction temperature: -40°C to 125°C Evaluation Kit  Switching frequency: up to 1MHz

the ADJ alsooff be by used to linearly adjust a The output canpin be can turned applying a voltage continuous to control gatedthe outlower than 0.2V output to thecurrent ADJ or pin, which aputs put current. ZLED7x20 in a low-current standby state. The output can be turned off by applying a voltage

The ZLED7x20 enables diverse industrial and lower than 0.2V to the ADJ pin, which puts the consumer lighting applications requiring ZLED7x20 in a low-current standby state. high driving currents, wide operating voltage range, The ZLED7x20 enables diverse industrial and high efficiency, variable brightness control.high It consumer and lighting applications requiring offers over-temperature and operating LED open-circuit prodriving currents, wide voltage range, tection.high Theefficiency, ZLED7x20 alsobrightness minimizecontrol. bill-of- It and can variable materialoffers costs because very comover-temperature andfew LEDexternal open-circuit proThe ZLED7x20 also minimize bill-ofponentstection. are required for mostcan applications. Only a costs because very few external comresistor,material a diode, an inductor, and three capacitors ponents required for most applications. Only a are needed for are a typical basic application.

Physical Characteristics

 Operating junction temperature: -40°C to 125°C  Switching frequency: up to 1MHz ZLED7x20 Family Selection Matrix

Product

Max. Current Output

Package

ZLED7x20 Family 1.2A Selection Matrix ZLED7020

SOT89-5

Product ZLED7320

Max. Current Output 1.0A

ZLED7020

1.2A

SOT89-5

ZLED7320

1.0A

DFN-5

ZLED7520

0.75A

DFN-5

ZLED7720

0.35A

DFN-5

ZLED7520 ZLED7720

0.75A

Package DFN-5

DFN-5

0.35A

DFN-5

resistor, a diode, an inductor, and three capacitors ZLED7x20 Typical Application Circuit are needed for a typical basic application. Features ZLED7x20 Typical Rs Application Circuit Vs = 6 to 40 VDC

 Up toFeatures 1.2A output current Rs Vs = 6 to 40 VDC D1  Up to 1.2A output current  Internal 40V power switch D1 Internal powerrange switch6 to 40 VDC  WideDC input40V voltage  Wide DC input voltage range 6 to 40 VDC  Output current accuracy: 3% (typical) Vin I SENSE  Output current accuracy: 3% (typical) Vin I SENSE  Dimming ratio: 1200:1  Dimming ratio: 1200:1  LED open-circuit protection (C1) C2  LED open-circuit protection (C1) C2 ZLED7x20 ZLED7x20  Thermal shutdown protection 0.1µF  Thermal shutdown protection 0.1µF LX ADJ ADJ

GND GND

(C3) L1

(C3)

LED String

to 33µH33µH to 220µH 220µH

For more information, contact ZMDI via LED_Drivers@zmdi.com.

Visit .com for more detailed information

stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice. © 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — June 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZLED7x20 Family

(C1)

0.1µF

High Current 40V LED Driver with Internal Switch

VIN

Powe Suppl Oscilla and Un Voltag Detect (UV

500kΩ

ZLED7x20 Block Diagram

ADJ

ZLED 6 to 40 VDC

D1 4 ISENSE

(C1)

0.1µF

VCC 5

VIN

Power Supply, Oscillator, and UnderVoltage Detection (UV)

(C3)

Typicaln LED Applications

VDDA VDDD

VIN UV

ISENSE And Driver

POR VREF SD

500kΩ

Power MOS

POR

Ordering Information

Trim

GND

Typical Applications  Illuminated LED signs and other displays

 Interior/exterior LED lighting

 LED street and traffic lighting (low voltage)

 MR16 LED spot lights

 Architecture/building LED lighting

 Retrofit LED lighting fixtures

 LED backlighting



Ordering Information Product Code

Product Code

Description

ZLED7020-ZI1R

ZLED7020 – High Current (1200m

ZLED7320-ZI1R

ZLED7320 – High Current (1000m

ZLED7520-ZI1R

ZLED7520 – High Current (750mA

ZLED7720-ZI1R

ZLED7720 – High Current (350mA

ZLED7020KIT-D1

ZLED7020-D1 Demo Board, 1 ZLE

ZLED-PCB8

Test PCB with a 5W white high bri

Sales and Further Information

Zentrum Mikroelektronik Dresden AG General purpose industrial and consumer LED applications Global Headquarters Grenzstrasse 28 01109 Dresden, Germany Central Office: Phone +49.351.8822.306 Fax +49.351.8822.337

Description

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

USA Phone 1.855.275.9634 Phone +1.408.883.6310 Package Fax +1.408.883.6358

ZLED7020-ZI1R

ZLED7020 – High Current (1200mA) 40V LED Driver with Internal Switch

SOT89-5 (Tape & Reel)

ZLED7320-ZI1R

ZLED7320 – High Current (1000mA) 40V LED Driver with Internal Switch

ZLED7520-ZI1R

ZLED7520 – High Current (750mA) 40V LED Driver with Internal Switch

ZLED7720-ZI1R

ZLED7720 – High Current (350mA) 40V LED Driver with Internal Switch

DFN-5 (Tape &DISCLAIMER: Reel) European Technical Support This information a Zentrum Mikroelektronik Dresde Phone +49.351.8822.7.772 DFN-5 (Tape &information Reel) furnished hereby is Fax +49.351.8822.87.772

ZLED7020KIT-D1

ZLED7020-D1 Demo Board, 1 ZLED-PCB8 and 5 ZLED7020 ICs

ZLED-PCB8

Test PCB with a 5W white high brightness (HB) LED, cascadable to a multiple LED string

Sales and Further Information

www.zmdi.com

(Tape European Sales DFN-5 (Stuttgart) Phone +49.711.674517.55 Kit Fax +49.711.674517.87955

licensee, or any other third party

&in Reel) any way related to the furnish

customer, licensee or any other any damages in connection with tort (including negligence), strict

Printed Circuit Board (PCB)

LED_Drivers@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.306 Fax +49.351.8822.337

USA Phone 1.855.275.9634 Phone +1.408.883.6310 Fax +1.408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

 LED street and traffic lighting (low voltage)

 LED backlighting SD

ISENSE

ZLED7X20

 Illuminated LED signs and other displays

33µH to 220µH

 Architecture/building LED lighting

Shutdown

ADJ

ISENSE

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

Products available at

On-Line Store

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — June 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

ZLED7022

Low-Voltage Six-Channel LED Driver

ZLED7022

Low-Voltage Six-Channel LED Driver

Brief Description

Benefits

 Current matching accuracy: ±0.9% (typical) The ZLED7022, one of our ZLED family of LED control ICs, is a low-noise, constant-frequency charge pump  One-pin on/off or brightness control for up to six DC/DC converter that can drive up to six LED channels, LEDs via a simple PCC serial interface—no pulseproviding a programmable constant current level ranging width modulation or additional control circuit needed from 1.8mA to 20mA per LED channel. It can also drive  14 programmable current levels for achieving realhigher current LEDs because its current sinks can time control of effects such as LED fade-out or operate in parallel. It enables white or other color LED ZLED7022 sudden changes in brightness applications that require uniform intensity and/or linear Low-Voltage Six-Channel LED Driver progressions in brightness. Capable of operating effi Low EMI and back-injected noise because the ciently with DC voltage supplies ranging from 2.8V to charge pump is not inductor-based 5.5V, it is ideal for small, battery-powered applications  Very few external components needed for operation because very few external components are needed: Brief Description Benefitsdiverse LED applications: up  Flexible design enables typically one small-dimension 1μF capacitor across the  Current matching accuracy: ±0.9% (typical) The ZLED7022, one of our ZLED family of LED control to 20mA per channel C+ and C- pins and two small-dimension 2.2μFICs,capaciis a low-noise, constant-frequency charge pump  One-pin on/off or brightness control for up to six DC/DC converter that can drive  up LED to six LED channels, tors to GND from the VCC and Vout pins. driver family concept LEDs via with a simplelow-voltage PCC serial interface—no pulseproviding a programmable constant current level ranging width modulation or additional control circuit needed from 1.8mA to 20mA per LED channel. It can also drive LED driver ZLED7012 four-channel The ZLED7022’s Pulse Count Control (PCC) serial digi 14 programmable current levels for achieving realhigher current LEDs because its current sinks can time control of effects such as LED fade-out or tal input is used to enable/disable the LEDs and set inthe operate parallel. It enables white or other color LED sudden changes in brightness applications that require uniform intensity and/or linear current level (14 settings using a nearly logarithmic progressions in brightness. Capable of operating effi Low EMI and back-injected noise because the ciently with DC voltage supplies ranging from 2.8V to pump is not inductor-based scale to provide a linear brightness progression). This Available Support charge 5.5V, it is ideal for small, battery-powered applications Very few external components needed for operation simple, high-speed interface allows efficient because real-time very few external components are needed:  Flexible design enables diverse LED applications: up one small-dimension 1μF capacitor across the management of LEDs via microcontrollers ortypically control  Evaluation Kit to 20mA per channel C+ and C- pins and two small-dimension 2.2μF capacitors to GND from the VCC and Vout pins.  LED driver family concept with low-voltage systems. four-channel LED driver ZLED7012 The ZLED7022’s Pulse Count Control (PCC) serial digiThe ZLED7022’s features include integrated tal soft-start input is used to enable/disable the LEDs and set the current level (14 settings using a nearly logarithmic circuitry to protect against excessive in-rush current scale to durprovide a linear brightness progression). This Physical Characteristics Available Support simple, high-speed interface allows efficient real-time ing power-on and a low-current shutdown mode that management of LEDs via microcontrollers or control  Evaluation Kit  Voltage supply: 2.8V to 5.5V DC reduces quiescent current consumption to approximately systems. The ZLED7022’s features include integrated soft-start 1μA (typical) by disconnecting the load from the input  Operating temperature: -40°C to 85°C circuitry to protect against excessive in-rush current durPhysical Characteristics when the EN/SET pin is low for a specified time.ing power-on and a low-current shutdown mode that  Small footprint 12-pin UTQFN (2mm×2mm)  Voltage supply: package 2.8V to 5.5V DC reduces quiescent current consumption to approximately 1μA (typical) by disconnecting the load from the input when the EN/SET pin is low for a specified time.

Features

 Operating temperature: -40°C to 85°C  Small footprint 12-pin UTQFN package (2mm×2mm)

Features

 Low quiescent current in low-current shutdown  Low quiescent current in low-current shutdown mode: 1μA typical; <2μA maximum mode: 1μA typical; <2μA maximum

 Integrated thermal shutdown protection prevents

 Integrated thermal shutdown protection prevents damage by shutting down the ZLED7022 if the die ZLED7022 Application Circuit 160°C (typical) damage by shutting down the ZLED7022 if thejunction die temperature exceeds ZLED7022 Application Circuit  Fixed charge pump switching frequency: 1MHz (typ.) junction temperature exceeds 160°C (typical) Soft-start feature protects against excessive current during power-on  Fixed charge pump switching frequency: 1MHzinrush (typ.) 1μF  Soft-start feature protects against excessive Cpump inrush current during power-on C+ C. to 5.5V 2.8V

1μF

VCC Cin

Cpump C+

2.2μF

Vout

ZLED7022

2.2μF

Cout

GND

C-

D0 D1

. to 5.5V 2.8V

VCC

2 Vout

n<=14

EN/SET

D2 D3 D4

Cin

2.2μF

ZLED7022

Cout

2.2μF

GND

D0 EN/SET Visit .com 1 2 n<=14 for more detailed information

D1 D2 D3 D4 D5

ZLED7022

Low-Voltage Six-Channel LED Driver

Block Diagram

Ordering Information Product Sales Code

Description

Package

ZLED7022-ZI1R

ZLED7022 – Low-Voltage Six-Channel LED Driver

UTQFN12 (2x2)mm - Tape & Reel

ZLED7022KIT-E1

ZLED7022 Evaluation Board

Kit

Sales and Further Information

www.zmdi.com

Zentrum Mikroelektronik Dresden AG (ZMD AG)

ZMD America, Inc.

Zentrum Mikroelektronik Dresden AG, Japan Office

ZMD FAR EAST, Ltd.

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone Fax

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

+1 (608) 829-1987 +1 (631) 549-2882

2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

LED_Drivers@zmdi.com 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Global Corporate Catalog

Products available at

On-Line Store

ZLED7030 ZLED7030

High High Current Current 40V LED 40V LED DriverDriver with Switch with Switch Dimming Dimming

ZLED7x30

ZLED7030

High Current 40V LED Driver with Switch Dimming

BriefBrief Description Description

Features Features • Switch • Switch dimming dimming with multiple with multiple levelslevels The ZLED7x30 The ZLED7x30 continuous-mode continuous-mode inductive inductive step- step• Three • Three modes modes for output for output level settings level settings ZLED7030 downdown converter converter family family is oneis of one ourof ZLED our ZLED LEDLEDFeatures Brief Description • Up • to Up 1.2A to output 1.2A output current current High Current 40V LED Driver with Switch Dimming • Switch dimming with multiple levels control control ICs. ItICs. is designed It is designed for applications for applications requiring requiring The ZLED7x30 continuous-mode inductive step• Internal • Internal 40V power 40V power switch switch high brightness high brightness and high and current. high current. The ZLED7x30 The ZLED7x30 • Three modes for output level settings down converter family is one of our ZLED LEDcan efficiently can efficiently drive drive a single a single LED LED or multiple or multiple • Up to 1.2A output current • Wide • Wide DC input DC input voltage voltage range range 8.5 to8.5 40 to VDC 40 VDC control ICs. It is designed for applications requiring series-connected series-connected LEDs from a from voltage a voltage input input higher • Internal 40V power switch highLEDs brightness and high current. The higher ZLED7x30 • Output • Output current current accuracy: accuracy: 5% (typical) 5% (typical) than than the LED thecan LED forward forward voltage voltage (Vin = 8.5 = to 8.5 to efficiently drive a(Vin single LED orDescription multiple • Wide DC input voltage range 8.5 to 40 VDC Features Brief • LED• open-circuit LED open-circuit protection protection series-connected from a output voltage input higher 40VDC). 40VDC). It provides It provides an adjustable an LEDs adjustable output current current Switch dimming with multiple levels • Output current accuracy:• 5% (typical) The ZLED7x30 continuous-mode inductive step• Thermal shutdown shutdown protection protection than which the LED = 8.5 to • Thermal • Three modes for output level settings (1.2A(1.2A maximum), maximum), which is forward setis via setvoltage an via external an(Vin external down converter family is one• of our open-circuit ZLED LED- protection LED

It provides an adjustable output • Up to 1.2A output current control ICs.current It is designed for applications requiring resistor resistor and 40VDC). and controlled controlled by the by the ZLED7x30’s ZLED7x30’s • Thermal shutdown protection (1.2A maximum), which is set via an external Benefits • Internal 40V power switch high brightness and highBenefits current. The ZLED7x30 integrated integrated high-side high-side outputoutput current-sensing current-sensing circuitcircuit can ZLED7x30’s efficiently drive a single LED or multiple resistor and controlled by the • Wide DC input voltage range 8.5 to 40 VDC and high and speed high integrated speed internal internal 40V power 40V power switch. switch. Itsseries-connected low Its low • High • Benefits efficiency: High efficiency: uphigher to up 98% to 98% from a voltage input high-side output current-sensing circuitLEDs • Output current accuracy: 5% (typical) than LED forward voltage (Vin = 8.5 to conducting conducting impedance ensures ensures high high system system effi-theeffiandimpedance high speed internal 40V power switch. Its low • Very • few Very external few external components components needed needed for protection for • LED open-circuit • High efficiency: up to 98% 40VDC). It provides an adjustable output current ciency. ciency. conducting impedance ensures high system effi• Thermal shutdown operation operation external components needed for protection (1.2A maximum), which is •setVery via few an external ciency. resistor and controlled by the ZLED7x30’s The ZLED7x30 The ZLED7x30 provides provides a switch a switch dimming dimming func- funcoperation • Adds • Adds switch switch dimming dimming function function to existing to existing Benefits integrated high-side current-sensing circuit The ZLED7x30 provides a switch dimming func- output tion. Ittion. detects It detects external external switchswitch actionaction to adjust to adjust out- out• Adds switch dimming function to existing installation installation and high speed internal 40V power switch. Its low • High efficiency: up to 98% tion. allowing It detects external switch action to output current, put current, allowing dimming dimming functionality functionality to beadjust to be conducting impedance ensuresinstallation high system effi• Very few external components needed for put current, allowing dimming functionality to be ciency. achieved achieved without without changing changing the original the original lighting lighting sys- sysAvailable Available Support Support operation achieved without changing the original lighting sysSupport tem circuitry. tem circuitry. The ZLED7x30 provides a Available switch dimming func• Adds switch dimming function to existing tem circuitry. • Evaluation • Evaluation Kitouttion. It detects external switch actionKit to adjust installation Kit The switch The switch dimming dimming is implemented is implemented in either in either twotwo-two- dimming• Evaluation put functionality to be The switch dimming is implemented incurrent, either allowing achieved without changing the original lighting syslevel mode level mode or three-level ormode three-level mode. mode. The output The output current current Available Support level or three-level mode. The output currentPhysical Physical Characteristics Characteristics Physical Characteristics circuitry. of every of every level of level and the and total theand number total of number levels of tem levels are are are every level thenumber total of levels • Evaluation Kit switch dimming implemented in either two- -40°C-40° • isOperating • Operating temperature: temperature: -40° to 105° 105° • Operating temperature: CCtotoC 105° CC customer customer selected selected by selected setting by setting the corresponding the corresponding customer by setting theThe corresponding level mode or three-level mode. The output current Physical Characteristics input conditions DIM1 and DIM2 pin. input input conditions conditions of DIM1 of DIM1 and of DIM2 and DIM2 pin. pin. of • Switching frequency: to 1MHz • Switching • Switching frequency: frequency: up to up 1MHz to 1MHz every level and the total number of levels are • Operating temperature: -40°C to 105°C customer selected setting the corresponding • package SOP-8 package The enables ZLED7x30 enables diverse industrial and •bySOP-8 • SOP-8 package The The ZLED7x30 ZLED7x30 enables diverse diverse industrial industrial and and input conditions of DIM1 and DIM2 pin. • Switching frequency: up to 1MHz consumer lighting applications requiring high consumer consumer lighting lighting applications applications requiring requiring high high • SOP-8 package The ZLED7x30 enables diverse industrial and driving currents, wide voltage operating voltage range, ZLED7x30 Family Selection Matrix driving driving currents, currents, wide wide operating operating voltage range, range, ZLED7x30 ZLED7x30 Family Family Selection Selection MatrixMatrix consumer lighting applications requiring high high efficiency, and variable brightness control. It Product Max. Current Output Package driving wide operating voltage range, high efficiency, high efficiency, and variable and variable brightness brightness control. control. It currents, It ZLED7x30 Family Selection Matrix offers over-temperature and LED Max. Current Max. Output OutputPackage Package high open-circuit efficiency, and Product variableProduct brightness control. It Current offersoffers over-temperature over-temperature and and LED LED open-circuit open-circuit Max. Current Output Packag 1.2A Product SOP-8 protection. The ZLED7x30 can also minimize billoffers over-temperature andZLED7030 LED open-circuit ZLED7030 ZLED7030 1.2A 1.2AZLED7030 SOP-8SOP-8 protection. protection. Theof-material ZLED7x30 The ZLED7x30 can because also can minimize alsovery minimize billbill1.2A SOP-8 costs few external protection. The ZLED7x30 can also minimize billZLED7330 1.0A SOP-8 of-material of-material costs costs because because very very few external external of-material costs ZLED7330 because very few external components are required for few most applications. 1.0A SOP-8 ZLED7330 1.0A 1.0AZLED7330 SOP-8SOP-8 0.75A SOP-8 components are required forZLED7530 most applications. components components are are required fora most for most applications. applications. Onlyrequired a resistor, diode, an inductor, and three ZLED7530 0.75A SOP-8 Only a resistor, a ZLED7530 diode, ZLED7530 an inductor, and three 0.75A0.75A SOP-8 SOP-8 capacitors are for typical ZLED7730 0.35A SOP-8 Only Only a resistor, a resistor, a diode, a diode, an needed inductor, an inductor, anda capacitors three and threebasic are needed for a typical basic ZLED7730 0.35A SOP-8 application. capacitors capacitors are are needed needed for afor typical a typical basic basic application. ZLED7730 ZLED7730 0.35A0.35A SOP-8SOP-8 application. application. For additional our ZLED driveron our ZLED dr Foron additional information Circuit information ZLED7x30 Typical ApplicationZLED7x30 Circuit Typical Application family, visit www.zmdi.com/products/led-drivers family, visit www.zmdi.com/products/led-drivers/  For additional For additional information information on our on ZLED our ZLED driverdriver  ZLED7x30 ZLED7x30 Typical Typical Application Application Circuit Circuit family, family, visit www.zmdi.com/products/led-drivers/ visit www.zmdi.com/products/led-drivers/       

 



 

      



 

 





  

    

          

       

 

  

    





          Dresden     © 2011 Zentrum Mikroelektronik AG — Rev. 1.2 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.       

© 2011 Zentrum Mikroelektronik Dresden AG — Rev. 1.2   All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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© 2011 Zentrum © 2011 Zentrum Mikroelektronik Mikroelektronik Dresden Dresden AG — Rev. AG1.2 — Rev. 1.2 All rights All reserved. rights reserved. The material The contained material contained herein may herein not be may reproduced, not be reproduced, adapted, adapted, merged, translated, merged, translated, stored, orstored, used without or usedthe without prior written the priorconsent written of consent the copyright of the copyright owner. owner. The information The information furnishedfurnished in this publication in this publication is subjectistosubject changes to changes without notice. without notice.

ZLED7030

High Current 40V LED Driver with Switch Dimming

ZLED7x30 Block Diagram 6 to 40 VDC

D1 ISENSE

(C1)

VCC

0.1µF

VIN VCC

Power Supply, Oscillator and UnderVoltage Detection (UV)

(C3)

VDDA

n LED

VDDD 8

ISENSE VREF

VIN

ISENSE And Driver

POR CLK SD

Power MOS

L1 33µH to 220µH

SD S

Analog Dim Logic

DIM1 DIM2

Dim Select

Shutdown

Trim

ZLED7x30

GND

Typical Applications  Illuminated LED signs and other displays

 Interior/exterior LED lighting

 LED street and traffic lighting (low voltage)

 MR16 LED spot lights

 Architecture/building LED lighting

 Retrofit LED lighting fixtures

 LED backlighting

 General purpose industrial and consumer LED applications

Ordering Information Product Sales Code Description

Package

ZLED7030-ZI1R

ZLED7030 – High Current (1200mA) 40V LED Driver with Switch Dimming

SOP-8 (Tape & Reel)

ZLED7330-ZI1R

ZLED7330 – High Current (1000mA) 40V LED Driver with Switch Dimming

SOP-8 (Tape & Reel)

ZLED7530-ZI1R

ZLED7530 – High Current (750mA) 40V LED Driver with Switch Dimming

SOP-8 (Tape & Reel)

ZLED7730-ZI1R

ZLED7730 – High Current (350mA) 40V LED Driver with Switch Dimming

SOP-8 (Tape & Reel)

ZLED7030KIT-D1

ZLED7030-D1 Demo Board, 1 ZLED-PCB8 and 5 ZLED7030 ICs

Kit

ZLED-PCB8

Test PCB with one 5W white High Brightness (HB) LED, cascadable to one multiple LED string

Printed Circuit Board (PCB)

Sales and Further Information

www.zmdi.com

Zentrum Mikroelektronik Dresden AG (ZMD AG)

ZMD America, Inc.

Zentrum Mikroelektronik Dresden AG, Japan Office

ZMD FAR EAST, Ltd.

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone Fax

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

+1 (608) 829-1987 +1 (631) 549-2882

2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

LED_Drivers@zmdi.com 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Global Corporate Catalog

Products available at

On-Line Store

ZSLS7025

Boost LED Driver

ZSLS7025

Boost LED Driver

Brief Description

Features

The ZSLS7025, one of our ZSLS Family of LED Brief Description control ICs, is a constant current boost converter The ZSLS7025, onehigh-brightness of our ZSLS Family designed for driving LEDs. ItofisLED control ICs, is a constant current boost converter optimal for driving multiple white LEDs connected designed for driving high-brightness LEDs. in series so that the LED current is uniform forIt is optimal for driving whiteThe LEDs connected better brightness andmultiple color control. wide input range and so high current enables diverse for in series thatoutput the LED current is uniform industrial, after-market andThe consumer better brightness and automotive, color control. wide input lighting applications. range and high output current enables diverse



industrial, after-market automotive, and consumer The ZSLS7025 output current is adjustable via an external current sense resistor and can deliver lighting applications. stable constant output current from a few milliamps The ZSLS7025 output current is adjustable via an up to 2A or higher. external current sense resistor and can deliver

The ZSLS7025 constant current into the stable constantdrives outputacurrent from a few milliamps load. The control loop features a pulse frequency up to 2A or higher. modulated (PFM) architecture that is inherently The ZSLS7025 drives constant current into the stable and does not need aloop compensation.

load.ZSLS7025 The control loop features a pulse frequency The supports pulse-width modulation modulated (PFM) architecture that is inherently (PWM) or linear voltage dimming, which allows stable and does notLED need loop compensation. flexible control of the luminance. The ZSLS7025 ZSLS7025cansupports pulse-width The operate in applicationsmodulation with a (PWM) or linear voltage dimming, which allows wide input voltage range from 5V to 100V. An integrated over-voltage protection (OVP) circuit flexible control of the LED luminance. protects the system, even under no-load The ZSLS7025 can operate in applications with a conditions. The over-voltage protection is wide input voltage range from 5V to 100V. An adjustable via external resistors R1 and R2.

integrated over-voltage protection (OVP) circuit protects the system, even under no-load conditions. The over-voltage protection is adjustable via external resistors R1 and R2.

Wide application input voltage range: 5V to 100V Features (Higher voltage supported. See section 2.1 in the  sheet.) Wide application input voltage range: 5V to 100V data (Higher voltage section 2.1 in the Constant current outputsupported. limited onlySee by external data sheet.) component selection Constant currentrequired output limited only by external No loop compensation component selection Internal over-voltage protection

  

 Noover-temperature loop compensation required Internal protection  Internal over-voltage protection Brightness control via PWM or DC voltage control signal input  Internal over-temperature protection

 

SOP-8 package



Brightness control via PWM or DC voltage control signal input



Benefits  SOP-8 package

 High efficiency: up to 95%  Minimum bill of materials Benefits  Small form-factor package

 High efficiency: up to 95%  Minimum bill of materials Available Support  Small form-factor package  Demonstration Kit

Available Support

Physical Characteristics  Demonstration Kit

 Junction temperature: -40°C to 125°C  RoHS compliant

Physical Characteristics

For additional information on our LED driver family,  Junction temperature: -40°C to 125°C visit www.zmdi.com/products/led-drivers/  RoHS compliant

For additional information on our LED driver family, ZSLS7025 Typical Application Circuit visit www.zmdi.com/products/led-drivers/ VIN =5 to 100 VDC L1

CIN

RVDD

ZSLS7025 Typical Application Circuit

ZSLS7025

VIN =5 to 100 VDC VDD

GATE

RVDD

ADJ GND

RTOFF

CVDD

COUT

VDD

LED String

ZSLS7025 OVP

GATE

TOFF

ADJ

GND

RTOFF

L1 CS

TOFF

CIN CVDD

RCS

COUT RFB

LED String

OVP

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RCS

RFB

© 2012 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZSLS7025 Boost LED Driver

ZSLS7025 Block Diagram 5 to 100 VDC VIN

L1 RVDD VDD CIN

Voltage Regulator Block

CVDD

5V Clamp

ZSLS7025

Vref1 (1.0V) Vref2 (0.3V)

50k

Vref4

COUT

2 RTOFF

Vref4 (0.05V) + -

Vref1

Blanking 500ns

900k

n LED

R Q

100k

GATE -

TOFF

Vref3 (0.25V)

VDD

ADJ

Current Mirror

Vref3

UVLO

Vref2

POR

7 R1

OVP +

GND

Vref1

RCS

RFB

Typical Applications  Retro-fit Lighting

 Architectural/Building Lighting

 MR16 Lights

 Replacement Tubes

 SELV Lighting

 LED Backlighting

 Signage and Outdoor Lighting

 General Purpose Low-Voltage Industrial and Consumer Applications

Ordering Information Product Sales Code

Description

Package

ZSLS7025-ZI1R

ZSLS7025 – Boost LED Driver

SOP-8 (Tape & Reel)

ZSLS7025KIT-D1

ZSLS7025PCB-D1 Demo Board, 1 ZLED-PCB10, and 5 ZSLS7025 ICs

Kit

Sales and Further Information Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Phone +49 (0)351.8822.7.533 Phone +855-ASK-ZMDI Fax +49 (0)351.8822.8.7533 (+855.275.9634)

www.zmdi.com

LED_Drivers@zmdi.com

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700

Global Corporate Catalog

Products available at

On-Line Store

ZWIR4512

Secure Low-Power Wireless IPv6 Module

ZWIR4512

Secure Low-Power Wireless IPv6 Module

Brief Description The ZWIR4512 enables secure low-power wireless IPv6 communication for sensors and small devices. ZMDI provides a user-programmable, royalty-free 6LoWPAN stack with mesh routing capability with the ZWIR4512. 6LoWPAN is an Internet Engineering Task Force (IETF) standard for building wireless, low-power IP-based sensor and device networks. These networks can easily be integrated into existing IT infrastructure or operate autonomously. Secure communication is provided by standardcompliant implementations of the Internet Protocol Security (IPSec) protocol suite and the Internet Key Exchange Protocol version 2 (IKEv2), which enable highly secure end-to-end communication, including over unsecure network nodes. ® The module is powered by an ARM Cortex™-M3 microcontroller* and provides a rich set of GPIO and peripheral interfaces. Up to 192 kB of flash and 32 kB of RAM are available for user applications. Different low power modes are provided to save energy in battery-operated devices. The modules provide superior radio properties without the need for complicated external RF design.

Hardware Features  License-free 868/915 MHz frequency bands ®

 ARM Cortex™-M3 32-bit microcontroller  Up to 192kB flash and up to 32kB RAM for user

applications

 Unique EUI64 address  4 (10) channels in EU (US) mode  19 (ZWIR4512AC1) or 21 (ZWIR4512AC2)



 

GPIOs with multiplexed peripheral functions:  2 x UART, SPI, 3 x ADC, 2 x DAC, 2 11 x PWM, USB, CAN, I C™ †, 8 x Timer  Several 5V tolerant I/Os available Low current consumption:  3.5 µA Standby Mode  13.5 mA Receive Mode  18.5 mA Transmit Mode @ 0 dBm Modulation schemes  BPSK (20 kBps EU, 40 kBps US)  O-QPSK (100 kBps EU, 250 kBps US) Receiver sensitivity: up to -110 dBm TX output power: up to 10 dBm (US Mode)

* ARM® and Cortex™ are trademarks of ARM, Ltd. † 2 I C™ is a trademark of NXP.

Visit .com for more detailed information

Firmware Features  Serial command interface with built-in security

and over-the-air update (OTAU) functionality

 Royalty-free library bundle for custom firmware  6LoWPAN communication library with mesh

routing capability

 IPSec and IKEv2 security libraries  Over-the-air update library  Several peripheral libraries

Benefits  Uniquely simple programmability  Standard-compliant security solution  No need for external microcontroller  Plug-and-play integration into local and wide-area    

networks No RF design required 2D barcode label containing MAC address Superior radio propagation ETSI/FCC certified

Available Support  Development Kit  Programming guide and application notes  Ethernet, USB and UART gateways  Example programs demonstrating C-API usage

Physical Characteristics  Supply voltage: 2.0 V to 3.6 V  Operating temperature: -40 °C to +85 °C  30-pin edge-board contact package or

32-pin land grid array package

Typical ZWIR4512 Application Setup LAN Device

ZWIR4512 Sensor

ZWIR4512

ZWIR4512 Ethernet Gateway

Sensor Monitor

DSL Router

Ethernet

LAN Device

Sensor Monitor

Sensor

Internet

ZWIR4512 ZWIR4512 Sensor

LAN

Sensor Wireless Mesh Network

Internet Device

Sensor Monitor

WAN

For more information, contact ZMDI via wpan@zmdi.com.

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.10 — January 24, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

ZWIR4512 ZWIR4512 Secure Low-Power Wireless IPv6 Module Secure Low-Power Wireless IPv6 Module

Product Sales Code Product Sales Code ZWIR4512AC1xA ZWIR4512AC1xA ZWIR4512AC1xI ZWIR4512AC1xI ZWIR4512AC2xA ZWIR4512AC2xA ZWIR4512AC2xI ZWIR4512AC2xI ZWIR4512-Devkit ZWIR4512-Devkit

European Technical Support European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772 Phone +49.351.8822.7.772 Fax +49.351.8822.87.772 European Sales (Stuttgart)

GPIO GPIO & Peripherals & Peripherals

UART2 UART2 HAL HAL

libZWIR45xx-IPSec.a libZWIR45xx-IPSec.a libZWIR45xx-IKEv2.a libZWIR45xx-IKEv2.a libZWIR4512.a libZWIR4512.a libZWIR451x-UART1.a libZWIR451x-UART1.a

ThinThin MAC MAC

Digital Digital PHYPHY

Analog Analog Frontend Frontend

RF-Ctrl RF-Ctrl

Zentrum Mikroelektronik Dresden Mikroelektronik AG, Japan Office Zentrum 2nd Floor,AG, Shinbashi Dresden Japan Tokyu Office Bldg. 4-21-3, Shinbashi, Minato-ku 2nd Floor, Shinbashi Tokyu Bldg. Tokyo, 4-21-3, 105-0004 Shinbashi, Minato-ku Japan Tokyo, 105-0004 Japan Phone +81.3.6895.7410

ADC ADC ADC ADC ADC ADC

Microcontroller

ADC DACDACADC UART ADC DACDACADC UART SPI

ARM® Cortex™-M3 ARM® Cortex™-M3

ADC ADC PWM ADC ADC PWM

ADC ADC TIM ADC ADC TIM

SPI USB USB CAN CAN I2C™ I2C™

General Purpose & Peripheral IO General Purpose & Peripheral IO

Package Package 30 pin SMT, 27.9 mm x 16.5 mm 30 pin SMT, 27.9 mm x 16.5 mm 30 pin SMT, 27.9 mm x 16.5 mm 30 pin SMT, 27.9 mm x 16.5 mm 32 pin LGA, 23.1 mm x 15.1 mm 32 pin LGA, 23.1 mm x 15.1 mm 32 pin LGA, 23.1 mm x 15.1 mm 32 pin LGA, 23.1 mm x 15.1 mm

www.zmdi.com www.zmdi.com

Fax +81.3.6895.7301 Phone +81.3.6895.7410 Fax +81.3.6895.7301

Microcontroller

RF – Transceiver

Supply Supply

Hardware Hardware

RF – Transceiver

RF RF

ZWIR4512 ZWIR4512 Block Block Diagram Diagram

libZWIR451x-OTAU.a libZWIR451x-OTAU.a

libZWIR451x-UART2.a libZWIR451x-UART2.a

Description Description Unprogrammed module for user application programs Unprogrammed module for user application programs Preprogrammed module with serial command interface Preprogrammed module with serial command interface Unprogrammed module for user application programs Unprogrammed module for user application programs Preprogrammed module with serial command interface Preprogrammed module with serial command interface Development Kit Development Kit

1525 America, McCarthy Inc. Blvd., #212 ZMD Milpitas, CA 95035-7453 1525 McCarthy Blvd., #212 USA Milpitas, CA 95035-7453 USA USA Phone +855.275.9634 USA Phone +855.275.9634 Phone Phone +408.883.6310 Central+49.351.8822.0 Office: Fax +49.351.8822.600 Fax +408.883.6358 Phone +49.351.8822.0 Phone +408.883.6310 *Fax ARM©+49.351.8822.600 and Cortex™ are trademarks ARM, Ltd. Fax of +408.883.6358

† I2CTM is a trademarks of NXP.

Network Network Buffers Buffers

IEEE 802.15.4 MAC IEEE 802.15.4 MAC IEEE 802.15.4 PHY IEEE 802.15.4 PHY

Sales and Further Information Sales and Further Information Zentrum Mikroelektronik ZMD America, Inc. Dresden Mikroelektronik AG Zentrum Global Headquarters Dresden AG Grenzstrasse 28 Global Headquarters 01109 Dresden, Grenzstrasse 28 Germany 01109 CentralDresden, Office: Germany

IPSec IPSec

6LoWPAN 6LoWPAN Mesh Routing Mesh Routing IEEE 802.15.4 MAC IEEE 802.15.4 MAC

Applications Applications The ZWIR4512 serves as a universal secure The servesmodule. as a universal radio ZWIR4512 communication Typical secure appliradio communication module. Typical application examples include home and industry cation examples home andmetering industry/ automation, health include monitoring, smart automation, health monitoring, smart metering smart grid applications, and keyless entry/ smart grid applications, and keyless entry systems. systems. Its very low current consumption makes the Its verysuitable low current consumption makes module for battery-operated devices.the module suitable for battery-operated devices. Ordering Information Ordering Information

IKEv2 IKEv2

UART1 UART1

IPv6 IPv6

libZWIR45xx-6LoWPAN.a libZWIR45xx-6LoWPAN.a

IPSec IPSec Config. Config. & & Key Key Database Database

UDP UDP

ZWIR ZWIR 4502 4502

ARM® ARM® Cortex™-M3 Cortex™-M3

OTA Update OTA Update

ICMPv6 ICMPv6

Application Code Application Code

Application Application

BootBoot Reset Reset

Stack Architecture Stack Architecture

ZMD FAR EAST, Ltd. 3F, No. 51,EAST, Sec. 2,Ltd. ZMD FAR Keelung Road 3F, No. 51, Sec. 2, 11052 Taipei Keelung Road Taiwan 11052 Taipei Taiwan

wpan@zmdi.com wpan@zmdi.com

Phone +886.2.2377.8189 Fax +886.2.2377.8199 Phone +886.2.2377.8189 Fax +886.2.2377.8199

Zentrum Mikroelektronik Dresden Mikroelektronik AG, Korea Office Zentrum U-space 1AG, Building Dresden Korea Office 11th Floor, Unit JA-1102 U-space 1 Building 670 11thSampyeong-dong Floor, Unit JA-1102 Bundang-gu, Seongnam-si 670 Sampyeong-dong Gyeonggi-do,Seongnam-si 463-400 Bundang-gu, Korea Gyeonggi-do, 463-400 Korea Phone +82.31.950.7679 Fax Phone +82.504.841.3026 +82.31.950.7679 Fax +82.504.841.3026

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation Its regarding future manufacture unlessare otherwise agreed to without in writing. The DISCLAIMER: This information applies to a product under development. characteristics and specifications subject to change notice. information furnished hereby is believed to be and accurate. However, underfuture no circumstances shall ZMD AG beagreed liable to customer, Zentrum Mikroelektronik Dresden AG (ZMD AG)true assumes no obligation regarding manufacture unless otherwise to any in writing. The licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, any way related to thethird furnishing, use ofincidental, this technical data. ZMD AG hereby of expressly liability of ZMD out AGof toorany licensee, or any other party forperformance, any special, or indirect, or consequential damages any kinddisclaims or natureany whatsoever arising in customer, licensee or any other third party, and or anyuse such customer, licensee and any third party hereby waives liability of ZMD for any way related to the furnishing, performance, of this technical data. ZMD AG other hereby expressly disclaims any any liability of ZMD AG AG to any European Sales (Stuttgart) Phone +49.711.674517.55 any damages in connection withthird or arising thesuch furnishing, performance or use this technical whether based on contract, warranty, customer, licensee or any other party, out andofany customer, licensee and anyofother third partydata, hereby waives any liability of ZMD AG for Fax +49.711.674517.87955 Phone +49.711.674517.55 tort or otherwise. any (including damages negligence), in connectionstrict withliability, or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, 91 Fax +49.711.674517.87955 tort (including negligence), strict liability, or otherwise. © 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.10 — January 24, 2014 All rightsZentrum reserved. The material contained not1.10 be reproduced, adapted, © 2014 Mikroelektronik Dresdenherein AG —may Rev. — January 24, 2014 merged, translated, stored, or used without the prior written consent of the copyright owner.

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Power Management Power and Precision

Smart Power Management Solutions Semiconductor Solutions for Tomorrowâ&#x20AC;&#x2DC;s Energy Efficiency Challenge

Smart Power Management Solutions from ZMDI Designers of today’s high performance systems face many challenges: competitive features, regulatory requirements, solution stability, aggressive time-tomarket, and quick migration to manufacturing. Often the power requirements of the system are not well understood in the early part of the design process and features that help improve overall system reliability are becoming key differentiators. Consequently power system designers need solutions that are high performance, easily optimized, fully-featured, easy to use, flexible, and reusable. ZMDI’s smart power management chipsets provide designers with a complete range of high efficiency solutions to meet low, medium, and high power requirements. Configurability via hardware or software ensures optimum flexibility and reusability of your design. Our solutions offer optional communications for telemetry and fault reporting allowing easier implementation in smart managed systems to meet system reliability, energy efficiency, and regulatory requirements. ZMDI’s digital smart power management ICs are supported by our easy-to-use PC-based Pink Power Designer™ design optimizer tool. A key advantage of this software and our true digital architecture is the ability to make real time trade-offs between performance, size, and cost. The software helps maintain your design investment as the resulting solution can be easily migrated to meet different power requirements. Our team of expert technical support staff with extensive power management system design experience is available to help you at all stages from system design through to board layout. ZMDI smart power management solutions – for tomorrow’s energy efficiency challenge

smart power management ICs and extensive system expertise help you develop the optimal solution and minimize your time-to-market

Applications • • • • • • •

’s

Server and storage units Industrial and high-end PCs Telecommunications equipment and base stations Network routers and switches FPGAs Wireless access points, cable modems Power Set-top boxes

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Features

Single-Phase Digital PWM Controller

PMBus™ Monitoring and Configuration



3.3 or 5.5

ZSPM1000ZA1R

Single-Phase Digital PWM Controller

PMBus™ Monitoring and Configuration



3.3 or 5.5

ZSPM1005ZA1R

Single-Phase Digital PWM Controller

Pin-Strap Configuration



3.3 or 5.5

ZSPM1025AA1W

Single-Phase Digital PWM Controller

PMBus™ Monitoring and Configuration Optimized for Murata 25A Power Block



3.3 or 5.5

ZSPM1025CA1W

Single-Phase Digital PWM Controller

Pin-Strap Configuration Optimized for Murata 25A Power Block



3.3 or 5.5

ZSPM1025DA1W

Single-Phase Digital PWM Controller

Pin-Strap Configuration Optimized for Murata 25A Power Block



3.3 or 5.5

ZSPM1035AA1W

Single-Phase Digital PWM Controller

PMBus™ Monitoring and Configuration Optimized for Murata 35A Power Block



3.3 or 5.5

ZSPM1035CA1W

Single-Phase Digital PWM Controller

Pin-Strap Configuration Optimized for Murata 35A Power Block



3.3 or 5.5

ZSPM1035DA1W

Single-Phase Digital PWM Controller

Pin-Strap Configuration Optimized for Murata 35A Power Block



3.3 or 5.5

ZSPM2000ZA1R

Single-Phase Digital PWM Controller and Integrated MOSFET Driver

PMBus™ Monitoring and Configuration



5.0

ZSPM2005ZA1R

Single-Phase Digital PWM Controller and Integrated MOSFET Driver

Pin-Strap Configuration



5.0

ZSPM9000AI1R

Integrated Power Stage

Intel® 4.0 DrMOS Integrated 5V LDO, Thermal Flag, Skip Mode



3.0 to 15.0

ZSPM9010ZA1R

Integrated Power Stage

Intel® 4.0 DrMOS Thermal Flag, Skip Mode



3.0 to 15.0

ZSPM9015ZI1R

Integrated Power Stage

Intel® 4.0 DrMOS Thermal Shutdown and Flag, Zero Curent Detect



4.5 to 25.0

ZSPM9060ZA1R

Integrated Power Stage

Intel® 4.0 DrMOS Thermal Flag, Skip Mode



3.0 to 16.0

ZSPM4011BA1Wxx

Analog DC-DC Regulator

Fixed and Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 24.0

ZSPM4012BA1Wxx

Analog DC-DC Regulator

Fixed and Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 24.0

ZSPM4013BA1Wxx

Analog DC-DC Regulator

Fixed and Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 18.0

ZSPM4022AA1W06

Analog DC-DC Regulator

Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 19.0

ZSPM4022AA1W09

Analog DC-DC Regulator

Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 19.0

ZSPM4022AA1W12

Analog DC-DC Regulator

Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 19.0

ZSPM4023AA1W06

Analog DC-DC Regulator

Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 28.0

ZSPM4023AA1W09

Analog DC-DC Regulator

Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 28.0

ZSPM4023AA1W12

Analog DC-DC Regulator

Variable Output Voltage Soft-Start, PWM and PFM Modes²



4.5 to 28.0

Vin (V)

External switch

Description

ZSPM1000ZI1R

Internal switch

Part Number

Type

1. Note: Output of external power stage 2. Note: PWM = Pulse-Width Modulation; PFM = Pulse-Frequency Modulation

1. Note: Output of external power stage

2. Note: PWM = Pulse-Width Modulation; PFM = Pulse-Frequency Modulation

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Vout (V)

Iout (A)

Operating Frequency (kHz)

Ta (°C) * Tj (°C)

Efficiency

Output Voltage Accuracy

Package (mm x mm)

0.5 to 5.0

-¹

≤1000

-40 to 85

n/a

QFN24 (4x4)

0.5 to 5.0¹

-¹

≤1000

-40 to 125

n/a

QFN24 (4x4)

0.5 to 5.0¹

-¹

≤1000

-40 to 125

n/a

QFN24 (4x4)

0.35 to 3.6¹

25¹

500

-40 to 125

n/a

QFN24 (4x4)

0.62 to 1.20¹

25¹

500

-40 to 125

n/a

QFN24 (4x4)

1.25 to 3.40¹

25¹

500

-40 to 125

n/a

QFN24 (4x4)

0.35 to 3.6¹

35¹

500

-40 to 125

n/a

QFN24 (4x4)

0.62 to 1.20¹

35¹

500

-40 to 125

n/a

QFN24 (4x4)

1.25 to 3.40¹

35¹

500

-40 to 125

n/a

QFN24 (4x4)

0.5 to 5.0¹

-¹

≤1000

-40 to 105

n/a

QFN28 (4x4)

0.5 to 5.0¹

-¹

≤1000

-40 to 105

n/a

QFN28 (4x4)

0.5 to 5.0

≤1000

-40 to 125

93%

n/a

PQFN40 (6x6)

0.5 to 5.0

≤1000

-40 to 125

93%

n/a

PQFN40 (6x6)

0.5 to 5.0

≤1000

0 to 150*

93%

n/a

PQFN40 (6x6)

0.5 to 5.0

≤1000

-40 to 125

93%

n/a

PQFN40 (6x6)

0.9 to 5.5

1000

-40 to 125*

95%

QFN16 (3x3)

0.9 to 5.5

1000

-40 to 125*

95%

QFN16 (3x3)

0.9 to 5.5

1000

-40 to 125*

95%

QFN16 (3x3)

0.8 to 5.5

600

-40 to 125*

95%

QFN28 (5x6)

0.8 to 5.5

600

-40 to 125*

95%

QFN28 (5x6)

0.8 to 5.5

600

-40 to 125*

95%

QFN28 (5x6)

0.8 to 5.5

600

-40 to 125*

95%

QFN28 (5x6)

0.8 to 5.5

600

-40 to 125*

95%

QFN28 (5x6)

0.8 to 5.5

600

-40 to 125*

95%

QFN28 (5x6)

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ZSPM1000 ZSPM1000

True Digital PWM Controller (Single-Phase, Single-R True Digital PWM Controller (Single-Phase, Single-Rail) True TrueDigital DigitalPWM PWMController Controller(Single-Phase, (Single-Phase,Single-Rail) Single-Rail)

ZSPM1000

True Digital PWM Controller (Single-Phase, Single-Rail)

Brief Description Brief BriefDescription Description

The ZSPM1000 is a configurable true-digital singleThe The ZSPM1000 ZSPM1000 isis aa configurable configurable true-digital true-digital singlesinglephase PWM controller for high-current, non-isolated phase phasesupplies. PWM PWM controller controller for for high-current, high-current, non-isolated non-isolated DC/DC It operates as a synchronous stepDC/DC DC/DC supplies. supplies. operates operatesas asaasingle-phase synchronous synchronousconstepstepdown converter in aItItsingle-rail and down downconverter converterininaasingle-rail single-railand andsingle-phase single-phaseconconfiguration. figuration. figuration. The ZSPM1000 integrates a digital control loop, optiThe TheZSPM1000 ZSPM1000 integrates integrates digital digital control control loop, optimized for maximum flexibilityaaand stability, asloop, welloptias mized mized for for maximum maximum flexibility flexibility and andstability, stability, aswell wellas as load step and steady-state performance. In as addition, load stepof and and steady-state steady-state performance. InInaddition, addition, aload rich step set protection and performance. monitoring functions is aa rich rich set set ofof protection protection and and monitoring monitoring functions functions provided. On-chip, non-volatile memory (NVM) andisis 2 * provided. provided. On-chip, On-chip, non-volatile non-volatile memory memory (NVM) (NVM) and and an I C™ interface facilitate configuration. 22 ** ™ interface interfacefacilitate facilitateconfiguration. configuration. an anI ICC™ The PC-based ZMDI’s Pink Power Designer™ proThe TheaPC-based PC-based ZMDI’s ZMDI’s Pink Power Power Designer™ Designer™ proprovides user-friendly and Pink easy-to-use interface to the vides videsafor auser-friendly user-friendly and andeasy-to-use easy-to-use interface interface the the device communication and configuration. It toto can device device for communication communication and and configuration. configuration. ItIt can can guide thefor user through the design of the digital comguide guidethe the user user through through the thedesign design ofofthe thedigital digital comcompensator and offers intuitive configuration methods pensator pensator and and offers offers intuitive intuitive configuration configuration methods methods for additional features, such as protection and for for additional additional features, features, such such as as protection protection and and sequencing. sequencing. sequencing.

Features Features Features

Programmable digital control loop



Programmable Programmable digitalcontrol control loop loop   Advanced digital digital control techniques

 Advanced Advanced digital digital control controltechniques techniques Tru-sample Technology™

Tru-sample Tru-sample Technology™ Technology™   State-Law Control™ (SLC)   State-Law State-Law Control™ Control™ (SLC)  Sub-cycle Response™(SLC) (SCR)

 Sub-cycle Sub-cycle Response™ Response™ (SCR) Improved transient response(SCR) and noise immunity



Improved Improvedfeatures transient transientresponse responseand andnoise noiseimmunity immunity   Protection  Protection Protection features features Over-current protection

Over-current Over-currentprotection protection protection(VIN, VOUT)   Over-voltage   Over-voltage Over-voltage protection protection(VIN, (VIN,VOUT) VOUT)  Under-voltage protection (VIN, VOUT) Under-voltage Under-voltage protection protection(VIN, (VIN,VOUT) VOUT)   Overloaded startup

Overloaded Overloaded startup startup   Restart and delay  Restart Restart and anddelay delay  Support for SMOD and ZCD drivers   Support Support for for SMOD SMOD and ZCD ZCDdrivers drivers  Fuse-based NVM forand improved reliability

Fuse-based Fuse-based NVM NVM for forimproved improved reliability reliability   Operation from a single 5V or 3.3V supply   Operation Operation from from a a single single 5V 5V or or 3.3V 3.3V supply  Optional PMBus™ address selectionsupply without

 external Optional Optional PMBus™ PMBus™address addressselection selectionwithout without resistors

Brief Description Benefits The ZSPM1000 is a configurable true-digital singleBenefits Benefits

phase Fast PWM configurability flexibility controllerand fordesign high-current, non-isolated Fast Fastconfigurability configurability and design designflexibility flexibility   Simplified design andand integration

DC/DC supplies. It operates as a synchronous step Reduced Simplified Simplified design design and and integration integration converter in a single-rail and single-phase condown component count through system level  integration Reduced Reducedcomponent componentcount countthrough throughsystem systemlevel level figuration. integration integration The Simplified monitoring for asystem ZSPM1000 integrates digital power controland loop, opti  Simplified Simplified monitoring monitoring for for system system power poweras and and thermal management mized for maximum flexibility and stability, well as thermal thermal management management step energy and steady-state performance. In loading addition, load Higher efficiency across all output Higher Higher energy efficiency efficiency across all alloutput output loading loading a rich set energy of protection andacross monitoring functions is conditions conditions conditions provided. On-chip, non-volatile memory (NVM) and 2 * an I C™ interface facilitate configuration.

Available Support The PC-based ZMDI’s Pink Power Designer™ proAvailable Available Support Support vides Evaluation Kit a user-friendly and easy-to-use interface to the   Evaluation Evaluation Kit KitPower Designer™ device PC-based Pink for communication and configuration. It can

 PC-based PC-based Pink Power Power Designer™ guide the userPink through theDesigner™ design of the digital compensator and offers intuitive configuration methods Physical Characteristics for additional features, such as protection and Physical PhysicalCharacteristics Characteristics sequencing. Operation temperature: -40°C to +125°C** Operationtemperature: temperature:-40°C -40°Ctoto+125°C** +125°C**   VOperation OUT max: 5V   V V max: max: 5V 5V OUT OUT Features Lead free (RoHS compliant) 24-pin QFN package  (4Lead Lead (RoHS (RoHScompliant) compliant)24-pin 24-pinQFN QFNpackage package mm free xfree 4 mm)  Programmable (4 (4mm mmxx44mm) mm)digital control loop  Advanced digital control techniques  Tru-sample Technology™  State-Law Control™ (SLC)  Sub-cycle Response™ (SCR) ZSPM1000 Typical Application Diagram  Improved transient response and noise immunity ZSPM1000 ZSPM1000Typical TypicalApplication ApplicationDiagram Diagram  Protection features  Over-current protection  Over-voltage protection (VIN, VOUT)  Under-voltage protection (VIN, VOUT)  Overloaded startup  Restart and delay  Support for SMOD and ZCD drivers  Fuse-based NVM for improved reliability  Operation from a single 5V or 3.3V supply  Optional PMBus™ address selection without external resistors



external externalresistors resistors

* *

I C™ is a registered trademark of NXP. * 22 ** *Subject toisaproduct type.trademark I IC™ C™is aregistered registered trademarkofofNXP. NXP. ****Subject Subjecttotoproduct producttype. type.

I C™ is a registered trademark of NXP. ** Subject to product type.

Fo For more information, contact ZMDI via SPM@zmdi.com. For For more moreinformation, information,contact contactZMDI ZMDIvia viaSPM@zmdi.com. SPM@zmdi.com. © 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.41— April 24, 2013. All rights reserved. T

or used without the prior written consent of the copyright owner.translated, The information furnished in t © 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.41— April 24, 2013. All rights reserved. Thestored, material contained herein may not be reproduced, adapted, merged, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice. ©©2013 2013Zentrum ZentrumMikroelektronik MikroelektronikDresden DresdenAG AG——Rev. Rev.1.41— 1.41—April April24, 24,2013. 2013.All Allrights rightsreserved. reserved.The Thematerial materialcontained containedherein hereinmay maynot notbe bereproduced, reproduced,adapted, adapted,merged, merged,translated, translated, stored, stored,ororused usedwithout withoutthe theprior priorwritten writtenconsent consentofofthe thecopyright copyrightowner. owner.The Theinformation informationfurnished furnishedininthis thispublication publicationisissubject subjecttotochanges changeswithout withoutnotice. notice.

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ZSPM1000

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1000 Block Diagram

Current Sensing ISNSP

Current Limiting

Average Current Sensing

ISNSN

Digital Control Loop VFBP

VFB

FLASH ADC

VFBN

Adaptive Digital Controller

PWM

LSE

DAC OC Detection

Sequencer

OV Detection DAC

Typical Applications  Telecom Switches

Bias Current Source

 Servers and Storage  Base Stations  Network Routers

Configurable Error Handler

OT Detection Vin OV/UV Detection

Int. Temp Sense

Vout UV Detection

TEMP ADDR0

 Industrial Applications

HKADC

CPU Core

VIN

1.8V Reg Analog

AVDD18

1.8V Reg Digital

VDD18

3.3V Reg

VDD33

VDD50

SCL

Clock Generation

SMBALERT

SMBus

SDA

CONTROL

GPIO0

ADCVREF

PGOOD

GPIO

VREFP

NVM (OTP)

ADDR1

 Single-Rail/Single-Phase Supplies for Processors, ASICs, FPGAs, DSPs

VREF

Ordering Information (See additional options in section 7 of the ZSPM1000 Data Sheet.) Sales Code

Description

Package

ZSPM1000ZI1R 1

ZSPM1000 Lead-free QFN24 — Temperature range: -40°C to +85°C

Reel

ZSPM1000ZA1R 1

ZSPM1000 Lead-free QFN24 — Temperature range: -40°C to +125°C

Reel

ZSPM8000-KIT

Evaluation Kit for ZSPM1000 with PMBus™ Communication Interface and Pink Power Designer™ GUI

Kit

Sales and Further Information

www.zmdi.com

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

USA Phone +855.275.9634

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.41— April 24, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

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ZSPM1005

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1005

True Digital PWM Controller (Single-Phase, Single-Rail)

Brief Description

Benefits

The ZSPM1005 is a configurable true-digital singlephase PWM controller for high-current, non-isolated DC/DC supplies. It operates as a synchronous stepdown converter in a single-rail and single-phase configuration.



The ZSPM1005 integrates a digital control loop, optimized for maximum flexibility and stability as well as load step and steady-state performance. In addition, a rich set of protection and monitoring functions is provided. To facilitate user configuration of the part, a set of configuration options can be pre-programmed in the ZSPM1005 that can be selected by setting the values of two external resistors. ZMDI’s Pink Power Designer™; a PC-based, userfriendly interface to the ZSPM1005, can be used to expedite the design of the digital compensator. It offers intuitive configuration methods for additional features, such as protection and sequencing. Once the part is programmed, the resistor options can be used to select the required configuration without a digital bus.

Features  

 

   

Programmable digital control loop Advanced, digital control techniques  Tru-sample Technology™  State-Law Control™ (SLC)  Sub-cycle Response™ (SCR) Improved transient response and noise immunity Protection features  Over-current protection  Over-voltage protection (VIN, VOUT)  Under-voltage protection (VIN, VOUT)  Overloaded startup  Restart and delay Support for SMOD and ZCD drivers Fuse-based one-time programmable (OTP) nonvolatile memory for improved reliability Operation from a single 5V or 3.3V supply 2-pin configuration for compensation, output voltage, and more

   



Fast configuration and design flexibility improves time-to-market Simplified design and integration FPGA designer-friendly solution Highest power density with smallest footprint Pin-to-pin compatible with the ZSPM1000 PWM controller enabling point-of-load power module platform designs with or without digital communication Higher energy efficiency across all output loading conditions

Available Support  

Evaluation Kit PC-based Pink Power Designer™

Physical Characteristics   

Operation temperature: -40°C to +125°C VOUT max: 5V Lead free (RoHS compliant) 24-pin QFN package (4mm x 4mm)

ZSPM1005 Typical Application Diagram

For more information, contact ZMDI via SPM@zmdi.com. © 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.00 — June 21, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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ZSPM1005

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1005 Block Diagram Current Sensing ISNSP

Current Limiting

Average Current Sensing

ISNSN

Digital Control Loop VFBP

VFB

FLASH ADC

VFBN

Adaptive Digital Controller

PWM

PWM LSE

DAC OC Detection

Sequencer

OV Detection DAC

Bias Current Source

Configurable Error Handler

OT Detection Vin OV/UV Detection

Int. Temp Sense

Vout UV Detection

Optimal Applications TEMP CONFIG0

HKADC

VIN

1.8V Reg Analog

AVDD18

1.8V Reg Digital

VDD18

3.3V Reg

VDD33

GPIO3

VDD50

Clock Generation

GPIO2

GPIO1

CONTROL

GPIO

GPIO0

VREFP

NVM (OTP)

CPU Core

CONFIG1

ADCVREF

 Point-of-load power modules for single-phase applications including telecommunication, base stations, servers and storage

PGOOD

 FPGA designs

VREF

Ordering Information Product Sales Code ZSPM1005ZA1R 0

Description

Package

ZSPM1005 Lead-free QFN24 — Temperature range: -40°C to +125°C

Sales and Further Information

www.zmdi.com

Reel

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — June 21, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

Products available at

On-Line Store

ZSPM1025A

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1025A

True Digital PWM Controller (Single-Phase, Single-Rail)

Brief Description

Benefits

The ZSPM1025A is a flexible true-digital singlephase PWM controller optimally configured for use with the Murata Power Solutions 25A Power Block OKLP-X/25-W12-C in smart digital power solutions.



The ZSPM1025A integrates a digital control loop, optimized for maximum flexibility and stability, as well as load step and steady-state performance. In addition, a rich set of protection and monitoring functions is provided. On-chip, non-volatile memory 2 * (NVM) and an I C™ interface facilitate configuration. ZMDI’s PC-based Pink Power Designer™ graphic user interface (GUI) provides a user-friendly and easy-to-use interface to the ZSPM1025A for communication, monitoring, and configuration of the protection and sequencing features. A downloadable reference solution is available, including a graphical user interface, layout guidelines, bill of materials, and step-by-step instructions.

    



Available Support 

Features  

 

  

Programmable digital control loop Advanced digital control techniques  Tru-sample Technology™  State-Law Control™ (SLC)  Sub-cycle Response™ (SCR) Improved transient response and noise immunity Protection features  Over-current protection  Over-voltage protection (VIN, VOUT)  Under-voltage protection (VIN, VOUT)  Overloaded startup  Continuous retry (“hiccup”) mode for fault conditions Fuse-based NVM for improved reliability Operation from a single 5V or 3.3V supply Optional PMBus™ address selection without external resistors

Fast time-to-market using off-the-shelf, optimally configured controller and power block Fast configurability and design flexibility Simplified design flow and high reliability via proven system design solution Reduced component count through system level integration Simplified monitoring for system power and thermal management Pin-to-pin compatible with the ZSPM1025C and ZSPM1025D PWM controllers, enabling point-ofload platform designs with or without digital communication Higher energy efficiency across all output loading conditions

 

Evaluation Kit Reference Solution PC-based Pink Power Designer™ GUI

Physical Characteristics   

Operation temperature: -40°C to +125°C VOUT: 0.35V to 3.6V Lead free (RoHS compliant) 24-pin QFN package (4 mm x 4 mm)

ZSPM1025A Typical Application Diagram ZSPM1025 QFN 4x4 mm

Murata OKLP-X/25-W12-C

Current Sensing Digital Control Loop

Power Management (Sequencing, Protection,…)

Driver

Housekeeping and Communication 2

* I C™ is a registered trademark of NXP.

For more information, contact ZMDI via SPM@zmdi.com.

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20— February 5, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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100

ZSPM1025A

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1025A Block Diagram

Current Sensing ISNSP

Current Limiting

Average Current Sensing

ISNSN

Digital Control Loop VFBP

VFB

FLASH ADC

VFBN

Adaptive Digital Controller

PWM

LSE

DAC OC Detection

Sequencer

OV Detection DAC

Typical Applications Bias Current Source

 Telecom Switches  Servers and Storage  Base Stations

Configurable Error Handler

OT Detection Vin OV/UV Detection

Int. Temp Sense

Vout UV Detection

TEMP

 Network Routers

ADDR0

HKADC

CPU Core

VIN

1.8V Reg Analog

AVDD18

1.8V Reg Digital

VDD18

Clock Generation

3.3V Reg

VDD33

VDD50

SCL

SMBus

SDA

CONTROL

GPIO0

ADCVREF

PGOOD

GPIO

SMBALERT

 Single-Rail/Single-Phase Supplies for Processors, ASICs, FPGAs, DSPs

VREFP

NVM (OTP)

ADDR1

 Industrial Applications

VREF

Ordering Information Sales Code

Description

Package

ZSPM1025AA1W 1 ZSPM1025A Lead-free QFN24 — Temperature range: -40°C to +125°C ZSPM8025-KIT

Reel

Evaluation Kit for ZSPM1025A with PMBus™ Communication Interface — Pink Power Designer™ GUI for kit can be downloaded from the ZMDI web site at www.zmdi.com/zspm1025a

Sales and Further Information

www.zmdi.com

Kit

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

USA Phone +855.275.9634

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Zentrum Mikroelektronik Dresden AG, Korea Office U-space 1 Building th 11 Floor, Unit JA-1102 670 Sampyeong-dong Bundang-gu, Seongnam-si Gyeonggi-do, 463-400 Korea Phone +82.31.950.7679 Fax +82.504.841.3026

Global Corporate Catalog

101

Products available at

On-Line Store

ZSPM1025C / ZSPM1025D

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1025C / ZSPM1025D

True Digital PWM Controller (Single-Phase, Single-Rail)

Brief Description

Benefits

The ZSPM1025C and ZSPM1025D are true-digital single-phase PWM controllers optimally configured for use with the Murata Power Solutions 25A Power Block OKLP-X/25 in smart digital power solutions.



The ZSPM1025C and ZSPM1025D integrate a digital control loop, optimized for maximum flexibility and stability as well as load step and steady-state performance. In addition, a rich set of protection functions is provided.



To simplify the system design, a set of optimized configuration options have been pre-programmed in the devices. These configurations can be selected by setting the values of two external resistors. Reference solutions are available complete with layout recommendations, example circuit board layouts, complete bill of materials and more.

   



Available Support   

Features  

 

  

Application-optimized digital control loop Advanced, digital control techniques  Tru-sample Technology™  State-Law Control™ (SLC)  Sub-cycle Response™ (SCR) Improved transient response and noise immunity Protection features  Over-current protection  Over-voltage protection (VIN, VOUT)  Under-voltage protection (VIN, VOUT)  Overloaded startup  Continuous retry (“hiccup”) mode for fault conditions Pre-programmed for optimized use with Murata Power Solutions 25A Power Block OKLP-X/25 2-pin configuration for loop compensation, output voltage, and slew rate. Operation from a single 5V or 3.3V supply

Fast time-to-market using off-the-shelf, optimally configured controller and power block Fast configuration and design flexibility Simplified design and integration FPGA designer-friendly solution Highest power density with smallest footprint Pin-to-pin compatible with the ZSPM1025A PWM controller enabling point-of-load platform designs with or without digital communication Higher energy efficiency across all output loading conditions

Evaluation Kit Reference Solutions PC-based Pink Power Designer™ Graphic User Interface (GUI)

Physical Characteristics    

Operation temperature: -40°C to +125°C ZSPM1025C VOUT: 0.62V to 1.20V ZSPM1025D VOUT: 1.25V to 3.40V Lead free (RoHS compliant) 24-pin QFN package (4mm x 4mm)

ZSPM1025C/D Typical Application Diagram ZSPM1025 QFN 4x4 mm

Murata OKLP-X/25-W12-C

Current Sensing Digital Control Loop

Power Management (Sequencing, Protection,…)

Driver

Housekeeping and Communication

For more information, contact ZMDI via SPM@zmdi.com. © 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.00 — October 28, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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102

ZSPM1025C / ZSPM1025D

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1025C/D Block Diagram

Current Sensing ISNSP

Average Current Sensing

ISNSN

Digital Control Loop VFB

VFBP

FLASH ADC

VFBN

Adaptive Digital Controller

PWM

LSE

DAC

Typical Applications

OC Detection

Sequencer

 Telecom Switches

OV Detection

 Servers and Storage

DAC

 Network Routers

Bias Current Source

 Industrial Applications

Configurable Error Handler

OT Detection

 Base Stations

Vin OV/UV Detection

Int. Temp Sense

Vout UV Detection

 FPGA Designs TEMP

 Point-of-load power solutions

CONFIG0

HKADC

CPU Core

VIN

GPIO3

Clock Generation

GPIO2

GPIO1

CONTROL

GPIO0

PGOOD

GPIO

ADCVREF

1.8V Reg Analog

AVDD18

1.8V Reg Digital

VDD18

3.3V Reg

VDD33

VDD50

 Single-Rail/Single-Phase supplies for Processors, ASICs, DSP’s, etc.

VREFP

NVM (OTP)

CONFIG1

 Telecommunications

VREF

Ordering Information Sales Code

Description

Package

ZSPM1025CA1W 0

ZSPM1025C Lead-free QFN24 — Temperature range: -40°C to +125°C

7” Reel

ZSPM1025DA1W 0

ZSPM1025D Lead-free QFN24 — Temperature range: -40°C to +125°C

7” Reel

ZSPM8725-KIT

Evaluation Kit for ZSPM1025C with PMBus™ Communication Interface and Pink Power Designer™ GUI

Kit

ZSPM8825-KIT

Evaluation Kit for ZSPM1025D with PMBus™ Communication Interface and Pink Power Designer™ GUI

Kit

Sales and Further Information

www.zmdi.com

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — October 28, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

103

Products available at

On-Line Store

ZSPM1035A

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1035A

True Digital PWM Controller (Single-Phase, Single-Rail)

Brief Description

Benefits

The ZSPM1035A is a flexible true-digital singlephase PWM controller optimally configured for use with the Murata Power Solutions 35A Power Block OKLP-X/35-W12-C in smart digital power solutions.



The ZSPM1035A integrates a digital control loop, optimized for maximum flexibility and stability, as well as load step and steady-state performance. In addition, a rich set of protection and monitoring functions is provided. On-chip, non-volatile memory 2 * (NVM) and an I C™ interface facilitate configuration. ZMDI’s PC-based Pink Power Designer™ graphic user interface (GUI) provides a user-friendly and easy-to-use interface to the ZSPM1035A for communication, monitoring, and configuration of the protection and sequencing features.

    



Fast time-to-market using off-the-shelf, optimally configured controller and power block Fast configurability and design flexibility Simplified design flow and high reliability via proven system design solution Reduced component count through system level integration Simplified monitoring for system power and thermal management Pin-to-pin compatible with the ZSPM1035C and ZSPM1035D PWM controllers enabling point-ofload platform designs with or without digital communication Higher energy efficiency across all output loading conditions

A downloadable reference solution is available, including a graphical user interface, layout guidelines, bill of materials, and step-by-step instructions.

Available Support

Features



 

  

 

Evaluation Kit Reference Solution PC-based Pink Power Designer™ GUI

Physical Characteristics   

Operation temperature: -40°C to +125°C VOUT: 0.35V to 3.6V Lead free (RoHS compliant) 24-pin QFN package (4mm x 4mm)

ZSPM1035A Typical Application Diagram ZSPM1035 QFN 4x4 mm

Murata OKLP-X/35-W12-C

Current Sensing

VIN 12V typical

Digital Control Loop

Power Management (Sequencing, Protection,…)

Driver

VOUT

Housekeeping and Communication 2

* I C™ is a registered trademark of NXP.

For more information, contact ZMDI via SPM@zmdi.com.

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.10— February 5, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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104

ZSPM1035A

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1035A Block Diagram

Current Sensing ISNSP

Current Limiting

Average Current Sensing

ISNSN

Digital Control Loop VFBP

VFB

FLASH ADC

VFBN

Adaptive Digital Controller

PWM

LSE

DAC OC Detection

Sequencer

OV Detection DAC

Typical Applications Bias Current Source

 Telecom Switches  Servers and Storage  Base Stations

Configurable Error Handler

OT Detection Vin OV/UV Detection

Int. Temp Sense

Vout UV Detection

TEMP

 Network Routers

ADDR0

HKADC

CPU Core

VIN

1.8V Reg Analog

AVDD18

1.8V Reg Digital

VDD18

Clock Generation

3.3V Reg

VDD33

VDD50

SCL

SMBus

SDA

CONTROL

GPIO0

ADCVREF

PGOOD

GPIO

SMBALERT

 Single-Rail/Single-Phase Supplies for Processors, ASICs, FPGAs, DSPs

VREFP

NVM (OTP)

ADDR1

 Industrial Applications

VREF

Ordering Information Sales Code

Description

Package

ZSPM1035AA1W 1 ZSPM1035A Lead-free QFN24 — Temperature range: -40°C to +125°C ZSPM8035-KIT

Reel

Evaluation Kit for ZSPM1035A with PMBus™ Communication Interface — Pink Power Designer™ GUI for kit can be downloaded from the ZMDI web site at www.zmdi.com/zspm1035a

Sales and Further Information

www.zmdi.com

Kit

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

USA Phone +855.275.9634

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.10— February 5, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

105

Products available at

On-Line Store

ZSPM1035C / ZSPM1035D

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1035C / ZSPM1035D

True Digital PWM Controller (Single-Phase, Single-Rail)

Brief Description

Benefits

The ZSPM1035C and ZSPM1035D are true-digital single-phase PWM controllers optimally configured for use with the Murata Power Solutions 35A Power Block OKLP-X/35-W12-C in smart digital power solutions.



The ZSPM1035C and ZSPM1035D integrate a digital control loop, optimized for maximum flexibility and stability as well as load step and steady-state performance. In addition, a rich set of protection functions is provided. To simplify the system design, a set of optimized configuration options have been pre-programmed in the devices. These configurations can be selected by setting the values of two external resistors. Reference solutions are available complete with layout recommendations, example circuit board layouts, complete bill of materials and more.

    



Available Support   

Features  

 



 

Application-optimized digital control loop Advanced, digital control techniques  Tru-sample Technology™  State-Law Control™ (SLC)  Sub-cycle Response™ (SCR) Improved transient response and noise immunity Protection features  Over-current protection  Over-voltage protection (VIN, VOUT)  Under-voltage protection (VIN, VOUT)  Overloaded startup  Continuous retry (“hiccup”) mode for fault conditions Pre-programmed for optimized use with Murata Power Solutions 35A Power Block OKLP-X/35W12-C 2-pin configuration for loop compensation, output voltage, and slew rate. Operation from a single 5V or 3.3V supply

Fast time-to-market using off-the-shelf, optimally configured controller and power block Fast configuration and design flexibility Simplified design and integration FPGA designer-friendly solution Highest power density with smallest footprint Pin-to-pin compatible with the ZSPM1035A PWM controller enabling point-of-load platform designs with or without digital communication Higher energy efficiency across all output loading conditions

Evaluation Kit Reference Solutions PC-based Pink Power Designer™ Graphic User Interface (GUI)

Physical Characteristics    

Operation temperature: -40°C to +125°C ZSPM1035C VOUT: 0.62V to 1.20V ZSPM1035D VOUT: 1.25V to 3.40V Lead free (RoHS compliant) 24-pin QFN package (4mm x 4mm)

ZSPM1035C/D Typical Application Diagram ZSPM1035 QFN 4x4 mm

Murata OKLP-X/35-W12-C

Current Sensing

VIN 12V typical

Digital Control Loop

Power Management (Sequencing, Protection,…)

Driver

VOUT

Housekeeping and Communication

For more information, contact ZMDI via SPM@zmdi.com. © 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.00 — December 4, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

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106

ZSPM1035C / ZSPM1035D

True Digital PWM Controller (Single-Phase, Single-Rail)

ZSPM1025C/D Block Diagram

Current Sensing ISNSP

Average Current Sensing

ISNSN

Digital Control Loop VFB

VFBP

FLASH ADC

VFBN

Adaptive Digital Controller

PWM

LSE

DAC

Typical Applications

OC Detection

Sequencer

 Telecom Switches

OV Detection

 Servers and Storage

DAC

 Network Routers

Bias Current Source

 Industrial Applications

Configurable Error Handler

OT Detection

 Base Stations

Vin OV/UV Detection

Int. Temp Sense

Vout UV Detection

 FPGA Designs TEMP

 Point-of-Load Power Solutions

CONFIG0

HKADC

CPU Core

VIN

GPIO3

Clock Generation

GPIO2

GPIO1

CONTROL

GPIO0

PGOOD

GPIO

ADCVREF

1.8V Reg Analog

AVDD18

1.8V Reg Digital

VDD18

3.3V Reg

VDD33

VDD50

 Single-Rail/Single-Phase Supplies for Processors, ASICs, DSPs, etc.

VREFP

NVM (OTP)

CONFIG1

 Telecommunications

VREF

Ordering Information Sales Code

Description

Package

ZSPM1035CA1W 0 ZSPM1035C Lead-free QFN24 — Temperature range: -40°C to +125°C

7” Reel

ZSPM1035DA1W 0 ZSPM1035D Lead-free QFN24 — Temperature range: -40°C to +125°C

7” Reel

ZSPM8735-KIT

Evaluation Kit for ZSPM1035C with PMBus™ Communication Interface *

Kit

ZSPM8835-KIT

Evaluation Kit for ZSPM1035D with PMBus™ Communication Interface *

Kit

* Pink Power Designer™ GUI for kit can be downloaded from the ZMDI web site at www.zmdi.com/zspm1035c or www.zmdi.com/zspm1035d.

Sales and Further Information

www.zmdi.com

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — December 4, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

107

Products available at

On-Line Store

ZSPM4011

High Efficiency 1A Synchronous Buck Converter

ZSPM4011

High Efficiency 1A Synchronous Buck Converter

Brief Description

Benefits

The ZSPM4011 is a DC/DC synchronous switching regulator with fully integrated power switches, internal compensation, and full fault protection. The 1MHz switching frequency enables using small filter components, resulting in reduced board space and reduced bill-of-materials costs.

  

Available Support 

Physical Characteristics

The ZSPM4011 integrates a wide range of protection circuitry, including input supply undervoltage lockout, output voltage soft start, current limit, VOUT over-voltage, and thermal shutdown.



The ZSPM4011 includes supervisory reporting through the PG (Power Good) open drain output to interface other components in the system.



Features



 

     

ZSPM4012/ZSPM4013: 2A/3A synchronous buck converters, available with adjustable output from 0.9 to 5V or fixed output voltages at 1.5V, 1.8V, 2.5V, 3.3V, 5.0V(16-pin 3x3 QFN) ZSPM1000: >5A single-phase, single-rail, true digital PWM controller (24-lead 4x4mm QFN)

ZSPM4011 Application Circuits Adjustable Output VCC

BST VCC VSW

ZSPM4011

CBYPASS

PGND



Related ZMDI Products

CBST VOUT

LOUT

RTOP

COUT

RBOT FB VOUT 10 kΩ (optional)

Fixed Output VCC

BST

VCC

CBYPASS

PGND



GND



Output voltage options depending on order code:  Fixed output voltages: 1.5V, 1.8V, 2.5V, 3.3V, or 5V with +/- 2% output tolerance  Adjustable output voltage range: 0.9V to 5V with +/- 1.5% reference Wide input voltage range: 6V to 24V 1MHz +/- 10% fixed switching frequency 1A continuous output current High efficiency – up to 95% Current mode PWM control with pulsefrequency modulation (PFM) mode for improved light load efficiency Voltage supervisor for VOUT reported at the PG pin Input supply under voltage lockout Soft start for controlled startup with no overshoot Full protection for over-current, overtemperature, and VOUT over-voltage Less than 10µA in Disabled Mode Low external component count

Junction operating temperature -40°C to 125°C Packaged in a 16pin QFN (3x3mm)

GND



Evaluation Kit Documentation



ZSPM4011

The ZSPM4011 utilizes current mode feedback in normal regulation pulse-width modulation (PWM) mode. When the regulator is disabled (EN pin is low), the ZSPM4011 draws less than 10µA quiescent current.

Increased battery life Minimal external component count (3 capacitors, 1 inductor) Inherent fault protection and reporting

VSW

CBST VOUT

LOUT COUT

FB VOUT

10kΩ (optional) PG

For more information, contact ZMDI via analog@zmdi.com.

Visit .com for more detailed information

© 2012 Zentrum Mikroelektronik Dresden AG — Rev.1.03 — September 21, 2012. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

108

ZSPM4011

High Efficiency 1A Synchronous Buck Converter

ZSPM4011 Block Diagram

VCC 4.2V

VCC VCC

Under-Voltage Protection

MONITOR & CONTROL

Over-Voltage Protection

Oscillator

Typical Applications    



Error Amp Compensation Network

BST

Over Current Protection

VCC



CBST

Gate Drive Control

Wireless access points, cable modems Set-top boxes DVD, LCD, LED supplies Portable products, including GPS, smart phones, tablet PCs Printers

Bootstrap Voltage

Thermal Protection

Ramp Generator

Vref & Soft Start

VCC

Comparator

Gate Drive

VSW

VOUT

LOUT

COUT

Gate Drive

PGND

Vref

RTOP

PFM Mode Comparator

RBOT

GND

Ordering Information Ordering Code

Description

Package

ZSPM4011AA1W00

ZSPM4011, 1A Synchronous Buck Converter: adjustable output, 0.9V to 5V, 16-pin 3x3mm QFN ZSPM4011, 1A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN ZSPM4011, 1A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN ZSPM4011, 1A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN ZSPM4011, 1A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN ZSPM4011, 1A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN ZSPM4011KIT, Evaluation Kit for 1A Synchronous Buck Converter

7” reel with 1000 ICs

ZSPM4011AA1W15 ZSPM4011AA1W18 ZSPM4011AA1W25 ZSPM4011AA1W33 ZSPM4011AA1W50 ZSPM4011KIT

Sales and Further Information

www.zmdi.com

7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs Kit

analog@zmdi.com

Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +49.351.8822.7.776 Fax +49.351.8822.8.7776

Phone 855-ASK-ZMDI (855-275-9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700

© 2012 Zentrum Mikroelektronik Dresden AG — Rev.1.03— September 21, 2012. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

109

Products available at

On-Line Store

ZSPM4012

High Efficiency 2A Synchronous Buck Converter

ZSPM4012

High Efficiency 2A Synchronous Buck Converter

Brief Description

Benefits

The ZSPM4012 is a DC/DC synchronous switching regulator with fully integrated power switches, internal compensation, and full fault protection. The 1MHz switching frequency enables using small filter components, resulting in reduced board space and reduced bill-of-materials costs.

  

Available Support 

Physical Characteristics

The ZSPM4012 integrates a wide range of protection circuitry, including input supply undervoltage lockout, output voltage soft start, current limit, VOUT over-voltage, and thermal shutdown.



The ZSPM4012 includes supervisory reporting through the PG (Power Good) open drain output to interface other components in the system.



Features



 

     

ZSPM4011/ZSPM4013: 1A/3A synchronous buck converters, available with adjustable output from 0.9 to 5V or fixed output voltages at 1.5V, 1.8V, 2.5V, 3.3V, 5.0V (16-pin 3x3 QFN) ZSPM1000: >5A single-phase, single-rail, true digital PWM controller (24-pin 4x4mm QFN)

ZSPM4012 Application Circuits Adjustable Output VCC

BST VCC VSW

ZSPM4012

CBYPASS

PGND



Related ZMDI Products

CBST VOUT

LOUT

RTOP

COUT

RBOT FB VOUT 10 kΩ (optional)

Fixed Output VCC

BST

VCC

CBYPASS

PGND



GND



Output voltage options depending on order code:  Fixed output voltages: 1.5V, 1.8V, 2.5V, 3.3V, or 5V with +/- 2% output tolerance  Adjustable output voltage range: 0.9V to 5V with +/- 1.5% reference Wide input voltage range: 6V to 24V 1MHz +/- 10% fixed switching frequency 2A continuous output current High efficiency – up to 95% Current mode PWM control with pulsefrequency modulation (PFM) mode for improved light load efficiency Voltage supervisor for VOUT reported at the PG pin Input supply under voltage lockout Soft start for controlled startup with no overshoot Full protection for over-current, overtemperature, and VOUT over-voltage Less than 10µA in Disabled Mode Low external component count

Junction operating temperature -40°C to 125°C Packaged in a 16pin QFN (3x3mm)

GND



Evaluation Kit Documentation



ZSPM4012

The ZSPM4012 utilizes current mode feedback in normal regulation pulse-width modulation (PWM) mode. When the regulator is disabled (EN pin is low), the ZSPM4012 draws less than 10µA quiescent current.

Increased battery life Minimal external component count (3 capacitors, 1 inductor) Inherent fault protection and reporting

VSW

CBST VOUT

LOUT COUT

FB VOUT

10kΩ (optional) PG

For more information, contact ZMDI via analog@zmdi.com.

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110

ZSPM4012

High Efficiency 2A Synchronous Buck Converter

ZSPM4012 Block Diagram

VCC 4.2V

VCC VCC

Under-Voltage Protection

MONITOR & CONTROL

Over-Voltage Protection

Oscillator

Typical Applications    



Error Amp Compensation Network

BST

Over Current Protection

VCC



CBST

Gate Drive Control

Wireless access points, cable modems Set-top boxes DVD, LCD, LED supplies Portable products, including GPS, smart phones, tablet PCs Printers

Bootstrap Voltage

Thermal Protection

Ramp Generator

Vref & Soft Start

VCC

Comparator

Gate Drive

VSW

VOUT

LOUT

COUT

Gate Drive

PGND

Vref

RTOP

PFM Mode Comparator

RBOT

GND

Ordering Information Ordering Code

Description

Package

ZSPM4012AA1W00

ZSPM4012, 2A Synchronous Buck Converter: adjustable output, 0.9V to 5V, 16-pin 3x3mm QFN ZSPM4012, 2A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN ZSPM4012, 2A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN ZSPM4012, 2A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN ZSPM4012, 2A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN ZSPM4012, 2A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN ZSPM4012KIT, Evaluation Kit for 2A Synchronous Buck Converter

7” reel with 1000 ICs

ZSPM4012AA1W15 ZSPM4012AA1W18 ZSPM4012AA1W25 ZSPM4012AA1W33 ZSPM4012AA1W50 ZSPM4012KIT

Sales and Further Information

www.zmdi.com

7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs Kit

analog@zmdi.com

Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +49.351.8822.7.776 Fax +49.351.8822.8.7776

Phone 855-ASK-ZMDI (855-275-9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700

© 2012 Zentrum Mikroelektronik Dresden AG — Rev.1.03— September 21, 2012 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

111

Products available at

On-Line Store

ZSPM4013 ZSPM4013

High HighEfficiency Efficiency3A 3ASynchronous SynchronousBuck BuckConverter Converter

ZSPM4013

High Efficiency 3A Synchronous Buck Converter

Brief BriefDescription Description

Benefits Benefits

The TheZSPM4013 ZSPM4013isisaaDC/DC DC/DCsynchronous synchronousswitching switching regulator regulator with with fully fully integrated integrated power power switches, switches, internal internal compensation, compensation, and and full full fault fault protection. protection. The The 1MHz 1MHz switching switching frequency frequency enables enables using using small smallfilter filtercomponents, components,resulting resultingininreduced reducedboard board space spaceand andreduced reducedbill-of-materials bill-of-materialscosts. costs.

  Increased Increasedbattery batterylife life

  Fixed Fixedoutput outputvoltages: voltages:1.5V, 1.5V,1.8V, 1.8V,2.5V, 2.5V,

3.3V, 3.3V,oror5V 5Vwith with+/+/-2% 2%output outputtolerance tolerance

  Adjustable Adjustableoutput outputvoltage voltagerange: range:0.9V 0.9Vtoto5V 5V

    

     

with with+/+/-1.5% 1.5%reference reference Wide Wideinput inputvoltage voltagerange: range: 6V 6Vtoto18V 18V 1MHz 1MHz+/+/-10% 10%fixed fixedswitching switchingfrequency frequency 3A 3Acontinuous continuousoutput outputcurrent current High Highefficiency efficiency––up uptoto95% 95% Current Currentmode modePWM PWMcontrol controlwith withpulsepulsefrequency frequencymodulation modulation(PFM) (PFM)mode modefor for improved improvedlight lightload loadefficiency efficiency Voltage Voltagesupervisor supervisorfor forVVOUT reportedatatthe thePG PG OUTreported pin pin Input Inputsupply supplyunder undervoltage voltagelockout lockout Soft Softstart startfor forcontrolled controlledstartup startupwith withno no overshoot overshoot Full Fullprotection protectionfor forover-current, over-current,overoverover-voltage temperature, temperature,and andVVOUT OUTover-voltage Less Lessthan than10µA 10µAininDisabled DisabledMode Mode Low Lowexternal externalcomponent componentcount count

  Documentation Documentation

Physical PhysicalCharacteristics Characteristics   Junction Junctionoperating operatingtemperature temperature-40°C -40°Ctoto125°C 125°C   Packaged Packagedininaa16pin 16pinQFN QFN(3x3mm) (3x3mm)

Related RelatedZMDI ZMDIProducts Products   ZSPM4011/ZSPM4012: ZSPM4011/ZSPM4012:1A/2A 1A/2Asynchronous synchronous

buck buckconverters, converters,available availablewith withadjustable adjustableoutoutput putfrom from0.9 0.9toto5V 5Vororfixed fixedoutput outputvoltages voltagesatat 1.5V, 1.5V,1.8V, 1.8V,2.5V, 2.5V,3.3V, 3.3V,5.0V 5.0V (16-lead (16-lead3x3mm 3x3mmQFN) QFN)   ZSPM1000: ZSPM1000:>5A >5Asingle-phase, single-phase,single-rail, single-rail,true true digital digitalPWM PWMcontroller controller(24-lead (24-lead4x4mm 4x4mmQFN) QFN) ZSPM4013Application ApplicationCircuits Circuits ZSPM4013 Adjustable AdjustableOutput Output VCC VCC

BST BST VCC VCC VSW VSW

CBYPASS CBYPASS

ENEN

ZSPM4013 ZSPM4013

  Output Outputvoltage voltageoptions options(depends (dependson onorder ordercode): code):

  Evaluation EvaluationKit Kit

FBFB

GND GND PGND PGND

Features Features

Available AvailableSupport Support

PGPG

CBST CBST LOUT LOUT

VOUT VOUT RTOP RTOP

COUT COUT

RBOT RBOT

VOUT VOUT 10 10 kΩkΩ (optional) (optional)

PGPG

Fixed FixedOutput Output VCC VCC

BST BST

VCC VCC

CBYPASS CBYPASS

ENEN

ZSPM4013 ZSPM4013

The The ZSPM4013 ZSPM4013 integrates integrates aa wide wide range range ofof protection protection circuitry, circuitry, including including input input supply supplyunderundervoltage voltagelockout, lockout,output outputvoltage voltagesoft softstart, start,current current over-voltage, and and thermal thermal shutdown. shutdown. limit, limit, VVOUT OUT over-voltage, The The ZSPM4013 ZSPM4013 includes includes supervisory supervisory reporting reporting through throughthe thePG PG(Power (PowerGood) Good)open opendrain drainoutput outputtoto interface interfaceother othercomponents componentsininthe thesystem. system.

(3(3capacitors, capacitors,11inductor) inductor)   Inherent Inherentfault faultprotection protectionand andreporting reporting

GND GND PGND PGND

The TheZSPM4013 ZSPM4013utilizes utilizescurrent currentmode modefeedback feedbackinin normal normal regulation regulation pulse-width pulse-width modulation modulation (PWM) (PWM) mode. mode.When Whenthe theregulator regulatorisisdisabled disabled(EN (ENpin pinisis low), low),the theZSPM4013 ZSPM4013draws drawsless lessthan than10µA 10µAquiesquiescent centcurrent. current.

  Minimal Minimalexternal externalcomponent componentcount count

VSW VSW

CBST CBST VOUT VOUT

LOUT LOUT

COUT COUT FBFB VOUT VOUT

10kΩ 10kΩ (optional) (optional) PGPG

PG PG

For Formore moreinformation, information,contact contactZMDI ZMDIvia viaanalog@zmdi.com. analog@zmdi.com.

Visit .com for more detailed information

©© 2012 2012 Zentrum Zentrum Mikroelektronik Mikroelektronik Dresden Dresden AG AG —— Rev. Rev. 1.10 1.10 —— October October 10, 10, 2012. 2012.AllAll rights rights reserved. reserved. The The material materialcontained contained herein herein may may not not bebe reproduced, reproduced, adapted, adapted, merged, merged, translated, translated, stored, stored, oror used used without without the the prior prior written written consent consent ofof the the copyright copyright owner. owner. The The information information furnished furnished inin this this publication publication is is subject subject toto changes changes without without notice. notice.

112

ZSPM4013

High Efficiency 3A Synchronous Buck Converter

ZSPM4013 Block Diagram

VCC 4.2V

VCC VCC

Under-Voltage Protection

MONITOR & CONTROL

Over-Voltage Protection

Oscillator

Typical Applications    



Error Amp Compensation Network

BST

Over Current Protection

VCC



CBST

Gate Drive Control

Wireless access points, cable modems Set-top boxes DVD, LCD, LED supplies Portable products, including GPS, smart phones, tablet PCs Printers

Bootstrap Voltage

Thermal Protection

Ramp Generator

Vref & Soft Start

VCC

Comparator

Gate Drive

VSW

VOUT

LOUT

COUT

Gate Drive

PGND

Vref

RTOP

PFM Mode Comparator

RBOT

GND

Ordering Information Ordering Code

Description

Package

ZSPM4013AA1W00

ZSPM4013, 3A Synchronous Buck Converter: adjustable output, 0.9V to 5V, 16-pin 3x3mm QFN ZSPM4013, 3A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN ZSPM4013, 3A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN ZSPM4013, 3A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN ZSPM4013, 3A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN ZSPM4013, 3A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN ZSPM4013KIT, Evaluation Kit for 3A Synchronous Buck Converter

7” reel with 1000 ICs

ZSPM4013AA1W15 ZSPM4013AA1W18 ZSPM4013AA1W25 ZSPM4013AA1W33 ZSPM4013AA1W50 ZSPM4013KIT

Sales and Further Information

www.zmdi.com

7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs 7” reel with 1000 ICs Kit

analog@zmdi.com

Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korea Office U-space 1 Building 11th Floor, Unit JA-1102 670 Sampyeong-dong Bundang-gu, Seongnam-si Gyeonggi-do, 463-400 Korea

Phone +49.351.8822.7.776 Fax +49.351.8822.8.7776

Phone 855-ASK-ZMDI (855-275-9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.31.950.7679 Fax +82.504.841.3026

© 2012 Zentrum Mikroelektronik Dresden AG — Rev.1.10— October 10, 2012 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

113

Products available at

On-Line Store

ZSPM4023-06 24V/6A Synchronous DC/DC Buck Regulator ZSPM4023-06

24V/6A Synchronous DC/DC Buck Regulator ZSPM4023-06 24V6A Synchronous DC/DC Buck Regulator

Brief Description

Benefits

The ZSPM4023-06 is a constant-frequency, synBrief Description chronous DC/DC buck regulator featuring adaptive Thecontrol ZSPM4023-06 is a constant-frequency, on-time architecture. The ZSPM4023-06synchronous DC/DC buck regulator featuring adaptive operates over a 4.5V to 28V supply range (24V typion-time control architecture. The ZSPM4023-06 cal). It has an internal linear regulator that provides a operates over a 4.5V to 28V supply range (24V typiregulated 5V to power the internal control circuitry. cal). It has an internal linear regulator that provides a The ZSPM4023-06 operates at a constant 600kHz regulated 5V to power the internal control circuitry. (typical) switching frequency in continuousThe ZSPM4023-06 operates at a constant 600kHz conduction mode and can be used to provide up to (typical) switching frequency in continuous6A ofconduction output current. adjust-up to mode The and output can be voltage used to is provide able from 5.5V down to 0.8V. 6A of output current. The output voltage is adjust-



from 5.5V down to 0.8V.the ZSPM4023-06 Underable medium to heavy loads, provides high efficiency and transient resUnder medium to heavyultra-fast loads, the ZSPM4023-06 ponseprovides via its rapid-control architecture. Under light high efficiency and ultra-fast transient resload conditions, it rapid-control maintains high efficiency Under and a light ponse via its architecture. superior by high transitioning to a load transient conditions,response it maintains efficiency and variable-frequency, discontinuous operation to superior transient response mode by transitioning with its ultra-light-load architecture. variable-frequency, discontinuous mode operation with its ultra-light-load The ZSPM4023-06 offers architecture. a full suite of protection features to ensure protection during fault The ZSPM4023-06 offersofa the full IC suite of protection conditions. These include under-voltage lockout features to ensure protection of the IC duringtofault conditions. These include under-voltage ensure proper operation under power-sag lockout con- to ensure proper operationinternal under soft-start power-sag toconditions; thermal shutdown; ditions; shutdown;current internal soft-start reduce inrush thermal current; foldback limiting; and to reduce inrush current; foldback current limiting; “hiccup” mode short-circuit protection. The and “hiccup” includes mode ashort-circuit protection. ZSPM4023-06 power good (PG) output to The ZSPM4023-06 includes a power good (PG) output to allow simple sequencing. allow simple sequencing.

 

Features  Rapid-control Features architecture enables operation with     

a high input/output voltage ratio (e.g., VIN = 28V  Rapid-control architecture enables operation with andaVhigh OUT = 0.8V) and small output capacitance input/output voltage ratio (e.g., VIN = 28V Adjustable output voltage from output 0.8V tocapacitance 5.5V = 0.8V) and small and VOUT Universally compatible with most output  Adjustable output voltage from 0.8V to 5.5V capacitors—stable with zero tomost high output ESR  Universally compatible with Power good (PG) output capacitors—stable with zero to high ESR Foldback limiting and “hiccup” mode  Powercurrent good (PG) output short-circuit protection  Foldback current limiting and “hiccup” mode Safeshort-circuit start-up into pre-biased loads protection  Safe start-up into pre-biased loads

Available Support AvailableKitSupport  Evaluation 

 Evaluation Kit Support documentation  Support documentation

Physical Characteristics Physical Characteristics  Input voltage range: 4.5V to 28V   

ZSPM4023-06 Typical Application ZSPM4023-06 Typical Application

Ultra-light Benefitsload efficiency – up to 80% at 10mA Up to 95% efficiency  Ultra-light load efficiency – up to 80% at 10mA Feedback reference accuracy as high as ±1%  Up to 95% efficiency  Feedback reference accuracy as high as ±1%



 Input voltageup range: Output current: to 6A4.5V to 28V  Outputfrequency: current: up600kHz to 6A Switching  Switching frequency: 600kHz Junction temperature: –40C to +125C  Junction temperature: –40C to +125C 28-pin 5mm  6mm QFN package  28-pin 5mm  6mm QFN package Efficiency (VIN = 24V) (VIN = 24V) vs.Efficiency Output Current vs. Output Current

95 95

EFFICIENCY (%)

5.0V 3.3V 5.0V 2.5V 3.3V 1.8V 2.5V 1.5V 1.8V 1.2V 1.5V 1.0V 1.2V 0.9V 1.0V 0.8V 0.9V 0.8V

75 70 65 60

80 75 70 65 60

50 0

1 0

2 1

3 2

4 3

5 4

OUTPUT CURRENT (A) (A) OUTPUT CURRENT

For more contact ZMDIZMDI via Analog@zmdi.com. For information, more information, contact via Analog@zmdi.com.

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© 2013 Zentrum Mikroelektronik DresdenDresden AG — Rev. 1.00 — 1.00 October 16, 2013. rights The material contained hereinherein may not reproduced, adapted, merged, © 2013 Zentrum Mikroelektronik AG — Rev. — October 16, All 2013. Allreserved. rights reserved. The material contained maybenot be reproduced, adapted, merged, translated,translated, stored, orstored, used without prior the written of the copyright owner. owner. The information furnished in this in publication is subject to changes without notice. or usedthe without priorconsent written consent of the copyright The information furnished this publication is subject to changes without notice.

114

ZSPM4023-06

24V/6A Synchronous DC/DC Buck Regulator

ZSPM4023-06 Functional Diagram

Typical Applications  Servers, work stations  Routers, switches, and telecom equipment  Base stations

Ordering Information Product Sales Code

Description

Package

ZSPM4023AA1W06

ZSPM4023-06 QFN28 5mmx6mm — Temperature range: –40C to +125C

7” reel with 1000 ICs

ZSPM4023-06-KIT

Evaluation Kit for ZSPM4023-06, including ZSPM4023-06 Evaluation Board.

Kit

Sales and Further Information

www.zmdi.com

Analog@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

USA Phone +855.275.9634

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — October 16, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Global Corporate Catalog

115

Products available at

On-Line Store

ZSPM9000

Ultra-Compact, High-Performance DrMOS Device

ZSPM9000

Ultra-Compact, High-Performance DrMOS Device

Brief Description

Benefits

The ZSPM9000 DrMOS is a fully optimized, ultracompact, integrated MOSFET plus driver powerstage solution for high-current, high-frequency, synchronous buck DC-DC applications. The device incorporates a driver IC, two power MOSFETs, and a bootstrap Schottky diode in a thermally enhanced, ultra-compact 6mmx6mm PQFN40 package.



With an integrated approach, the ZSPM9000’s complete switching power stage is optimized for driver and MOSFET dynamic performance, system inductance, and power MOSFET RDS(ON). It uses innovative high-performance MOSFET technology, which dramatically reduces switch ringing, eliminating the snubber circuit in most buck converter applications. An innovative driver IC with reduced dead times and propagation delays further enhances performance. An internal 12V to 5V linear regulator enables the ZSPM9000 to operate from a single 12V supply. A thermal warning function (THWN) warns of potential over-temperature situations. The ZSPM9000 also incorporates features such as Skip Mode (SMOD) for improved light-load efficiency and a tri-state 3.3V pulse-width modulation (PWM) input for compatibility with a wide range of PWM controllers.

  

Fully optimized system efficiency: >93% peak Clean switching waveforms with minimal ringing 72% space-saving compared to conventional discrete solutions Ideally compatible with ZMDI’s ZSPM1000 true digital PWM controller

Available Support 

ZSPM8000-KIT: Closed Loop Evaluation Kit combined for the ZSPM9000 and ZSPM1000

Physical Characteristics     

Operation temperature: -40°C to +125°C VIN: 8V to 15V (typical 12V) IOUT: 40A (average), 50A (maximum) Low-profile SMD package: 6mmx6mm PQFN40 ZMDI green packaging and RoHS compliant

Typical Application

The ZSPM9000 DrMOS is ideally compatible with ZMDI’s ZSPM1000, a leading-edge configurable digital power-management system controller for nonisolated point-of-load (POL) supplies.

Features              

Based on the Intel® 4.0 DrMOS standard Internal 12V to 5V linear regulator (LDO) High-current handling: up to 50A High-performance copper-clip package Tri-state 3.3V PWM input driver Skip Mode (low-side gate turn off) input (SMOD#) Warning flag for over-temperature conditions Driver output disable function (DISB# pin) Internal pull-up and pull-down for SMOD# and DISB# inputs, respectively Integrated Schottky diode technology in the low-side MOSFET Integrated bootstrap Schottky diode Adaptive gate drive timing for shoot-through protection Under-voltage lockout (UVLO) Optimized for switching frequencies up to 1MHz

Visit .com for more detailed information

For more information, contact ZMDI via SPM@zmdi.com.

© 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.03 — March 8, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

116

ZSPM9000

Ultra-Compact, High-Performance DrMOS Device

ZSPM9000 Block Diagram VCIN

VDRV

BOOT

VIN

DBoot VIN UVLO

5V LDO

VCC UVLO GH Logic

DISB#

Level Shift

(Q1) HS Power MOSFET GH

10µA 30k

Typical Applications    

Telecom switches Servers and storage Desktop computers Workstations



High-performance gaming motherboards

  

Base stations Network routers Industrial applications

VCIN R UP_PWM

PHASE Dead Time Control

Input Tri-State Logic

PWM R DN_PWM

VSWH VCIN GL

GL Logic

THWN#

(Q2) LS Power MOSFET

VCIN

Temp Sense

30k 10µA

CGND

SMOD#

PGND

Ordering Information Product Sales Code

Description

Package

ZSPM9000AI1R

ZSPM9000 Lead-free PQFN40 — Temperature range: -40°C to +125°C

Reel

ZSPM8000-KIT

Integrated Evaluation Kit for ZSPM9000 and ZSPM1000

Kit

Sales and Further Information

www.zmdi.com

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

117

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

Products available at

On-Line Store

ZSPM9010

Ultra-Compact, High-Performance, High-Frequency DrMOS

ZSPM9010

Ultra-Compact, High-Performance, High-Frequency DrMOS Device

Brief Description

Benefits

The ZSPM9010 DrMOS is a fully optimized, ultracompact, integrated MOSFET plus driver power stage solution for high-current, high-frequency, synchronous buck DC-DC applications. The ZSPM9010 incorporates a driver IC, two power MOSFETs, and a bootstrap Schottky diode in a thermally enhanced, ultra-compact PQFN40 package (6mmx6mm).



With an integrated approach, the ZSPM9010’s complete switching power stage is optimized for driver and MOSFET dynamic performance, system inductance, and power MOSFET RDS(ON). It uses innovative high-performance MOSFET technology, which dramatically reduces switch ringing, eliminating the snubber circuit in most buck converter applications.

  

Fully optimized system efficiency: >93% peak Clean switching waveforms with minimal ringing 72% space-saving compared to conventional discrete solutions Optimized for use with ZMDI’s ZSPM1000 true digital PWM controller

Available Support 

ZSPM8010-KIT: Open-Loop Evaluation Board for ZSPM9010

Physical Characteristics

An innovative driver IC with reduced dead times and propagation delays further enhances performance. A thermal warning function (THWN) warns of potential over-temperature situations. The ZSPM9010 also incorporates features such as Skip Mode (SMOD) for improved light-load efficiency with a tri-state 3.3V pulse-width modulation (PWM) input for compatibility with a wide range of PWM controllers.



The ZSPM9010 DrMOS is compatible with ZMDI’s ZSPM1000, a leading-edge configurable digital power-management system controller for nonisolated point-of-load (POL) supplies.

Typical Application

   

Operation temperature: -40°C to +125°C VIN: 3V to 15V (typical 12V) IOUT: 40A (average), 50A (maximum) Low-profile SMD package: 6mmx6mm PQFN40 ZMDI green packaging and RoHS compliant

Features             

Based on the Intel® 4.0 DrMOS standard High-current handling: up to 50A High-performance copper-clip package Tri-state 3.3V PWM input driver Skip Mode (low-side gate turn-off) input (SMOD#) Warning flag for over-temperature conditions Driver output disable function (DISB# pin) Internal pull-up and pull-down for SMOD# and DISB# inputs, respectively Integrated Schottky diode technology in the low-side MOSFET Integrated bootstrap Schottky diode Adaptive gate drive timing for shoot-through protection Under-voltage lockout (UVLO) Optimized for switching frequencies up to 1MHz

Visit .com for more detailed information

For more information, contact ZMDI via SPM@zmdi.com.

All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

118

ZSPM9010

Ultra-Compact, High-Performance, High-Frequency DrMOS

ZSPM9010 Block Diagram VDRV

BOOT

VIN

DBoot

VCIN

UVLO GH Logic

DISB#

Level Shift

(Q1) HS Power MOSFET GH

10µA 30k

Typical Applications    

Telecom switches Servers and storage Desktop computers Workstations



High-performance gaming motherboards

  

VCIN R UP_PWM

PHASE Dead Time Control

Input Tri-State Logic

PWM R DN_PWM

VSWH VDRV GL

GL Logic

THWN#

(Q2) LS Power MOSFET

VCIN

Base stations Network routers Industrial applications

Temp Sense

30k 10µA

CGND

SMOD#

PGND

Ordering Information Product Sales Code

Description

Package

ZSPM9010ZA1R

ZSPM9010 Lead-Free PQFN40 — Temperature range: -40°C to +125°C

Reel

ZSPM8010-KIT

Open-Loop Evaluation Board for ZSPM9010

Kit

Sales and Further Information

www.zmdi.com

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

Products available at

On-Line Store

ZSPM9060

Ultra-Compact, High-Performance, High-Frequency DrMOS Device

ZSPM9060

Ultra-Compact, High-Performance, High-Frequency DrMOS Device

Brief Description

Benefits

The ZSPM9060 is ZMDI’s next-generation, fully optimized, ultra-compact, integrated MOSFET plus driver power stage solution for high-current, highfrequency, synchronous buck DC-DC applications. The ZSPM9060 integrates a driver IC, two power MOSFETs, and a bootstrap Schottky diode into a thermally enhanced, ultra-compact 6x6mm package.



With an integrated approach, the complete switching power stage is optimized with regard to driver and MOSFET dynamic performance, system inductance, and power MOSFET RDS(ON). The ZSPM9060 uses innovative high-performance MOSFET technology, which dramatically reduces switch ringing, eliminating the need for a snubber circuit in most buck converter applications. A driver IC with reduced dead times and propagation delays further enhances the performance. A thermal warning function warns of a potential over-temperature situation. The ZSPM9060 also provides a Skip Mode (SMOD#) for improved light-load efficiency. It also provides a tri-state 3.3V PWM input for compatibility with a wide range of PWM controllers. The ZSPM9060 DrMOS is compatible with ZMDI’s ZSPM1000, a leading-edge configurable digital power-management system controller for non-isolated point-of-load (POL) supplies.

   

Fully optimized system efficiency: >93% peak Clean switching waveforms with minimal ringing 72% space-saving compared to conventional discrete solutions High current handling Optimized for use with ZMDI’s ZSPM1000 true digital PWM controller

Available Support 

ZSPM8060-KIT: Open-Loop Evaluation Board for ZSPM9060

Physical Characteristics     

Operation temperature: -40°C to +125°C VIN: 3V to 16V (typical 12V) IOUT: up to 60A Low-profile SMD package: 6mmx6mm PQFN40 ZMDI green packaging and RoHS compliant

Typical Application

Features             

Based on the Intel® 4.0 DrMOS standard High-current handling: up to 60A High-performance PQFN copper-clip package Tri-state 3.3V PWM input driver Skip Mode (low-side gate turn-off) input (SMOD#) Warning flag for over-temperature conditions Driver output disable function (DISB# pin) Internal pull-up and pull-down for SMOD# and DISB# inputs, respectively Integrated Schottky diode technology in the low-side MOSFET Integrated bootstrap Schottky diode Adaptive gate drive timing for shoot-through protection Under-voltage lockout (UVLO) Optimized for switching frequencies  1MHz For more information, contact ZMDI via SPM@zmdi.com.

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.01 — March 8, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Visit .com for more detailed information

120

ZSPM9060

Ultra-Compact, High-Performance, High-Frequency DrMOS Device

ZSPM9060 Block Diagram VDRV



  



VIN

DBoot

Typical Applications 

BOOT

High-performance gaming motherboards Compact blade servers, Vcore and non-Vcore DC-DC converters

VCIN

UVLO GH Logic

DISB#

Level Shift

(Q1) HS Power MOSFET GH

10µA 30k

VCIN

Desktop computers, Vcore and Non-Vcore DC-DC converters

R UP_PWM

R DN_PWM

High-current DC-DC pointof-load converters Networking and telecom microprocessor voltage regulators

Dead Time Control

Input Tri-State Logic

PWM

Workstations

PHASE

VSWH VDRV GL

GL Logic

THWN#

(Q2) LS Power MOSFET

VCIN

Temp Sense

Small form-factor voltage regulator modules

30k 10µA

CGND

SMOD#

PGND

Ordering Information Sales Code

Description

Package

ZSPM9060ZA1R

ZSPM9060 RoHS-Compliant Clip-Bond PQFN40 - Temperature range: -40 to +125 °C

Reel

ZSPM8060-KIT

Open-Loop Evaluation Board for ZSPM9060

Circuit Board

Sales and Further Information

www.zmdi.com

SPM@zmdi.com

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

USA Phone +855.275.9634 Phone +408.883.6310 Fax +408.883.6358

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Global Corporate Catalog

121

Products available at

On-Line Store

Contact Name: E-Mail Address: Phone Number:

(

)

Distributor/Rep. Firm:

Zentrum Mikroelektronik Dresden AG Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden Germany Central Office: Phone +49.351.8822.306 Fax +49.351.8822.337 European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772 European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955 .com

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Fl., Shinbashi Tokyu Bldg., 4-21-3, Shinbashi, Minato-ku, Tokyo, 105-0004 Japan Phone +81.3.6895.7410 Fax +81.3.6895.7301

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA Phone 1.855.275.9634 (USA) Phone +408.883.6310 Fax +408.883.6358

Zentrum Mikroelektronik Dresden AG, Korea Office U-space 1 Building 11th Floor, Unit JA-1102 670 Sampyeong-dong, Bundang-gu, Seongnam-si, Gyeonggi-do, 463-400 Korea Phone +82.31.950.7679 Fax +82.504.841.3026 ZMD Far East, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan Phone +886.2.2377.8189 Fax +886.2.2377.8199 v2.06/14