Part 2 Astrodyne Sourcebook '11 by Astrodyne TDI

Part II 1

LIFC etter from the CEO The entire Astrodyne team wants to thank you for your continued vote of confidence over the past year. It is an exciting time at Astrodyne as we accelerate our new product development efforts for traditional product lines as well as in the ultra high reliability “RO” portfolio and our new line of low leakage medical adapter products from our recent acquisition “Jerome Industries”. Additionally, we have recently added significant additional capacity to our manufacturing facilities and we have expanded our design centers in California and Taiwan. You can be assured that these efforts are dedicated to our basic principle of satisfying our customers with innovative technology, superior quality, and best in class service. We are also energized by the opportunities we will pursue going forward. We will continue to increase our product offering with an expanded range of power options, packaging alternatives and environmentally responsible designs. We will qualify our production operation to comply with new medical certifications and we will aggressively add engineering resources to facilities in the United States and Asia. Our workforce remains passionate about what they do, striving for technical excellence and uncompromising integrity. As our partners you will help direct us on a path that adds value to your products and your businesses. Our commitment is to be flexible, professional and responsive when you come to us seeking a power solution.

10.75

Sincerely,

Peter J. Murphy President & CEO Astrodyne Corporation pmurphy@astrodyne.com

Table of Contents 167 3

Principles of Power

ECA MCA

Alternative Energy

180

TS200 TS400 TS700 TS1000/1500 41

Lighting Power

LPC20 LPV20 ELN30 LPC35 LPV35 PLN30/60 OLP48 ELN60 LPC60 LPV60 CLG100 PLN100 CLG150 HLG240/H 80

Encapsulated

Open Frame

EFM ASL10/15 OFM20 PS/PD25 LPS PS/PD/PT45 ASL40/60 PS/PD/PT65 ASL150 ASL365 BSL40 BSL60 PQ100/PPQ1003 LPP PD110 PPS125 PPT125 PMK130 PMK150 PMK225U PMK450U PWC PWC12

Medically Approved

EMA MMA EFM/M ASM10/15 MPS30 MP45 ASM40/60 ASM150 ASM365 BSM40 BSM60 MMK PMMK130 PMMK150 PMMK225 PMMK320 PMMK450 AMP1201 AMP1501 AMP300 ASA30M AMP6301 AMP500 AMP101 MP200 278

DIN Rail ( Part II Begins )

MDR DR DR75/120 SDR240 DRP480 297

External

SPU10 SPU12A SPU16 SPU20 SPU25A ASA30 SPU31 SPU46 SPU63

Continued

Table of Contents

External (Continued)

SPU68 SPU80 SPU131 VPU10 VPU11 VPU15 VPU26 VPU40 VPU60 334

Enclosed

PV15 RS25 RS/RD35 R50 R65 RS75 R85 RS100 R125 RS150 MK PMK150E/D PMK225E/D PMK320E/D PMK450E/D SP/TP75 SP/TP/QP100 SP/TP/QP150 SP/QP200 SP240 SP PSP RSP RSP1500 SCP

*Liability Waiver:

All specifications in this catalog are typical at nominal input, full load and 25°C unless otherwise noted. Items noted with an asterisk (*) are stress ratings. Exposure of the devices to any of these conditions may adversely affect long term reliability. Proper operation under conditions other than the standard operating conditions is neither warrantied nor implied.

433

High Density

DU1P0 ASD105 ASD03 ASD35 VKC03 ASD06 ASD ASDH ASD05 ASD08 ASD15/15H LED/LCD15 FED20 ASD20 ASD30 FEC40 ASD50 ASD75EB ASD150QV 481

High Reliabilty/COTS

Application Notes SMV-28-500 PFC PV300 PicoVerter® ASD75Q ASD100W NV300 NanoVerter® ASD150QB SV28 SuperVerter® SV48 SuperVerter® UV28 MicroVerter® UV48 MicroVerter® UV24-164 MicroVerter® UV48-164 MicroVerter® UV300-164 MicroVerter® UV300 MicroVerter® MV380 MegaVerter® MV24-28-600S 548

Jerome

556

Other Products Available

557

Custom Order Capabilities

560

Glossary

548

Price List

568

Product Index

Principles of Power Conversion AC/DC Power Conversion 4

Linear Vs. Switch Mode Power Conversion

Linear Power Supply Linear Vs. Switching Power Supply Comparison

AC/DC Power Conversion

AC/DC Power Conversion Topologies Basic AC/DC Switching Topology Universal Input Power Factor Correction Passic PFC Active PFC

DC/DC Power Conversion Topologies

Non-Isolated DC/DC Converters Buck Converter Boost Regulator Isolated DC/DC Converter Topologies Forward converter Two-Switch Forward Converter Push-Pull Converter Half Bridge Converter Full Bridge Converter

DC/DC Application

Unregulated DC/DC Converters

Other Important Conversion Principles

Multiple Output Switchers Synchronous Rectification

Key Switching Power Supply Considerations

Input Voltage and Frequency Inrush Current Leakage Current DC Input Voltages Input.Output Isolation Output Voltage Tolerance and Adjustment Output Voltage Trim Tmperature Coefficient Maximum Output Current/Power Ripple and Noise Line and Load Regulation Minimum Load Balanced Loading Setup Time, Rise Time and Hold Up Time Switching Frequency Efficiency EMC, EMI and RFI Over Current/Over Load Protection Over Voltage Protection Output Power Derating Factors Output Power Rating Vs. Temperature Output Power Rating Vs. Input Voltage

Remote On/Off Control Operation Idle Current Series Operation Parallel Operation for Increased Power Output Parallel Operation for Redundancy Input Surge Suppression Lightning Environments

Power Supply Package Styles

Open Frame U-Channel and Enclosed Encapsulated Modules DIN Rail Mount External Power Adapters Specialty LED Lighting

DC/DC Converter Package Types

Single In-Line Package (SIP) Dual In-Line package (DIP) Modular and Open Frame Packages Large Format Open Frame with Case High Density Brick Packages Input Fusing

Reliability Considerations

Operating Temperature and Derating Factors Reliability and Lifetime MTBF Reliability Prediction Thermal Budget Considerations Thermal Management

Safety and Regulatory Standards 26

Common Power-Related Specifications

Essential Safety Specification Definitions

Isolation/Electrical Strength Creepage and Clearance Spacing Requirements Insulation Strength Leakage Current

Service and Support

• Experienced Engineers ready to talk • From Stock to Distribution - JIT Shipping Schedules • Over 4,000 Models and Over 150,000 Stock Items

Technical Capabilities • Standard and Custom Product Engineering

• High Volume Production and Testing • Full Ratings and Compliance – including RoHS 2002/95/AC

DIN RAIL mount supplies In factory automation and process control, functional modules such as power supplies use DIN rail mounting to simplify installation and maintenance. Mounting clips enable modules to snap onto the rails quickly and easily, and electrical connections are hard wired using press-fit or screw-terminal connectors. Generally deployed in industrial environments, DIN rail power supplies feature robust packaging. Supplies are typically fully enclosed or cage enclosed modules. Most DIN rail power supplies are AC/DC models featuring universal, 90 to 264 Vac inputs and DC outputs. However, DC/DC converters are also available for DIN rail mounting and these typically offer 9 to 144 Vdc inputs. Power ratings range from tens of watts for smaller models up to 1000 W or more for larger models. When selecting a DIN rail power supply consider the following criteria as they relate to your application requirements: Output Voltage (V) and Current (A). Application requirements for supply voltage vary widely. To accommodate these needs, DIN rail supplies offer either single or multiple output voltages, typically in the range of 3.3 to 48 Vdc. When determining the supply-voltage levels required in an application, it’s important to note the current levels that will be required at each voltage. Power Rating (W). If only a single supply voltage is needed, the power rating required of the supply will simply be the supply voltage times the maximum current required in the application. If multiple outputs are needed, add up the voltage-times-current products for all of the supply voltages to determine the power rating. Good engineering practice dictates that you select a power supply model with a rating that provides some design margin. Safety. Because DIN rail supplies are enclosed units with recessed terminals for interconnections, these supplies are considered “finger safe.” This level of protection minimizes the exposure of service personnel to unsafe voltages, which is beneficial in systems where power supplies or other equipment are routinely serviced. Power supply rating is another safety-related issue. For applications that must meet the Class 2 power limits defined by the National Electrical Code, the output rating of the power supply should not exceed 100 VA or 5 x Vout in cases where Vout is less than 20 V. Weight. Consider the weight of the power supply and the weight bearing specification of the rail in your application when selecting a DIN rail supply. In general, power supply weight tracks power rating, but newer models may weigh less for a given power rating. Mounting Method. This issue relates closely to power supply weight. Simple, spring-loaded clips may be adequate to secure lighter power supplies, but heavier models, or units that may experience tension on the wiring, may warrant the more-robust latches. Rail Type. The standard rail width (measured from top to bottom) for DIN rails is 35 mm, but the depth of the rail can vary. The two most-common depth measurements are 7.5 mm and 15 mm. DIN rail power supplies are generally designed with clips that fit either size. However, there are rails with other dimensions, so verify rail dimensions in your application before selecting a power supply. Also, consider the available rail length and the width of the supply. Among DIN rail power supplies, the newer, narrower models can allow you to fit more items on a given length of rail. Electrical Connection. DIN rail supplies offer different connector options. Press-fit tension clips are the most economical, but screw terminals (especially those with a clamp plate) hold wires more securely and uniformly. For a given type of connector, a range of wire gauges is permitted. When selecting a wire gauge, determine the current levels required in your application. But also consider the space available to dress the wiring as this will affect the ease with which equipment can be installed and serviced. Heavier gauges require a wider bend and will be more difficult to manipulate in tight spaces.

Din Rail

Thermal Management. The ambient temperature range expected in the application together with power supply thermal specifications such as temperature derating will determine whether convection cooling is sufficient or if forced-air cooling may be required. Also, consider the impact of system integration. To optimize cooling, it may be necessary to leave space between DIN-mounted power supplies and adjacent components. Non-DIN Rail Options. Although many power supplies are specifically designed for DIN rail use, any enclosed supply could potentially be mounted to a DIN rail using accessories offered by power supply vendors or third parties.

278

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MDR series 20/40/60W Single Output Industrial Din Rail Power Supply Universal AC input Protections: Short circuit/Overload/Over voltage Cooling by free air convection Can be installed on DIN rail TS-35/7.5 or 15 NEC class 2/LPS compliant LED indicator for power on DC OK relay contact No load power consumption <0.75W

MDR20

Input Specifications

Output Specifications

*Please see page 4 for Waiver of Liability Statement

Model Number

Output Volts

Output Amps

Ripple & Noise

Efficiency

5 Volts(DC) 12 Volts(DC) 24 Volts(DC) 48 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) 48 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) 48 Volts(DC)

3 Amps 1.67 Amps 1.34 Amps 1 Amp 6 Amps 3.3 Amps 1.7 Amps 0.83 Amps 10 Amps 5 Amps 2.5 Amps 1.25 Amps

80mV pk-pk 120mV pk-pk 120mV pk-pk 150mV pk-pk 80mV pk-pk 120mV pk-pk 150mV pk-pk 200mV pk-pk 80mV pk-pk 120mV pk-pk 150mV pk-pk 200mV pk-pk

76% 80% 81% 84% 78% 86% 88% 88% 78% 86% 88% 87%

OVP

DC Volt Adjust

Min Load

MDR20-5 MDR20-12 MDR20-24 MDR20-48 MDR40-5 MDR40-12 MDR40-24 MDR40-48 MDR60-5 MDR60-12 MDR60-24 MDR60-48

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5.75~6.75V 13.8~16.2V 17.25~20.25V 27.6~32.4V 6.25~7.25V 15.6~18V 31.2~36V 57.6~64.8V 6.25~7.25V 15.6~18V 31.2~36V 57.6~64.8V

4.75~5.5V 10.8~13.2V 13.5~16.5V 21.6~26.4V 5~6V 12~15V 24~30V 48~56V 5~6V 12~15V 24~30V 48~56V

0 ~ 3Amps 0~1.67Amps 0~1.34Amps 0 ~ 1Amps 0 ~ 6Amps 0 ~3.33Amps 0 ~ 1.7Amps 0 ~ 0.83Amps 0 ~ 10Amps 0 ~ 5Amps 0 ~ 2.5Amps 0 ~ 1.25Amps

Din Rail

SINGLE OUTPUT

279

MDR series 20/40/60W Single Output Industrial Din Rail Power Supply

Environmental Specifications

General Specifications

Physical Specifications

Note

Output Derating Curve - MDR20

Output Derating Curve - MDR60

Output Derating Curve - MDR40

Output Derating Curve VS Input Voltage - MDR60

Din Rail 280

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MDR series 20/40/60W Single Output Industrial Din Rail Power Supply Unit:mm

Mechanical Dimensions - MDR20

Output Derating Curve VS Input Voltage - MDR20

Din Rail

Application of DC OK Active Signal - MDR20

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281

MDR series 20/40/60W Single Output Industrial Din Rail Power Supply Unit:mm

Mechanical Dimensions - MDR40 & MDR60

DC OK Relay Contact - MDR40 & MDR60

Notes

Din Rail 282

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DR series 30/45/60W Single Output Industrial DIN Rail Power Supplies Universal AC input Protections: Short circuit / Overload / Over voltage

DR60

UL508 (industrial control equipment) approved (DR45) Can be installed on DIN rail TS-35/7.5 or 15 Isolation class II DR45

LED indicator for power on

DR30

General Specifications

Input Specifications

*Please see page 4 for Waiver of Liability Statement

Output Amps

Min Load

SINGLE OUTPUT DR30-5 DR30-12 DR30-15 DR30 -24 DR45-5 DR45-12 DR45-15 DR45 -24 DR60-5 DR60-12 DR60-15 DR60 -24

3 Amps 2 Amps 2 Amps 1.5 Amps 5 Amps 3.5 Amps 2.8 Amps 2 Amps 6.5 Amps 4.5 Amps 4 Amps 2.5 Amps

0 ~ 3Amps 0 ~ 2Amps 0 ~ 2Amps 0 ~ 1.5Amps 0 ~ 5Amps 0 ~3. 5Amps 0 ~ 2.8Amps 0 ~ 2Amps 0 ~ 6.5Amps 0 ~ 4.5Amps 0 ~ 4Amps 0 ~ 2.5Amps

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5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC)

Efficiency

74% 81% 82% 83% 72% 77% 77% 80% 76% 82% 83% 84%

Ripple and Noise

DC Volt Adjust

80mVpk-pk 120mVpk-pk 120mVpk-pk 150mVpk-pk 100mVpk-pk 200mVpk-pk 240mVpk-pk 480Vpk-pk 80mVpk-pk 120mVpk-pk 120mVpk-pk 150mVpk-pk

4.75~5.5V 10.8~13.2V 13.5~16.5V 21.6~26.4V 4.75~5.5V 10.8~13.2V 13.5~16.5V 21.6~26.4V 4.75~5.5V 11.1~13.2V 13.5~16.5V 21.6~26.4V

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OVP

5.75~6.75V 13.8~16.2V 17.25~20.25V 27.6~32.4V 5.75~6.75V 13.8~16.2V 17.25~20.25V 27.6~32.4V 5.75~6.75V 13.8~16.2V 17.25~20.25V 27.6~32.4V

Din Rail

Model Number Output Volts

283

DR series 30/45/60W Single Output Industrial DIN Rail Power Supplies

Environmental Specifications

Output Specifications

Physical Specifications

Note

Output Derating Curve - DR30 100

Load (%)

80 60

Output Derating Curve - DR60

100

20 0

80 VERTICAL

Ambient Temp. (°C)

Output Derating Curve - DR45

60 40 20

100

-20

Din Rail

Load (%)

-20

VERTICAL

Ambient Temp. (°C)

60 40 20 -10

VERTICAL

Ambient Temp. (°C)

284

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DR series 30/45/60W Single Output Industrial DIN Rail Power Supplies

Mechanical Dimensions - DR30 & DR60 Unit:mm

Mechanical Dimensions - DR45

Din Rail

Unit:mm

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285

DR75/120 series 75/120W Single Output Industrial DIN Rail Power Supply Universal AC input Protections: Short circuit / Overload / Over voltage/ Over temperature Cooling by free air convection Can be installed on DIN rail TS-35/7.5 or 15 Isolation class II LED indicator for power on UL508 (industrial control equipment) approved DR75

Fixed switching frequency at 55KHz

DR120

Input Specifications Input Voltage Range Frequency Range Inrush Current, typ: (cold start) Input Current (DR75) (DR120) Leakage current

Output Specifications 90~264VAC / 120-370 Volts (DC) 47-63 Hz 20 Amps @ 115VAC 40 Amps @ 230VAC 1.6 Amps. @ 115VAC 0.96 Amps. @ 230VAC 2.6 Amps. @ 115VAC 1.6 Amps. @ 230VAC < 1mA / 240VAC

Environmental Specifications

123.1KHrs min, MIL-HDBK-217F(25°C) 136.8KHrs min, MIL-HDBK-217F(25°C)

*Please see page 4 for Waiver of Liability Statement

Model Number Output Volts Output Amps SINGLE OUTPUT DR75-12 12 Volts(DC) DR75-24 15 Volts(DC) DR75-48 24 Volts(DC)

Din Rail 286

6.3 Amps 3.2 Amps 1.6 Amps

Min Load

0 ~ 6.3Amps 0 ~ 3.2Amps 0 ~ 1.6Amps

Model Number Output Volts Output Amps Min Load SINGLE OUTPUT DR120-12 12 Volts(DC) DR120-24 24 Volts(DC) DR120-48 48 Volts(DC)

10 Amps 5 Amps 2.5 Amps

Efficiency

0 ~ 10Amps 0 ~ 5Amps 0 ~ 2.5Amps

76% 80% 81%

Ripple and Noise

DC Volt Adjust

100mVpk-pk 150mVpk-pk 240mVpk-pk

12~14V 24~28V 48~53V

Efficiency Ripple and Noise DC Volt Adjust OVP

80% 84% 85%

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80mVpk-pk 80mVpk-pk 100mVpk-pk

12~14V 24~28V 48~53V

OVP

15~16.5V 29~34V 58~65V

OTP

15~16.5V 85°C ±5°C 298~33V 90°C ±5°C 58~65V 90°C±-5°C

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DR75/120 series 75/120W Single Output Industrial DIN Rail Power Supply

Physical Specifications

General Specifications

Note

Mechanical Dimensions - DR75 Unit:mm

Din Rail

Output Derating Curve - DR75

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287

DR75/120 series 75/120W Single Output Industrial DIN Rail Power Supply

Mechanical Dimensions - DR120 Unit:mm

Output Derating Curve - DR120

Din Rail 288

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SDR240 series 240W Single Output Industrial DIN RAIL with PFC Function High efficiency 94% and low power dissipation 150% peak load capability Built-in active PFC function, PF>0.93 Protections: Short circuit / Overload / Over voltage / Over temperature temperature Over Cooling by free air convection Built-in constant current limiting circuit Can be installed on DIN rail TS-35/7.5 or 15 UL 508 (industrial control equipment) approved EN61000-6-2(EN50082-2) industrial immunity level Built-in DC OK relay contact

Output Specifications

Input Specifications

Environmental Specifications

Output Volts Output Amps

Min Load

24 Volts(DC) 48 Volts(DC)

0~10Amps 0~5Amps

OVP

Peak Curent Ripple & Noise DC Volt Adjust

SINGLE OUTPUT SDR240-24 SDR240-48

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10 Amps 5 Amps

29~33 Volts(DC) 56~65 Volts(DC)

15 Amps 7.5 Amps

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100mVpk-pk 120mVpk-pk

24~28Volts(DC) 48~55Volts(DC)

Din Rail

Model Number

289

SDR240 series 240W Single Output Industrial DIN RAIL with PFC Function

General Specifications

Physical Specifications

Note

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

Din Rail 290

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SDR240 series 240W Single Output Industrial DIN RAIL with PFC Function

DC OK Relay Contact

Block Diagram

Peak Loading

Output Derating Curve

Output Derating Curve VS Input Voltage

150 100

For 3 Sec. (typ.)

90 80

100 75

Load (%)

Continuous

70 60 50

(VERTICAL)

Ambient Temp. (°C)

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100

110

135

155

≈

-25

230 264

Din Rail

Load (%)

≈

112.5

Input Voltage (V) 60Hz

291

DRP480 series 480W Single Output Industrial DIN RAIL with PFC Function Built-in passive PFC function compliance to EN61000-3-2 Protections:Short circuit/Over load/Over voltage/ Over temperature High efficiency 89% and low dissipation Cooling by free air convection Built-in constant current limiting circuit Can be installed on DIN rail TS-35/7.5 or 15 UL 508 (industrial control equipment) approved EN61000-6-2 (EN50082-2) industrial immunity level

Input Specifications

General Specifications

Output Specifications

Environmental Specifications

Din Rail 292

Model Number

Output Volts

Output Amps

Min Load

Over Voltage Protection

24 Volts(DC) 48 Volts(DC)

20 Amps 10 Amps

0~20Amps 0~10Amps

30~36 Volts(DC) 54~60 Volts(DC)

SINGLE OUTPUT DRP480-24 DRP480-48

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DRP480 series 480W Single Output Industrial DIN RAIL with PFC Function

Note

Physical Specifications

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

Output Derating Curve VS Input Voltage

Output Derating Curve

100 90 70

Din Rail

Load (%)

80 60 50 40 180

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190

200

264

Input Voltage (V) 60Hz

293

SDR480 series 480W Single Output Industrial DIN RAIL with PFC Function High efficiency 94% and low power dissipation

Can be installed on DIN rail TS-35/7.5 or 15

150% peak load capability

UL 508 (industrial control equipment) approved

Built-in active PFC function, PF>0.94 Protections: Short circuit / Overload / Over voltage / Over temperature Cooling by free air convection Built-in constant current limiting circuit

EN61000-6-2(EN50082-2) industrial immunity level Built-in DC OK relay contact Optional Parallel (7 +1) Parallel Function

General Specifications Safety Insulation Resistance EMI Harmonic Current Efficiency Isolation EMS DC OK Contact Ratings

Output Specifications UL508, TUV EN60950-1 Approved ≥100MΩ / 500Volts / 25°C / 70%RH Compliance to EN55022B (CISPR22B) Compliance to EN61000-3-2,-3 94% 3KVAC I/P-O/P; 1.5KVAC I/P-Gnd 500VAC O/P - Gnd; DC OK EN61000-4-2,3,4,5,6,8,11; ENV50204 EN55024, EN61204-3; EN61000-6-2 (EN50082-2), heavy industry level, Criteria A; SEMI F47 approved 60Vdc/0.3A, 30Vdc/1A, 30Vac/0.5A resistive load max.

Input Specifications Input Voltage Range (Note 5) Frequency Range Inrush Current, typ: (cold start) Input Current Leakage current Min Load Power Factor @ FL

90~ 264VAC 124~370 Volts(DC) 47-63 Hz 40Amps /115VAC; 80Amps/ 230VAC 5Amps/ 115VAC;2.5Amps/ 230VA < 0.8mAmps / 240VAC See Selection Chart PF= 0.94 / 230VAC: 0.99 / 115VAC

Environmental Specifications

Din Rail

Oper. Temperature (Note 3) Storage Temperature Relative Humidity Temperature Coefficient MTBF Vibration

Physical Specifications Size Millimeters/Inches Weight

294

-25°C to +70°C (See Derate Curve) -40°C to +85°C, 10~95% RH 20~95% RH non cond ±0.03% / °C (0-50°C) 112.9KHrs min,MIL-HDBK-217F(25°C) 10~500Hz, 2G10min./1cycle, period for 60min. each along X, Y, Z axes Mounting: Compliance to IEC60068-2-6

85.5 x 125.2 x 128 / 3.37” x 4.93” x 5.04” 56.44 oz (1600g)

Voltage and Current Line / Load Regulation Voltage Tolerance (Note 2) Ripple/Noise (Note 1) Hold Up Time @ FL Setup, Rise Time @ FL Over Voltage Protection Over Current Protection Over Temperature Protection DC Voltage Adjust Peak Current Peak Power (Note 4)

See Selection Chart ±0.5% / ±1.0% ±1.2% (24V); ±1.0% (48V) See Selection Chart 14mS/230VAC 1500mS, 150mS/230VAC 3000mS, 150mS/115VAC See Selection Chart Shut down o/p voltage, auto-recover 110 ~ 150% rated output power >3S shut down o/p voltage ,auto-recover >150% rated power, constant current limiting, auto-recover within 2S and may cause to shut down if over 2 seconds 105°C ±5°C (TSW: Detect on heatsink of power switch) Shut down o/p voltage, auto-recover after cool down See Selection Chart See Selection Chart 720W (3sec.)

Notes 1. Ripple & noise are measured at 20MHz of bandwidth by using a 12” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor. 2. Tolerance : includes set up tolerance, line regulation and load regulation. 3. Installation clearances : 40mm on top, 20mm on the bottom, 5mm on the left and right side are recommended when loaded permanently with full power.In case the adjacent device is a heat source, 15mm clearance is recommended. 4. 3 seconds max., and the average output power should note exceed the rated power. 5. Derating may be needed under low input voltage. Please check the derating curve for more details.

SDR480 series 480W Single Output Industrial DIN RAIL with PFC Function Model Number Output Volts

Output Min Load. OVP Amps

Peak Current

Ripple & Noise

DC Volt Adjust

*SDR480-24(P) *SDR480-48(P)

20 Amps 10 Amps

30 Amps 15 Amps

100mVpk-pk 120mVpk-pk

24~28Volts(DC) 48~55Volts(DC)

24 Volts(DC) 48 Volts(DC)

0~20Amps 0~10Amps

29~33 Volts(DC) 56~65 Volts(DC)

*The SDR480 Series can be ordered with and Optional Parallel Function (7 + 1). Simply add the letter “P” to the end of the Model Number to recieve the product with this function. i.e. “SDR480-24P”

Din Rail

Mechanical Dimensions

295

SDR480 series 480W Single Output Industrial DIN RAIL with PFC Function

Derating Curves

Din Rail 296

For many applications, the benefits of using external power supplies, also known as power adapters, are very compelling. External power supplies do not have to be designed into the end products, simplifying the mechanical design of the products while allowing them to be made smaller. External supplies also make it to easier for end products to achieve the necessary safety approvals, since the approvals burden tends to rest squarely on the power supplies, which are pre-approved. With ratings from a few watts up to several hundred watts, power adapters generate single or multiple DC outputs while operating from a universal AC input. These supplies are available in two formats—wall-mount or desktop—and in commercial or medical grades. When selecting an external power supply consider the following criteria as they relate to your application requirements:

External

EXTERNAL power supplies

Desktop versus Wall Mount. Wall-mount adapters, also referred to as wall plugs or wall warts, plug directly into the AC outlet. Typically, these adapters are limited to power levels of 20 W or less. At higher power levels they become too heavy for the outlet. Desktop adapters, which are stand-alone units that connect to the outlet via a standard ac cord, offer power levels up to about 200 W. Output Voltage (V) and Current (A). Application requirements for supply voltage vary widely. To accommodate these needs, adapters offer either single or multiple output voltages, typically in the range of 2.5 to 48 Vdc. When determining the supply-voltage levels required in an application, note the current levels that will be required at each voltage. Power Rating (W). If only a single supply voltage is needed, the power rating required of the supply will simply be the supply voltage times the maximum current required in application. If multiple outputs are needed, add up the voltage-times-current products for all of the supply voltages to determine the power rating. Good engineering practice dictates that you select a power supply model with a rating that provides some design margin. Output Connector Type. Adapters are offered with a variety of output connector styles. For single DC outputs, coaxial (or barrel) plugs with a lone center contact are popular. These are commonly offered with dimensions of 2.1 mm inner diameter/5.5 mm outer diameter or 2.5 mm inner diameter/5.5 mm outer diameter. For multiple DC outputs, DIN plugs provide multiple contacts. These plugs may also be used when the current output of the adapter is too high for a single contact. Input Connector Type. There are several AC-input cords and/or plugs that can be found on external power supplies. On desktop adapters, the two most-common connectors are IEC-type inlets. Typically, adapters that require a grounded, three-prong plug use the IEC-320-C14 inlet, while adapters that need an ungrounded, two-prong plug use the IEC-320-C8. Safety Approvals. Commercial-grade models are approved to general safety standards such as UL/EN60950-1, while medical-grade adapters are approved to IEC60601-1 and related medical equipment safety standards. Markings. The label on a power adapter often contains a jumble of symbols, product specifications, and safety warnings. The symbols denote an adapter’s compliance with safety, efficiency, environmental or other requirements for sale of the product in different countries or regions. Some familiar examples of safety approval markings include UL (United States), CSA (Canada), PSE (Japan), CCC (China), and CE (European Union). Other symbols denote compliance with efficiency standards such as Energy Star or environmental directives like WEEE, which concerns recycling. Before selecting a power adapter, determine which markings are needed in the target marketplace. Efficiency Standards. To achieve the Energy Star rating, a power adapter must demonstrate a minimum level of efficiency during active-mode operation and limited power consumption in the standby mode. Currently, power adapters can achieve Energy Star status by meeting Level IV requirements. However, some adapters may meet the more-stringent Level V requirements, which will be demanded for Energy Star compliance in the future. Thermal Management. Typically, adapters will only operate in ambient environments up to 40°C. Beyond that, these supplies must be derated. If an adapter is placed in an enclosure, its self-heating may be enough to raise the ambient temperature to the point where the supply’s thermal protection places the supply in shutdown or a power-limiting mode. Before selecting an adapter, determine the ambient operating conditions that the power supply may be exposed to in the application. Switched-Mode versus Linear Operation. Bulky and inefficient, linear power supplies continue to be replaced by the lighter and more-efficient switched-mode power supplies. The difference in efficiency is such that linear power adapters generally cannot meet the required energy efficiency standards. When selecting an adapter, be aware of whether the supplies being considered use linear or switched-mode technology, and how the tradeoffs in size, weight, and efficiency will impact the application.

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297

SPU10 series 10 WATT Wallmount Switching Power Supplies

External

Wide Input Voltage 90 to 264 VAC, 47 to 63 Hz 2 Prong Plug-In Mains Connector Output Voltage Available from 5Volts(DC) thru 36Volts(DC) Single Output Class II LPS Efficiency Level V

Input Specifications

General Specifications

Input Voltage Range Frequency Range Input Current @ FL

Isolation Efficiency @ FL @230VAC EMI

90-264 VAC 47-63 Hz Low Line 0.3Amps @ 115VAC High Line 0.2Amps @ 230VAC Inrush Current @ FL (Cold Start) Low Line 20Amps typ. @ 115VAC 30Amps max @ 115VAC High Line 45Amps typ. @ 230VAC 60Amps max @ 230VAC Leakage Current @ FL 0.25 mAmps max. @ 240VAC 0.2 mAmps typ. @ 240VAC

Output Specifi cations OUTPUT SPECIFICATIONS Voltage and Current Load Regulation @ FL Line Regulation @ FL Transient Response Ripple/Noise @ FL Start Up 100Vin, FL Hold Up Time @ FL Short Circuit Protection

298

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4242 Volts(DC) 75% min. / 80% typ. / 85% max CISPR-22 Class B @ 220VAC FCC PART-15 Class B @ 110VAC

Physical Specifications 57-63.0 x 44.0 x 27.5 mm 2 x 1.73” x 1.08” 2.87” 3.17oz (90g)

Size Weight

ENVIRONMENTAL SPECIFICATIONS Environmental Specifi cations See Selection Charts ± 5%, max. @ 230VAC ±3%, typ. @ 230VAC ± 1%, max. ± 0.5% typ. 4mS @ 100VAC 1% Pk-Pk @ 90VAC 0.5% Pk-Pk @ 90VAC 2S max. / 1S typ. / 0.3S min 5mS min @ 100VAC 10mS typ. @ 100VAC Continuous

Oper. Temperature Storage Temperature Relative Humidity MTBF Temperature Coefficient

0 to +70°C (FL) -40 to +85°C 5% to 95%, non-cond 0.1 MHrs MIL-HDBK-217F(25°C) ±0.04%/°C

*Please see page 4 for Waiver of Liability Statement

Model Number

Rated Power

Output Voltage

Output Amps

SPU10-102

5 Volts(DC)

1.60 Amps

SPU10-103

6 Volts(DC)

1.33 Amps

SPU10-104

12 W

9 Volts(DC)

1.11 Amps

SPU10-105

10 W

12 Volts(DC)

1.83 Amps

SPU10-106

10 W

15 Volts(DC)

0.66 Amps

SPU10-107

10 W

18 Volts(DC)

0.55 Amps

SPU10-108

10 W

24 Volts(DC)

0.41 Amps

SPU10-109

10 W

30 Volts(DC)

0.33 Amps

SPU10-110

10 W

36 Volts(DC)

0.27 Amps

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SPU10 series Mechanical Dimensions SPU10-102~105 Output Cord Length 48” 20AWG SPU10-106~110 Output Cord Length 48” 24AWG

External

10 WATT Wallmount Switching Power Supplies

Output Derating Curve

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299

SPU12A series 10-15 WATT Wallmount Switching Power Supplies

External

90-264VAC Universal Input 3.3 Through 48VDC Single Outputs 2 Prong Plug-In Mains Connector 3000V Isolation

Unit Measures 2.55”W x 2.16”L x 1.34”H

Input Specifications

General Specifications

Input Voltage Range Frequency Range Input Current Inrush Current, typ (Cold Start) Leakage Current

90-264 VAC (Universal) 47-63 Hz Low Line (115VAC) High Line (230VAC) Low Line (115VAC) High Line (230VAC) 0.75mA MAX. @ 240 VAC, FL

Input-Out Isolation Isolation Resistance Efficiency Safety

0.4A 0.3A 15A max. 30A max.

Size Construction Weight

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2.55” x 2.16” x 1.34” Wallmount Style 4oz (115g)

Environmental Specifi cations ENVIRONMENTAL SPECIFICATIONS

See Selection Charts 0 to FL Rating +/- 7%, max. +/- 1%, max. 100Vin, FL to 1/2L 4mS +/-0.04%/°C, typ FL, 90Vin 1% Pk-Pk Continuous, self-recovering * 100Vin, FL 2S max. / 5 mS min.

0 to +40°C (FL) * 50% Load @ 70°C (See Derate Curve Next Page) -40 to +85°C * 5% to 95%, non-cond * 110Vin: FCC Part 15 Class B 220Vin: CISPR-22 Class B 100,000 Hrs

Oper. Temperature

Storage Temperature Relative Humidity EMC MTBF

*Please see page 4 for Waiver of Liability Statement

300

70%, typ

Physical Specifi cations PHYSICAL SPECIFICATIONS

OUTPUT SPECIFICATIONS Output Specifi cations Voltage and Current Output Power Range Load Regulation (FL, 230Vin) Line Regulation (FL) Transient Response Temperature Coefficient Ripple/Noise Short Circuit Protection Start Up / Hold Up Time

3000 VAC 50 Mohm min. (FL, 230Vin) (c)UL60950

Model Number

Output Watts

Output Voltage

Output Amps

SPU12A-101 SPU12A-102 SPU12A-103 SPU12A-104 SPU12A-105 SPU12A-106 SPU12A-107 SPU12A-108 SPU12A-109 SPU12A-110 SPU12A-111

10 10 10 12 15 15 15 15 15 15 15

3.3V 5V 6V 9V 12V 15V 18V 24V 30V 36V 48V

3.03 2.0A 1.66A 1.33A 1.25A 1.0A 0.83A 0.62A 0.5A 0.41A 0.31A

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SPU12A series 10-15 WATT Wallmount Switching Power Supplies

External

Mechanical Dimensions Dimensions Are In mm.

Output Derating Curve DERATE CURVE

DC DC Output OUTPUTConnections CONNECTIONS Coaxial Plug:

Coaxial Plug: 5.5mm outer diameter

-Vout

+Vout

2.1mm inner diameter, female

5.5mm outercenter diameter 11mm length, “+” 2.1mm inner diameter, female 11mm length, center “+”

SPU12A-101~104 Output Cord Lenght t h 72” 18AWG t h 72” 20AWG SPU12A-105~111 Output Cord Lenght

Notes

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301

SPU16 series 15 WATT Desktop Switching Power Adapters Option “A”

External

Universal 90-264VAC Input

Option “B”

3 Input Connection Options Single Outputs from 3.3 to 48VDC 3000V Isolation

Option “D”

Splash Proof Case LPS Efficiency Level IV or V

Unit Measures 3.58”W x 1.5”L x 1.42”H

Output Specifi cations OUTPUT SPECIFICATIONS

Input Specifications Input Voltage Range Frequency Range Input Current Inrush Current, typ (Cold Start) Leakage Current

90-264 VAC 47-63 Hz Low Line (115VAC) High Line (230VAC) Low Line (115VAC) High Line (230VAC) 0.75mA MAX. @ 240 VAC, FL

0.4A 0.26A 15A max. 30A max.

Voltage and Current Output Power Range Load Regulation (230Vin) Line Regulation Transient Response Temperature Coefficient Ripple/Noise (FL, 90Vin) Short Circuit Protection Start Up / Hold Up Time

See Selection Charts 0 to FL Rating ± 3%, typ. ± 1%, max. 100Vin, FL to 1/2L 4mS ±0.04%/°C, typ 1% Pk-Pk max. (2%, 3.3Vout) Continuous, self-recovering * 100Vin, FL 2S max. / 5 mS min.

Model Number

Output Watts

Output Voltage

Output Amps

Total Regulation

*SPU16(A, B or D)-101 *SPU16(A, B or D)-102 *SPU16(A, B or D)-103 *SPU16(A, B or D)-104 *SPU16(A, B or D)-105 *SPU16(A, B or D)-106 *SPU16(A, B or D)-107 *SPU16(A, B or D)-108 *SPU16(A, B or D)-109 *SPU16(A, B or D)-110 *SPU16(A, B or D)-111

8.25 12 12 15 15 15 15 15 15 15 15

3.3V 5V 6V 10V 12V 15V 18V 24V 30V 36V 48V

2.5A 2.4A 2.0A 1.5A 1.25A 1.0A 0.83A 0.62A 0.5A 0.41A 0.31A

7% 5% 5% 5% 5% 5% 5% 5% 5% 3% 3%

* Note: The Asterisk * denotes a choice of AC input connectors (A, B or D option). Please see Mechanical Dimensions. If not denoted, option “A” IEC-320-C14 connector is used. Low cost 3 Wire IEC320/C13 (Part Number ACCRD-C13) and 2 Wire IEC320/C7 (Part Number ACCRD-C7) Input Power Cords are available for these products. Inquire to the Astrodyne Sales Depart.

302

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SPU16 series General Specifications

Physical Specifi cations PHYSICAL SPECIFICATIONS

Isolation

I/P - O/P: 3000 VAC I/P - GND: 1500 VAC

Efficiency (FL, 230Vin) Switching Frequency Safety

80%, min. 89 KHz (c)UL60950-1, EN60950-1

Size Construction Weight

3.58” x 1.5” x 1.42” Desktop Style 5.8oz (165g)

External

15 WATT Desktop Switching Power Adapters

Output Derating Curve

Environmental Specifications 0 to +40°C (FL) * 50% Load @ 70°C (See Derate Curve) -40 to +85°C * 5% to 95%, non-cond * 110Vin: FCC Part 15 Class B 220Vin: CISPR-22 Class B 100,000 Hrs

Oper. Temperature

Storage Temperature Relative Humidity EMC MTBF

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions - SPU16A/B SPU16D

SPU16A

SPU16B

DC OUTPUT CONNECTIONS DC Output Connections Coaxial Plug 5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+”

-Vout

+Vout

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303

SPU20 series 20 WATT Desktop Switching Power Supplies

External

Wide Input Voltage 90 to 264 VAC, 47 to 63 Hz IEC-320-C6 Input Inlet Splash proof Single Output Class I LPS Efficiency Level V Approved as Limited Power Source (LPS)

Input Specifications

General Specifications

Input Voltage Range Frequency Range Input Current @ FL

Isolation

4242 Volts(DC) Input-Output 2121 Volts(DC) Input-Ground

Efficiency @ FL @230VAC EMI

75% min. / 85% typ. / 95% max CISPR-22 Class B @ 220VAC FCC PART-15 Class B @ 110VAC <0.5W @ 240VAC

90-264 VAC 47-63 Hz Low Line 0.4Amps @ 115VAC High Line 0.25Amps @ 230VAC Inrush Current @ FL (Cold Start) Low Line 12Amps typ. @ 115VAC 15Amps max @ 115VAC High Line 26Amps typ. @ 230VAC 30Amps max @ 230VAC Leakage Current @ FL 0.75 mAmps max. @ 240VAC 0.5 mAmps typ. @ 240VAC

No-Load Power Consumption

Physical Specifications Size

Output Specifi cations OUTPUT SPECIFICATIONS

Weight Voltage and Current Load Regulation @ FL

Line Regulation @ FL Transient Response Ripple/Noise @ FL Start Up @ FL Hold Up Time @ FL

Over Current Protection

See Selection Charts ± 5%, max. @ 230VAC ±3%, typ. @ 230VAC ±1%, min. @ 230VAC ± 1%, max. ± 0.5% typ. 4mS @ 100VAC 1% Pk-Pk @ 90VAC 0.5% Pk-Pk @ 90VAC 0.5S max / 0.25S typ. @ 100VAC 12mS min @ 110VAC 14mS typ. @ 110VAC 16mS max. @ 110VAC 110~150%

Model Number SPU20A-102 SPU20A-105 SPU20A-106 SPU20A-108 SPU20A-109 SPU20A-111

304

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Rated Power 15 W 20 W 20 W 20 W 20 W 20 W

99.0 x 42.0 x 31.0 mm 3.90” x 1.65” x 1.22” 6.00 oz (170g)

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity MTBF Temperature Coefficient Isolation Resistance

0 to +70°C (See derate curve) -40 to +85°C 5% to 95%, non-cond 0.3 MHrs MIL-HDBK-217F(25°C) ±0.04%/°C 50 M / 500Volts(DC)

*Please see page 4 for Waiver of Liability Statement

Output Voltage

Output Amps

5 Volts(DC) 12 Volts(DC) 15 Volts(DC 24 Volts(DC 30 Volts(DC 48 Volts(DC

3.0 Amps 1.66 Amps 1.33 Amps 0.83 Amps 0.66 Amps 0.42Amps

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SPU20 series Mechanical Dimensions SPU20A-102~110 Output Cord Length 48” 18AWG

SPU20-10

External

20 WATT Desktop Switching Power Supplies

Output Derating Curve

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305

SPU25A series 25 WATT Desktop Switching Power Adapters

External

Universal 90-264VAC Input IEC-320-C14 Input Receptacle Single Outputs from 5 to 48VDC LPS Efficiency Level IV or V Splash Proof Case Unit Measures 4.11”W x 1.65”L x 1.22”H

Input Specifications

Physical Specifications

General Specifications

Output Specifications Environmental Specifications

*Please see page 4 for Waiver of Liability Statement

306

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Model Number

Output Watts

Output Voltage

Output Amps

Total Regulation

SPU25A-102 SPU25A-103 SPU25A-104 SPU25A-105 SPU25A-106 SPU25A-107 SPU25A-108 SPU25A-109 SPU25A-110 SPU25A-111

16.5 20 22 25 25 25 25 25 25 25

5V 6V 10V 12V 15V 18V 24V 30V 36V 48V

3.3A 3.33A 2.2A 2.08A 1.66A 1.38A 1.04A 0.83A 0.69A 0.52A

5% 5% 5% 5% 5% 5% 3% 3% 3% 3%

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SPU25A series 25 WATT Desktop Switching Power Adapters

External

Output Derating Curve

Mechanical Dimensions -Vout

+Vout

DC Output Connections Coaxial Plug 5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+”

SPU25-102~103 Output Cord Length 48” 16AWG Length 48” 18AWG SPU25-104 Output Cord Lenght SPU25-105~111 Output Cord Length 72” 18AWG

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307

ASA30 series 30W Wall Mount Switching Adapter with Interchangeable AC Plugs

External

Universal 90-264VAC Input UL60950-1 Pending RoHS Compliant Interchangeable AC Input Plugs High Efficiency

Unit Measures 2.27”W x 4.24”L x1.32”H

Input Specifications Input Voltage Range Frequency Range Input Current Inrush Current Leakage Current

Physical Specifications 90-264 VAC 47-63 Hz 0.8 Amps max. 50 Amps max. @ 264VAC 0.25mA max.

Size Construction Output Connector Weight

Environmental Specifi cations ENVIRONMENTAL SPECIFICATIONS

OUTPUT SPECIFICATIONS Output Specifi cations Voltage and Current Load Regulation (Note 4) Line Regulation (Note 3) Voltage Accuracy (Note 1) Ripple/Noise (Note 2) Over Voltage Protection Short Circuit Protection Hold Up Time

Oper. Temperature Storage Temperature Conducted EMI

See Selection Charts See Selection Charts ± 1% ± 2% (± 4%, 5Vout) ± 1% Yes Continuous; Auto Recovery 10mS typ. @ 115VAC

308

0 to +40°C FL -20 to +85°C * CISPR/FCC Class B

Notes 1. Voltage Setpoint at 60% Load 2. Add a 0.1uF ceramic capacitor and a 10uF E.L. capacitor to output for Ripple & Noise measuring @ 20MHz BW. 3. Line Regulation measured from 100VAC to 240VAC, full load. 4. Load Regulation measured from 60% to full load and from 60% to 20% load (60% ±40%) 5. Minimum load is not required for proper operation.

General Specifi cations GENERAL SPECIFICATIONS Isolation Efficiency Safety

4.24” x2.27” x 1.32” Wallmount Style 2.1x5.5x12mm Coax 10.58oz (300g)

I/P-O/P: 3000VAC 75% typ. UL60950-1, EN60950-1

*Please see page 4 for Waiver of Liability Statement

Model Number

Output Voltage

Output Amps

Regulation

Efficiency

Output Connector

SINGLE OUTPUT ASA30-0301 ASA30-0304 ASA30-0302 ASA30-0303 ASA30-0306 ASA30-0305

5 9 12 15 18 24

5.0 3.3 2.5 2.0 1.65 1.25

±6% ±3% ±2% ±2% ±2% ±2%

70% 73% 76% 78% 78% 80%

Coaxial Coaxial Coaxial Coaxial Coaxial Coaxial

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ASA30 series 30W Wall Mount Switching Adapter with Interchangeable AC Plugs

External

Mechanical Dimensions - ASA30 Unit:mm

•

DC Plug type: V+– )– VDC Plug size: (o5.5/o2.1) L12mm 18AWG/1800mm 33.5 (1.32) 32.6 (1.28)

107.8 (4.24)

57.6 (2.27)

1800 (970.87) ± 150 (1.97)

22.2 (0.87)

18.3 (0.72) ± 0.05 (0.002)

37.95 (1.49)

31.5 (1.24)

8.7 (0.04)

17 (0.67)

25.1 (0.99) 19 (0.75)

28 (1.1)

17.4 (0.69)

39 (1.54)

18 (0.71)

6.3 (0.25) 4 (0.16)

18 (0.63)

28.9 (1.14)

12.5 (0.49) ± 0.05 (0.002)

Notes

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309

SPU31 series 30W Desktop Switching Power Supplies for I.T.E

External

Wide Input Voltage 90 to 264VAC, 47~63Hz IEC-320-C14 Input Inlet Single Output 48Volts(DC) Output Voltage Available from 5Volts(DC) thru 50Volts(DC) Splash prrof proof Class I

Imput cations INPUTSpecifi SPECIFICATIONS

General Specifi cations GENERAL SPECIFICATIONS

Input Voltage Range Frequency Range Input Current @ FL

Isolation (min)

90-264 VAC 47-63 Hz Low Line 0.8Amps @ 115VAC High Line: 0.5Amps @ 230VAC Inrush Current, @ FL (Cold Start) Low Line: 15Amps max.@ 115VAC High Line 30Amps max.@ 230VAC Leakage Current @ FL 0.75mAmps max @ 240VAC 0.5mAmps typ. @ 240VAC

4242 Volts(DC) Input-Output 2121Volts(DC) Input-Ground 50 M min. /500Volts(DC) 81%, typ 0.5W max @ 240VAC 0.3W typ. @ 240VAC CISPR-22B @ 220VAC FCC PART-15B @ 110VAC

Isolation Resistance Efficiency @ FL No-Load Power Consumption EMI

OUTPUT SPECIFICATIONS Output Specifi cations

Physical PHYSICASpecifi L SPECcations IFICATIONS

Voltage and Current Load Regulation Line Regulation @ FL

Size Weight

Transient Response Ripple/Noise @ FL Over Current Protection Start Up @ FL

Hold Up Time @ FL(min)

See Selection Charts ± 7%,@ 230VAC ± 1%, max. ±0.5% typ. 4mS @ 100VAC @ FL load to 1/2 load 1% Pk-Pk,max @ 90VAC 110-150% 2S @ 100VAC max 1S @ 100VAC typ. 0.3 @ 100VAC min. 12 mS @ 110VAC

107x47x29.6 mm (4.21”x1.85”x1.17”) 9.35~8.87oz (265~280g)

ENVIRONMENTAL SPECIFICATIONS Environmental Specifi cations Oper. Temperature @ FL Storage Temperature Relative Humidity MTBF Temperature Coefficient

0 to +70°C (See Derate Curve) -40 to +85°C 5% to 95%, non-cond 0.1 MHrs MIL-HDBK-217F(25°C) ±0.04%/°C, typ

*Please see page 4 for Waiver of Liability Statement

Model Number SPU31-102 SPU31-103 SPU31-104 SPU31-105 SPU31-106 SPU31-107 SPU31-108 SPU31-109 SPU31-110 SPU31-111

310

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Output Amps 5.00 Amps 4.16 Amps 3.0 Amps 2.5 Amps 2.0 Amps 1.66 Amps 1.25 Amps 1.0 Amps 0.83 Amps 0.62 Amps

Output Volts 5 Volts(DC) 6 Volts(DC) 10 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 30 Volts(DC) 36 Volts(DC) 48 Volts(DC)

Rated Power 25W 25W 30W 30W 30W 30W 30W 30W 30W 30W

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Total Regulation 5% 5% 5% 5% 5% 5% 3% 3% 3% 3%

SPU31 series 30W Desktop Switching Power Supplies for I.T.E

External

Mechanical Dimensions

Note: 1. Dimensions are shown in mm. 2. Weight: 265~280gs approx.

Output Derating Curve SPU31-102~105 Output Cord Lenght t h 48”16AWG SPU31-106~108 Output Cord Lenght t h 48”18AWG SPU31-109~111 Output Cord Lenght th 72”18AWG

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311

SPU46 series 46 WATT Desktop Switching Power Adapters

External

Wide Input Voltage 90 to 264 VAC, 47 to 63 Hz IEC-320-C14 Input Inlet Splash proof Single Output Class I Output Voltage Available from 5Volts(DC) thru 48Volts(DC) Approved as Limited Power Source (LPS) Input Surge Current, Over Voltage and Over Load protection Over Voltage Protection (Crowbar Design)

Output Specifications

Input Specifications

General Specifications Physical Specifications

312

Model Number

Rated Power

Output Voltage

Output Amps

SPU46-102 SPU46-103 SPU46-104 SPU46-105 SPU46-106 SPU46-107 SPU46-108 SPU46-109 SPU46-110 SPU46-111

40 W 45 W 45 W 45 W 45 W 50 W 50 W 50 W 50 W 50 W

5 Volts(DC) 6 Volts(DC) 9 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 30 Volts(DC) 36 Volts(DC) 48 Volts(DC)

8.0 Amps 7.5 Amps 5.0 Amps 3.75 Amps 3.0 Amps 2.77 Amps 2.08 Amps 1.66 Amps 1.38 Amps 1.04 Amps

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SPU46 series 46 WATT Desktop Switching Power Adapters

External

Output Derating Curve

Environmental Specifications

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions SPU46-102 Output Cord Length 48” 16AWG SPU46-105 Output Cord Length 48” 18AWG SPU46-111 Output Cord Length 48” 18AWG

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313

SPU63 series 63W Desktop Switching Power Supplies

External

90-264VAC Input IEC-320-C14 Input Receptacle LPS Efficiency Level V 3000V Isolation Splash Proof Case Unit Measures 4.65”W x 1.34”L x 2.05”H

Input Specifications Input Voltage Range Frequency Range Input Current Leakage Current Inrush Current, typ (Cold Start) Power Consumption @ NL

Physical Specifications 90-264 VAC 47-63 Hz Low Line (115VAC) High Line (230VAC) .075mA, max. Low Line (115VAC) High Line (230VAC) 240Vin

1.6A 0.7A 15A max. 30A max. 0.5W max.

Output cations OUTPUTSpecifi SPECIFICATIONS Voltage and Current Output Power Range Load Regulation (230Vin) Line Regulation Transient Response Temperature Coefficient Ripple/Noise Over Voltage Protection Over Current Protection Start Up / Hold Up Time

See Selection Charts 0 to FL Rating +/- 5%, max. +/- 1%, max. 100Vin, FL to 1/2L 4mS +/-0.04%/°C, typ FL, 240Vin 1% Pk-Pk, max. 112-132% * 102-150% * 100Vin, FL 2S max. / 16mS min.

Size Construction Weight

4.65” x 1.34” x 2.05” Desktop Style 12oz (340g)

ENVIRONMENTAL SPECIFICATIONS Environmental Specifi cations Oper. Temperature

Storage Temperature Relative Humidity EMC MTBF

0 to +40°C (FL) * 50% Load @ 70°C (See Derate Curve) -40 to +85°C * 5% to 95%, non-cond * 110Vin: FCC Part 15 Class B 220Vin: CISPR-22 Class B 130,000 Hrs MIL-HDBK-217F

Output Derating Curve

General Specifications Input-Out Isolation Input-Ground Isolation Isolation Resistance Efficiency (FL, 230Vin) Safety

3000 VAC 1500VAC 50 Mohm min. 88%, typ (c)UL60950-1, EN60950-1

NOTE: Low cost 3 Wire IEC320/C13 (Part Number ACCRD-C13) Input Power Cords are available for these products. Inquire to the Astrodyne Sales Depart.

*Please see page 4 for Waiver of Liability Statement

314

Model Number

Output Watts

Output Volts

Output Amps

Total Regulation

SPU63-105 SPU63-106 SPU63-107 SPU63-108 SPU63-109 SPU63-110 SPU63-111

57 63 63 63 63 63 63

12V 15V 18V 24V 30V 36V 48V

4.75A 4.2A 3.5A 2.62A 2.1A 1.75A 1.31A

5% 5% 5% 5% 5% 3% 3%

www.astrodyne.com

USA: 1-800-823-8082 • Asia Pacific: 886-2-26983458

SPU63 series Mechanical Dimensions

COAXIAL PLUG: 5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+” -Vout

+Vout

External

63W Desktop Switching Power Supplies

SPU63-105-106 Output Cord 48”, 16AWG SPU-63-107-111 Output Cord Length 72”, 18AWG

Notes

www.astrodyne.com

USA: 1-800-823-8082 • Asia Pacific: 886-2-26983458

315

SPU68 series 68 WATT Desktop Switching Power Supplies

External

Wide Input Voltage 90 to 264 VAC, 47 to 63 Hz IEC-320-C14 Input Inlet Single Output Class I Power Consumption (No load) < 0.5 LPS Efficiency Level IV Over Voltage Protection (Crowbar Design)

Input Specifications

General Specifications

Environmental Specifications Output Specifications

Output Derating Curve

Physical Specifications C *Please see page 4 for Waiver of Liability Statement

Model Number SPU68-105 SPU68-108

316

www.astrodyne.com

Output Voltage 12 Volts(DC) 24 Volts(DC)

Output Amps 5.0 Amps 2.50 Amps

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

Output Peak Current 6.66 Amps 3.33 Amps

SPU68 series Mechanical Dimensions SPU68-105/108 Output Cord Length 48â&#x20AC;? 18AWG

External

68 WATT Desktop Switching Power Supplies

Features: The over current protection apparatus in accordance with the present invention allows the power supply to output the undulated current. lot (A)

1 setting value

t < td

t < td td=45 seconds T (sec)

0 The power supply still operates normally

www.astrodyne.com

Turn off power supply

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

317

SPU80 series 80W Desktop Switching Power Supplies with PFC

External

90-264VAC Input IEC-320-C14 Input Receptacle Power Factor Correction LPS Efficiency Level V Splash Proof Case

Unit Measures 5.75”W x 1.69”L x 3.0”H

Input Specifications

General Specifications

Physical Specifications

Output Specifications

Environmental Specifications

*Please see page 4 for Waiver of Liability Statement

318

www.astrodyne.com

Model Number

Output Volts

Output Amps

Total Regulation

SPU80-105 SPU80-106 SPU80-107 SPU80-108 SPU80-109 SPU80-110 SPU80-111

12V 15V 18V 24V 30V 36V 48V

6.66A 5.33A 4.44A 3.33A 2.66A 2.22A 1.66A

5% 5% 5% 5% 5% 5% 5%

USA: 1-800-823-8082 • Asia Pacific: 886-2-26983458

SPU80 series Mechanical Dimensions

5 Pin DIN

1 4

5 2

1. COM 2. COM 3. Vout 4. COM 5. Vout Shell = GND

External

80W Desktop Switching Power Supplies with PFC

43.0 ± 1.0 (1.69”) 0.7 ± 1.0 (0.03)

76.0 ± 1.0 (2.99”)

146.0 ± 1.0 (5.75”)

AC INPUT IEC 320 INLET

Output Cord Length 72” typ.

Output Derating Curve

www.astrodyne.com

USA: 1-800-823-8082 • Asia Pacific: 886-2-26983458

319

SPU131 series 130 WATT Desktop Switching Power Supplies for I.T.E.

External

Wide Input Voltage 90 to 264 VAC, 47 to 63 Hz

Input Surge Current, Over Voltage and Over Current Protection

IEC-320-C14 Input Inlet

Output Voltage Protection

Single Output

Power Factor Correction

Class I

Input Specifications

Physical Specifications

Environmental Specifications Output Specifications

Output Derating Curve

General Specifications

320

Model Number

Output Voltage

Output Amps

Output Connector

SPU131-105(S) SPU131-106(S) SPU131-107(S) SPU131-108(S) SPU131-109(S) SPU131-110(S) SPU131-111(S) SPU131-112(S)

12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 30 Volts(DC) 36 Volts(DC) 48 Volts(DC) 55 Volts(DC)

10.84 Amps 8.66 Amps 7.22 Amps 5.42 Amps 4.33 Amps 3.61 Amps 2.70 Amps 2.36 Amps

5 Pin DIN 5 Pin DIN 5 Pin DIN 5 Pin DIN 2.1mm Coax. 2.1mm Coax. 2.1mm Coax. 2.1mm Coax.

www.astrodyne.com

*Please see page 4 for Waiver of Liability Statement

Note: "(S)" Denotes that there is an ON/OFF Switch option available for the SPU131 family of products. To order an SPU131 product with the optional ON/OFF Switch, simply add an "S" to the end of the standard Part Number. For example SPU131-105S.

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

SPU131 series 130 WATT Desktop Switching Power Supplies for I.T.E.

External

Mechanical Dimensions

Notes

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USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

321

VPU10 series 10 Watt Wallmount Switching Power Supplies External

Wide Input Voltage 90 to 264 VAC, 47 to 63 Hz 2 Prong Plug-In Mains Connector

Class II LPS Efficiency Level V

Output Voltage Available from 5Volts(DC) thru 48Volts(DC) Single Output

General Specifications Isolation Efficiency @ FL @230VAC EMI

Physical Specifications 4242 Volts(DC) 71% min. / 76% typ. / 85% max CISPR-22 Class B @ 220VAC FCC PART-15 Class B @ 110VAC

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity MTBF Temperature Coefficient Eficciency Level

0 to +70°C FL (See Derate) -40 to +85°C 5% to 95%, non-cond 0.1 MHrs MIL-HDBK-217F(25°C) ±0.04%/°C V

Input Specifications Input Voltage Range Frequency Range Input Current @ FL Inrush Current @ FL (Cold Start) Leakage Current @ FL No Load Power Consumption

322

90-264 VAC 47-63 Hz Low Line 0.3Amps @ 115VAC High Line 0.2Amps @ 230VAC Low Line 35Amps typ. @ 115VAC 40Amps max @ 115VAC High Line 70Amps typ. @230VAC 80Amps max @ 230VAC 0.25 mAmps max. @ 240VAC 0.2 mAmps typ. @ 240VAC 0.3W max @ 240VAC

Size Weight Output Connector

56.0 x 44.0 x 27.5 mm 2.2” x 1.73” x 1.08” 3.17oz (90g) 2.1 x 5.5 x 11mm Coaxial

Output Specifications Voltage and Current Load Regulation @ FL Line Regulation @ FL Transient Response Ripple/Noise @ FL Start Up 100Vin, FL Hold Up Time @ FL Short Circuit Protection

See Selection Chart ± 5%, max. @ 230VAC ±3%, typ. @ 230VAC ± 1%, max. ± 0.5% typ. 4mS @ 100VAC 1% Pk-Pk @ 90VAC max. 0.5% Pk-Pk @ 90VAC typ. 3S max. / 2S typ. 5mS min @ 100VAC 10mS typ. @ 100VAC Continuous

All specifications are typical at nominal input, full load, and 25°C unless otherwise noted

Model Number

Rated Power

Output Voltage

Output Amps

VPU10-102 VPU10-103 VPU10-104 VPU10-105 VPU10-106 VPU10-107 VPU10-108 VPU10-109 VPU10-110 VPU10-111

8 W 8 W 10 W 10 W 10 W 10 W 10 W 10 W 10 W 10 W

5 Volts(DC) 6 Volts(DC) 9 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 30 Volts(DC) 36 Volts(DC) 48 Volts(DC)

1.60 Amps 1.33 Amps 1.11 Amps 0.83 Amps 0.66 Amps 0.55 Amps 0.42 Amps 0.33 Amps 0.28 Amps 0.21 Amps

VPU10 series 10 Watt Wallmount Switching Power Supplies External

Mechanical Dimensions

DC Output Connections Coaxial Plug 5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+”

Derating Curve

-Vout

+Vout

VPU10-102~105 Output Cord Length 48” 20AWG VPU10-106~111Output Cord Length 48” 24AWG

323

VPU11 series 10 Watt Wallmount Switching Power Supplies External

Wide Input Voltage 90 to 264 VAC, 47 to 63 Hz 2 Prong Plug-In Mains Connector

Class II LPS Efficiency Level V

Output Voltage Available from 5Volts(DC) thru 48Volts(DC) Single Output

General Specifications Isolation Efficiency @ FL @230VAC EMI

Physical Specifications 4242 Volts(DC) 71% min. / 76% typ. / 85% max CISPR-22 Class B @ 220VAC FCC PART-15 Class B @ 110VAC

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity MTBF Temperature Coefficient Efficiency Level

0 to +70°C FL (See Derate) -40 to +85°C 5% to 95%, non-cond 0.1 MHrs MIL-HDBK-217F(25°C) ±0.04%/°C V

Input Specifications Input Voltage Range Frequency Range Input Current @ FL Inrush Current @ FL (Cold Start) Leakage Current @ FL No Load Power Consumption

324

Size Weight Output Connector

59.0 x 44.0 x 27.5 mm 2.32” x 1.73” x 1.08” 3.17oz (90g) 2.1 x 5.5 x 11mm Coaxial

Output Specifications Voltage and Current Load Regulation @ FL Line Regulation @ FL Transient Response Ripple/Noise @ FL Start Up 100Vin, FL Hold Up Time @ FL Short Circuit Protection

See Selection Charts ± 5%, max. @ 230VAC ±3%, typ. @ 230VAC ± 1%, max. ± 0.5% typ. 4mS @ 100VAC 1% Pk-Pk @ 90VAC max. 0.5% Pk-Pk @ 90VAC typ. 3S max. / 2S typ. 5mS min @ 100VAC 10mS typ. @ 100VAC Continuous

All specifications are typical at nominal input, full load, and 25°C unless otherwise noted

Model Number

Rated Power

Output Voltage

Output Amps

VPU11-102 VPU11-103 VPU11-104 VPU11-105 VPU11-106 VPU11-107 VPU11-108 VPU11-109 VPU11-110 VPU11-111

8 W 8 W 10 W 10 W 10 W 10 W 10 W 10 W 10 W 10 W

5 Volts(DC) 6 Volts(DC) 9 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 30 Volts(DC) 36 Volts(DC) 48 Volts(DC)

1.60 Amps 1.33 Amps 1.11 Amps 0.83 Amps 0.66 Amps 0.55 Amps 0.42 Amps 0.33 Amps 0.28 Amps 0.21 Amps

VPU11 series 10 Watt Wallmount Switching Power Supplies External

Mechanical Dimensions

DC Output Connections Coaxial Plug 5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+”

-Vout

+Vout

VPU11-102~105 Output Cord Length 48” 20AWG VPU11-106~111Output Cord Length 48” 24AWG

Derating Curve

325

VPU15 series 15 Watt Interchangeable Wallmount Switching Power Adapters External

Universal 90-264VAC Input

3000V Isolation

Interchangeable US, UK, AU, EU Plugs for Worldwide Applications (Sold Separately)

Class II LPS Efficiency Level V

Single Outputs from 5 to 48VDC

General Specifications Isolation Efficiency @ FL @230VAC EMI

Physical Specifications 4242 Volts(DC) 71% min. / 76% typ. / 85% max CISPR-22 Class B @ 220VAC FCC PART-15 Class B @ 110VAC

Size Construction Weight

Output Specifications

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity EMI MTBF Efficiency Level

Voltage and Current Output Power Range Load Regulation (230Vin) Line Regulation Transient Response Temperature Coefficient Ripple/Noise (FL, 90Vin) Short Circuit Protection Start Up / Hold Up Time

0 to +40°C (FL) * 50% Load @ 70°C (See Derate Curve) -40 to +85°C * 5% to 95%, non-cond * 110Vin: FCC Part 15 Class B 220Vin: CISPR-22 Class B 100,000 Hrs V

See Selection Charts 0 to FL Rating ± 3%, typ. ± 1%, max. 100Vin, FL to 1/2L 4mS ±0.04%/°C, typ 1% Pk-Pk max. Continuous * 100Vin, FL 3S max. / 5 mS min.

All specifications are typical at nominal input, full load, and 25°C unless otherwise noted

Input Specifications Input Voltage Range Frequency Range Input Current Inrush Current, typ (Cold Start) Leakage Current No Load Power Consumption

2.36” x 1.81” x 1.58” Wallmount Style 5.8oz (165g)

90-264 VAC 47-63 Hz Low Line (115VAC) 0.4A High Line (230VAC) 0.26A Low Line (115VAC) 40A max. High Line (230VAC) 80A max. 0.25mA max. @ 240 VAC, FL 0.3W max.

* These are stress ratings. Exposure of the devices to any of these conditions may adversely affect long term reliability. Proper operation under conditions other than the standard operating conditions is neither warranteed nor implied.

Model Number

Rated Power

Output Voltage

Output Amps

Total Regulation

VPU15-102 VPU15-103 VPU15-104 VPU15-105 VPU15-106 VPU15-107 VPU15-108 VPU15-109 VPU15-110

12 12 15 15 15 15 15 15 15

5V 6V 10V 12V 15V 18V 24V 30V 36V

2.4A 2.0A 1.5A 1.25A 1.0A 0.83A 0.62A 0.5A 0.41A

5% 5% 5% 5% 5% 5% 5% 5% 3%

VPU15-111

48V

0.31A

Note: The Interchangeable Input Plugs are sold separately. See the Mechanical Dimensions for the styles offered and Model Numbers. Contact Sales for pricing.

326

VPU15 series 15 Watt Interchangeable Wallmount Switching Power Adapters External

Mechanical Dimensions * (Model # VPU-US)

(Model # VPU-EU)

*NOTE: Input Plugs Sold Separately

(Model # VPU-UK)

(Model # VPU-AU)

DC Output Connections VPU15-102~104 Output Cord Length 48” 18AWG VPU15-105~111 Output Cord Length 48” 20AWG

Coaxial Plug 5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+”

-Vout

+Vout

Derating Curve

327

VPU26 series 25 Watt Interchangeable Wallmount Switching Power AdaptersAdapters External

Universal 90-264VAC Input

3000V Isolation

Interchangeable US, UK, AU, EU Plugs for Worldwide Applications (Sold Separately)

Class II

Single Outputs from 5 to 48VDC

LPS Efficiency Level V

General Specifications Isolation Isolation Resistance Efficiency (FL, 230Vin) Safety

Physical Specifications I/P - O/P: 3000 VAC 50 MΩ min. 82%, typ. (c)UL60950-1, EN60950-1

Size Construction Weight

Output Specifications

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity EMI MTBF Efficiency Level

2.95” x 1.81” x 1.58” Wallmount Style 7.05oz (200g)

Voltage and Current Output Power Range Load Regulation (230Vin) Line Regulation Transient Response Temperature Coefficient Ripple/Noise (FL, 90Vin) Short Circuit Protection Start Up / Hold Up Time

0 to +40°C (FL) * 50% Load @ 70°C (See Derate Curve) -40 to +85°C * 5% to 95%, non-cond * 110Vin: FCC Part 15 Class B 220Vin: CISPR-22 Class B 100,000 Hrs V

See Selection Charts 0 to FL Rating ± 3%, typ. ± 1%, max. 100Vin, FL to 1/2L 4mS ±0.04%/°C, typ 1% Pk-Pk max. Continuous * 100Vin, FL 3S max. / 8 mS min.

Input Specifications Input Voltage Range Frequency Range Input Current Inrush Current, typ (Cold Start) Leakage Current No Load Power Consumption

328

90-264 VAC 47-63 Hz Low Line (115VAC) 0.4A High Line (230VAC) 0.25A Low Line (115VAC) 50A max. High Line (230VAC) 100A max. 0.75mA max. @ 240 VAC, FL 0.3W max.

Model Number

Rated Power

VPU26-102 VPU26-103 VPU26-104 VPU26-105 VPU26-106 VPU26-107 VPU26-108 VPU26-109 VPU26-110 VPU26-111

16.5 20 22 25 25 25 25 25 25 25

Output Voltage

Output Amps

Total Regulation

5V 3.3A 5% 6V 3.33A 5% 10V 2.2A 5% 12V 2.08A 5% 15V 1.66A 5% 18V 1.39A 5% 24V 1.04A 3% 30V 0.83 3% All specifications are typical at nominal input, full load, and 25°C unless 36V 0.69A 3% otherwise noted 48V 0.52A 2%

These are stressDimensions ratings. Exposure of theoffered devicesand to any of these Note: The Interchangeable Input Plugs are sold separately. See* the Mechanical for the styles Model Numbers. conditions may adversely affect long term reliability. Proper operation Contact Sales for pricing. under conditions other than the standard operating conditions is neither warranteed nor implied.

VPU26 series 25 Watt Interchangeable Wallmount Switching Power AdaptersAdapters External

Mechanical Dimensions * (Model # VPU-EU)

(Model # VPU-US)

(Model # VPU-UK)

(Model # VPU-AU)

DC Output Connections VPU26-102~106 Output Cord Length 48” 16AWG VPU26-107~111 Output Cord Length 48” 18AWG *NOTE: Input Plugs Sold Separately

Coaxial Plug 5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+”

-Vout

+Vout

Derating Curve

329

VPU40 series 40W Desktop Switching Power Supplies External

Universal 90-264VAC Input

3000V Isolation

2 Input Receptacle Options

Class I

Single Outputs from 5 to 48VDC

LPS Efficiency Level V (Most Models)

General Specifications Input-Out Isolation Input-Ground Isolation Isolation Resistance Efficiency (FL, 230Vin) Safety Efficiency Level V

Physical Specifications 3000 VAC 1500VAC 50 Mohm min. 87%, typ (c)UL60950-1; EN60950-1 SPU40-104~111 Only

Size Construction Weight

Output Specifications Voltage and Current Output Power Range Load Regulation (230Vin) Line Regulation Transient Response Temperature Coefficient Ripple/Noise Over Current Protection Start Up / Hold Up Time

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity EMC MTBF

0 to +40°C (FL) * 50% Load @ 70°C (See Derate Curve) -40 to +85°C * 5% to 95%, non-cond * 110Vin: FCC Part 15 Class B 220Vin: CISPR-22 Class B 100,000 Hrs

See Selection Charts 0 to FL Rating +/- 7%, max. +/- 1%, max. 100Vin, FL to 1/2L 4mS +/-0.04%/°C, typ FL, 90Vin 1% Pk-Pk, max. 110-150% * 100Vin, FL 3S max. / 10mS min.

All specifications are typical at nominal input, full load, and 25°C unless otherwise noted

Input Specifications Input Voltage Range Frequency Range Input Current Inrush Current, typ (Cold Start) Leakage Current

4.21” x 1.85” x 1.19” Desktop Style 9.88oz (280g)

90-264 VAC (Universal) 47-63 Hz Low Line (115VAC) 0.8A High Line (230VAC) 0.52A Low Line (115VAC) 35A max. High Line (230VAC) 70A max. 0.75mA MAX. @ 240 VAC, FL

Model Number

Rated Power

Output Voltage

Output Amps

Total Regulation

*VPU40 (A or B)-102 *VPU40 (A or B)-103 *VPU40 (A or B)-104 *VPU40 (A or B)-105 *VPU40 (A or B)-106 *VPU40 (A or B)-107 *VPU40 (A or B)-108 *VPU40 (A or B)-109 *VPU40 (A or B)-110 *VPU40 (A or B)-111

25 30 35 40 40 40 40 40 40 40

5V 6V 10V 12V 15V 18V 24V 30V 36V 48V

5A 5A 3.5A 3.33A 2.66A 2.22A 1.66A 1.33A 1.11A 0.83A

5% 5% 5% 5% 5% 3% 3% 3% 3% 3%

Note: The Asterisk * denotes a choice of AC input connectors (A or B option; i.e. VPU40B-102). Please see Mechanical Dimensions. If not denoted, option “A” IEC-320-C14 connector is used. Low cost 3 Wire IEC320/C13 (Part Number ACCRD-C13) and 2 Wire IEC320/C7 (Part Number ACCRD-C7) Input Power Cords are available for these products. Inquire to the Astrodyne Sales Depart.

330

VPU40 series Mechanical Dimensions Coaxial Plug:

External

40W Desktop Switching Power Supplies

5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center “+” -Vout

+Vout

VPU40x-102~105 16AWG, 4’ Long VPU40x-106~108 18AWG, 4’ Long VPU40x-106~108 18AWG, 6’ Long

Derating Curve

331

VPU60 series 60W Desktop Switching Power Supplies External

Universal 90-264VAC Input

3000V Isolation

IEC-320-C14 Input Inlet

Class I

Single Outputs

LPS Efficiency Level V

General Specifications Input-Out Isolation Input-Ground Isolation Isolation Resistance Efficiency (FL, 230Vin) Safety - PENDING

Physical Specifications 3000 VAC 1500VAC 50 Mohm min. 87%, typ (c)UL60950-1; EN60950-1

Size Construction Weight

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity EMC MTBF Efficiency Level

0 to +40°C (FL) * 50% Load @ 70°C (See Derate Curve) -40 to +85°C * 5% to 95%, non-cond * 110Vin: FCC Part 15 Class B 220Vin: CISPR-22 Class B 100,000 Hrs V

See Selection Charts 0 to FL Rating +/- 5%, max. +/- 1%, max. 100Vin, FL to 1/2L 4mS +/-0.04%/°C, typ FL, 90Vin 1% Pk-Pk, max. 110-150% * 100Vin, FL 2S max. / 10mS min.

All specifications are typical at nominal input, full load, and 25°C unless otherwise noted

Input Specifications Input Voltage Range Frequency Range Input Current

4.65” x 1.85” x 1.19” Desktop Style 12oz (340g)

90-264 VAC (100-240 Nominal) 47-63 Hz Low Line (115VAC) 1.6A High Line (230VAC) 0.7A

Model Number

Rated Power

Output Voltage

Output Amps

Total Regulation

*VPU60A-105 *VPU60A-106 *VPU60A-107 *VPU60A-108 *VPU60A-109 *VPU60A-110 *VPU60A-111

60 60 60 60 60 60 60

12V 15V 18V 24V 30V 36V 48V

5A 4A 3.33A 2.5A 2.0A 1.66A 1.25A

5% 5% 5% 3% 3% 3% 3%

Note: Low cost 3 Wire IEC320/C13 (Part Number ACCRD-C13) Input Power Cords are available for these products. Inquire to the Astrodyne Sales Depart.

332

VPU60 series Mechanical Dimensions Coaxial Plug:

External

60W Desktop Switching Power Supplies

5.5mm outer diameter 2.1mm inner diameter, female 11mm length, center â&#x20AC;&#x153;+â&#x20AC;? -Vout

+Vout

Derating Curve

333

ENCLOSED power supplies Enclosed switching power supplies offer flexible system-power solutions for industrial, instrumentation, medical, networking and telecom applications. Although these supplies offer similar functionality to open-frame and other power supply styles, they typically provide higher power levels with ratings ranging from a few tens of watts up to a kilowatt or more. Some models offer parallel operation for even higher power output. The metal enclosure on these supplies serves two purposes. It prevents exposure to high voltages present within the supply, while also enhancing cooling of the power supply. Enclosed switching power supplies typically operate from a universal ac input and generate well-regulated, single or multiple dc outputs. Power conversion efficiencies commonly fall in the 75% to 88% range.

Enclosed

When selecting an enclosed power supply consider the following criteria as they relate to your application requirements: Output Voltage (V) and Current (A). Application requirements for supply voltage vary widely. To accommodate these needs, enclosed supplies offer either single or multiple output voltages, typically in the range of 3.3 to 48 Vdc. Note that power supply output voltages are specified at the nominal values, but can typically be adjusted within a Âą10% trim range. When determining the supply-voltage levels required in an application, note the current levels that will be required at each voltage. Power rating (W). If only a single supply voltage is needed, the power rating required of the supply will simply be the supply voltage times the maximum current required in the application. If multiple outputs are needed, add up the voltage-times-current products for all of the supply voltages to determine the power rating. Good engineering practice dictates that you select a power supply model with a rating that provides some design margin. Serviceability. The presence of an enclosure and the use of screw-terminal connections for inputs and outputs prevents user access to high-voltage circuitry within the power supply. This safety measure is desirable in some applications. Form factor/Mounting. The space available in your application may impose limits on power supply size and packaging. In general, power supply size scales with power rating, but not always. Some power ratings are available in different package sizes, reflecting the fact that newer models often take advantage of improved performance to achieve smaller form factors. For screw-mount assembly into an external chassis, enclosed supplies feature tapped holes on two surfaces, permitting a choice of mounting orientations. Thermal management. Within the supply, power semiconductors are often mounted to the enclosure, which in turn mounts to an external chassis. As a result of this assembly, there is a direct path for heat conduction from the internal power supply components to the chassis. Because of its typically large surface area, the chassis may serve as an effective heat sink, allowing for the possibility of convection cooling in the application. Consider ambient temperature range in your application and power supply thermal ratings to determine if convection cooling may be adequate in your application. Forced air cooling. Among enclosed power supplies, some models with higher power ratings include built-in fans for cooling the supply. At lower power ratings, enclosed supplies typically feature vented enclosures that allow for forced-air cooling via an external fan. So consider airflow conditions in your application along with ambient temperature range and power supply thermal ratings. Harmonic current limits. Power supplies rated for 75 VA or greater output are subject to EN61000-3-2 limits on harmonic currents on the input of the supply. Units that feature active power factor correction will generally comply with this international standard. Electromagnetic Compliance (EMC). Open-frame power supplies are typically designed to meet radiated and conducted emission requirements established in the EN61000 and EN55022 standards. However, having these EMC certifications on the power supply does not guarantee system compliance for the end product. Safety Standards. Open-frame power supplies typically meet UL60950-1 and EN60950-1 safety standards as tested and reported in accordance with the IECEE CB scheme. In addition, these supplies generally carry the CE mark, indicating compliance with the Low Voltage Directive (LVD) as required for sale of the supplies within the European Union. Feature set. Enclosed power supplies with high power ratings also have high output-current capability. In the application, heavy load currents combined with long interconnects can lead to voltage drops and loss of voltage regulation at the load. To compensate, some enclosed supplies feature remote voltage sensing.

334

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USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458 8

PV15 series Compact 15 WATT Enclosed Switching Power Supplies Universal 90-264VAC Input Compact Footprint High Efficiency Regulated Outputs 3000V Isolation

Enclosed

Unit Measures 2.59”W x 1.98”L x 1.1”H

Built in EMI Filter

Input Specifications Input Voltage Range AC/DC Frequency Range Inrush Current, typ:

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity EMC

90-264 VAC / 125-370 VDC 47-63 Hz 20A @ 120VAC Input * 40A @ 220VAC Input *

-20 to +70°C (See Derate) -20 to +85°C * 0% to +95%, non-cond * EN55022 Class B EN61000-3-2,3 EN61000-4-2,3,4,5,6,8,11 ENV50204

Output Specifi cations OUTPUT SPECIFICATIONS Voltage and Current Load Regulation (20% to 100%) Line Regulation Preset Accuracy DC Voltage Adjust (typ) Temperature Coefficient Ripple/Noise Over Voltage Protection Short Circuit Protection Hold Up Time

See Selection Chart ± 0.5%, typ.; 1% max. ± 0.5%, typ.; 1% max. 1%, typ ± 10% ± 0.03%/°C (0-50°C, typ.) See Selection Chart Clamp * Latching, recoverable after cooling and re-power 16mS, typ (Nom I/P, FL)

Physical Specifi cations PHYSICAL SPECIFICATIONS Size Construction Weight

DERATE CURVE Output Derating Curve

100 80

Efficiency Switching Frequency Safety Approvals

Load (%)

General Specifi cations GENERAL SPECIFICATIONS Isolation

I/P-O/P: 3000VAC I/P-Ground: 1500VAC O/P-Ground 500VAC See Selection Chart 65Khz, (fixed, typical) UL60950-1, EN60950-1

2.59” x 1.98” x 1.1” (66mm x 50.4mm x 28mm) Enclosed 0.275 lb, (125g)

60 40 20 -20 10 20 30 40 50 60 70

*Please see page 4 for Waiver of Liability Statement

Ambient Temp. (°C)

Model Number

Output Voltage

Output Amps (max) Ripple/Noise pp,typ

Efficiency

PV15-5S PV15-12S PV15-15S PV15-24S PV15-48S

5 VDC 12 VDC 15 VDC 24 VDC 48 VDC

3 1.25 1 0.63 0.32

77% 80% 80% 80% 80%

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80mV 120mV 120mV 120mV 120mV

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335

PV15 series Compact 15 WATT Enclosed Switching Power Supplies

Mechanical Dimensions

Enclosed Use M3 Screws

[2.598] 66 mm

L [AC] N

ACL ACN

-Vo +Vo

336

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-V +V

[2.008] 51 mm

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RS25 series 25W Single Output Switching Power Supply Universal AC input Protections:Short circuit/Over load/Over voltage Cooling by free air convection LED indicator for power on

Enclosed

All using 105°C long life electrolytic capacitors High efficiency, long life and high reliability

Output Specifications

Input Specifications

Environmental Specifications

Note Physical Specifications

Model Number

Output Volts

Output Amps

Ripple & Noise

Min Load

SINGLE OUTPUT RS25-3.3 RS25-5 RS25-12 RS25-15 RS25-24 RS25-48

3.3 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 48 Volts(DC)

6 Amps 5 Amps 2.1 Amps 1.7 Amps 1.1 Amps 0.57 Amps

80mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 200mV pk-pk

0~6Amps 0~5Amps 0~2.1Amps 0~1.7Amps 0~1.1Amps 0~0.57Amps

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DC Volt Adjust

2.85~3.6Volt(DC) 4.75~5.5Volt(DC) 10.8~13.2Volt(DC) 13.5~16.5Volt(DC) 22~27.6Volt(DC) 42~54Volt(DC)

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Load Reg Volt Tolerance

±2.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5%

±3.0% ±2.0% ±1.0% ±1.0% ±1.0% ±1.0%

337

RS25 series 25W Single Output Switching Power Supply

General Specifications

Enclosed

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

338

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RS25 series 25W Single Output Switching Power Supply

Enclosed

Block Diagram

Output Derating Curve

Static Characteristics (24V)

Notes

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339

RS/RD35 series 35W Single/Dual Switching Power Supply Universal AC input Protections:Short circuit/Over load/Over voltage LED indicator for power on All using 105°C long life electrolytic capacitors High efficiency, long life and high reliability

Enclosed

Input Specifications

General Specifications

Environmental Specifications

Model Number

Output Volts

SINGLE OUTPUT RS35-3.3 3.3 Volts(DC) RS35-5 5 Volts(DC) RS35-12 12 Volts(DC) RS35-15 15 Volts(DC) RS35-24 24 Volts(DC) RS35-48 48 Volts(DC)

Model Number DUAL OUTPUT RD-35A RD-35B RD-3513

340

Output Amps

7 Amps 7 Amps 3.0 Amps 2.4 Amps 1.5 Amps 0.8 Amps

Output Volts

Output Amps

5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC) 13.5 Volts(DC) -13.5 Volts(DC)

4 Amps 1 Amps 2.2 Amps 1 Amps 1.3 Amps 1.3 Amps

Ripple & Noise

Min Load

DC Volt Adjust Load Reg Volt Tolerance

80mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 200mV pk-pk

0~7Amps 0~7Amps 0~3Amps 0~2.4Amps 0~1.5Amps 0~0.8Amps

2.9~3.6Volt(DC) 4.5~5.5Volt(DC 10.8~13.2Volt(DC 13.5~16.5Volt(DC 22~27.6Volt(DC) 42~54Volt(DC)

Ripple & Noise

Min Load

Line Reg

Load Reg

±0.5% ±1.5% ±0.5% ±1.0% ±0.5% ±0.5%

±0.5% ±3.0% ±0.5% ±2.0% ±3.0% ±3.0%

80mV pk-pk 120mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk

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0.3~4Amps 0.2~1Amps 0.3~4Amps 0.2~1.3Amps 0.3~2Amps 0.2~1.5Amps

±2.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5%

±3.0% ±2.0% ±1.0% ±1.0% ±1.0% ±1.0%

Volt Tolerance

±2.0% ±6.0% ±2.0% ±5.0% ±4.0% ±4.0%

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RS/RD35 series 35W Single/Dual Switching Power Supply

Output Specifications

Physical Specifications

Enclosed

Note

*Please see page 4 for Waiver of Liability Statement

Output Derating Curve - RS35

100

80 Load (%)

Load (%)

Output Derating Curve - RD35

60 40 20 -25 -25

Others

3.3V, 5V

40 20

0 0

HORIZONTAL

-25 -25

0 0

Ambient Temp. (°C)

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HORIZONTAL

Ambient Temp. (°C)

341

RS/RD35 series 35W Single/Dual Switching Power Supply Unit:mm

Mechanical Dimensions - RD35

Enclosed 342

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RS/RD35 series 35W Single/Dual Switching Power Supply Unit:mm

Enclosed

Mechanical Dimensions - RS35

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343

R50 series 50W Enclosed Style Switching Power Supply Universal AC input

All using 105°C long life electrolytic capacitors

Protections:Short circuit/Over load/Over voltage

High efficiency, long life and high reliability

Cooling by free air convection

Isolated Output (RID Versions)

LED indicator for power on

Enclosed

Model Number

Output Volts

Output Amps Ripple & Noise

Min Load

SINGLE OUTPUT RS50-3.3 RS50-5 RS50-12 RS50-15 RS50-24 RS50-48

3.3 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 48 Volts(DC)

10 Amps 10 Amps 4.2 Amps 3.4 Amps 2.2 Amps 1.1 Amps

80mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 200mV pk-pk

0~10Amps 0~10Amps 0~4.2Amps 0~3.4Amps 0~2.2Amps 0~1.1Amps

±0.5% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5%

±2.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5%

72% 78% 81% 83% 84% 86%

±3.0% ±2.0% ±1.0% ±1.0% ±1.0% ±1.0%

5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC) 5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC)

6 Amps 2 Amps 4 Amps 1.4 Amps 6 Amps 2 Amps 4 Amps 1.4 Amps

80mV pk-pk 120mV pk-pk 80mV pk-pk 150mV pk-pk 80mV pk-pk 120mV pk-pk 80mV pk-pk 150mV pk-pk

0.3~6Amps 0.3~3Amps 0.3~6Amps 0.2~2.0Amps 0.3 ~ 6Amps 0.2 ~ 3Amps 0.3 ~ 6Amps 0.2 ~ 2Amps

±0.5% ±1.5% ±0.5% ±1.5% ±0.5% ±1.5% ±0.5% ±1.5%

±0.5% ±3.0% ±0.5% ±3.0% ±0.5% ±0.5% ±0.5% ±0.5%

79%

± 2.0% ±7.0% ±2.0% -4,+8% ± 2.0% ± 8.0% ± 2.0% ± 8,-4%

TRIPLE OUTPUT RT-50A 5 Volts(DC) 12 Volts(DC) -5 Volts(DC) RT-50B 5 Volts(DC) 12 Volts(DC) -12 Volts(DC) RT-50C 5 Volts(DC) 15 Volts(DC) -15 Volts(DC) RT-50D 5 Volts(DC) 24 Volts(DC) 12 Volts(DC)

4 Amps 2 Amps 0.5 Amps 4 Amps 2 Amps 0.5 Amps 4 Amps 1.5 Amps 0.5 Amps 3 Amps 1 Amps 1 Amps

80mV pk-pk 120mV pk-pk 100mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 80mV pk-pk 150mV pk-pk 120mV pk-pk

0.5~5Amps 0.2~2.5Amps 0.1~1Amps 0.5~5Amps 0.2~2.5Amps 0.1~1Amps 0~5Amps 0.2~2Amps 0.1~1Amps 0.5~5Amps 0.2~1.5Amps 0.1~1Amps

±0.5% ±1.5% ±0.5% ±0.5% ±1.5% ±0.5% ±0.5% ±1.5% ±0.5% ±0.5% ±2.0% ±2.0%

±1.0% ±3.0% ±1.0% ±1.0% ±3.0% ±1.0% ±1.0% ±3.0% ±1.0% ±1.0% ±3.0% ±4.0%

5.0 Amps 1.0 Amps 0.5 Amps 0.5 Amps 5.0 Amps 1.0 Amps 0.5 Amps 0.5 Amps 3.0 Amps 0.9 Amps 0.9 Amps 0.5 Amps

80mVpk-pk 120mVpk-pk 100mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 100mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 180mVpk-pk 80mVpk-pk

0.5~6Amps 0.2~1.5Amps 0~1.0Amps 0~1.0Amps 0.5~6Amps 0.2~1.5Amps 0~1.0Amps 0~1.0Amps 0.5~6Amps 0.2~1.5Amps 0.1~1.0Amps 0~1.0Amps

±0.5% ±1.5% ±0.5% ±0.5% ±0.5% ±1.5% ±0.5% ±0.5% ±0.5% ±1.5% ±2.0% ±0.5%

±0.5% ±3.0% ±1.0% ±1.0% ±0.5% ±3.0% ±1.0% ±1.0% ±0.5% ±3.0% ±3.0% ±1.0%

DUAL OUTPUT RD-50A RD-50B RID-50A RID-50B

QUAD OUTPUT RQ-50B

RQ-50C

RQ-50D

344

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) -5 Volts(DC) -15 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) -12 Volts(DC)

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Line Reg

Load Reg

Efficiency Tolerance

80% 80% 80%

77%

78%

80%

74%

75%

79%

±2.0% ±6.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% +8,-4% ±2.0% ±2.0% +8,-4% ±6.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±7,-5% ±2.0%

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R50 series 50W Enclosed Style Switching Power Supply

Input Voltage Range Frequency Range Inrush Current, typ: (cold start) Input Current Leakage current

Environmental Specifications 90 ~ 264 VAC; 125~373 Volts(DC) 47-63 Hz 36Amps / 230VAC max. 1.3 Amps. @ 115VAC 0.8 Amps. @ 230VAC < 2mAmps /240VAC

Output Specifications Min Load Voltage and Current Line Regulation (Note 3) Load Regulation (Note 4) Voltage Tolerance (Note 2) Ripple/Noise (Note 1) Hold Up Time @ FL Setup, Rise Time @ FL Over Voltage Protection (RD, RID, RT, RQ 5V O/P Only)

Over Current Protection DC Volt Adjust

See Selection Chart See Selection Chart See Selection Chart See Selection Chart See Selection Chart See Selection Chart 60mS/230VAC typ. 10mS/115VAC typ. 500ms, 20m/230VAC 1200mS, 30mS/115VAC 3.8 ~ 4.45Volt(DC): 3.3Volts(DC) 5.75 ~ 6.75Volt(DC): 5Volts(DC) 13.8 ~ 16.2Volt(DC): 12Volts(DC) 17.25 ~ 20.25Volt(DC): 15Volts(DC) 27.6~ 32.4Volt(DC): 24Volts(DC) 55.2~ 64.8Volt(DC): 48Volts(DC) Hiccup mode, auto recover 110 ~ 150% rated output power Hiccup mode, auto recover ±9%, typ.

Oper. Temperature Storage Temperature Relative Humidity Temperature Coefficient MTBF (RS50) (RD, RID50) (RT, RQ50) Vibration

-25°C to +70°C (See Derate Curve) -40°C to +85°C, 10~95% RH 20~90% RH non cond ±0.03% / °C (0-50°C) 228KHrs min,MIL-HDBK-217F(25°C) 172.6KHrs min, MIL-UDBK-217F(25°C) 169.2KHrs min, MIL-HDBK-217F(25 °C) 10~500Hz, 5G10min./1cycle, period for 60min. each along X, Y, Z axes

Note

Enclosed

Input Specifications

1. Ripple & noise are measured at 20MHz of bandwidth by using a 12” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor. 2. Tolerance : includes set up tolerance, line regulation and load regulation. 3. Line regulation is measured from low line to high line at rated load. 4. Load regulation is measured from 0% to 100% rated load. *Please see page 4 for Waiver of Liability Statement

Output Derating Curve - RS, RT50

General Specifications Safety Insulation Resistance Harmonic Current Efficiency Isolation

UL60950-1, TUV EN60950-1 Approved 100M / 500Volts(DC) Compliance to EN61000-3-2,-3 See Selection Chart 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground Compliance to EN61000-4-2, 3, 4, 5, 6, 8, 11; ENV50204,EN61000-6-2(EN50082-2) heavy Industry Level, Criteria A

EMS

Output Derating VS Input Voltage

Physical Specifications Size Millimeters Inches Weight

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99 x 97 x 36 3.90” x 3.23 ” x 3.82 ” 14.46 oz (410g)

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345

R50 series 50W Enclosed Style Switching Power Supply

Mechanical Dimensions

Enclosed RQ50

RT50

RID50 RD50

346

RS50

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R50 series 50W Enclosed Style Switching Power Supply

Enclosed

Block Diagram - RD50

Output Derating Curve - RD, RID, RQ50

Notes

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347

R65 series 65W Enclosed Style Switching Power Supply Universal AC input Protections: Short circuit/Over load/Over voltage Cooling by free air convection LED indicator for power on All using 105°C long life electrolytic capacitors

Enclosed

High efficiency, long life and high reliability

Model Number DUAL OUTPUT RD-65A RD-65B RID-65A RID-65B TRIPLE OUTPUT RT-65A

RT-65B

RT-65C

RT-65D

QUAD OUTPUT RQ-65B

RQ-65C

RQ-65D

348

Output Volts

Output Amps

5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC) 5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC)

6 Amps 3 Amps 4 Amps 2 Amps 6 Amps 3 Amps 4 Amps 2 Amps

5 Volts(DC) 12 Volts(DC) -5Volts(DC) 5Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) -15 Volts(DC) 5 Volts(DC) 24 Volts(DC) 12 Volts(DC)

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) -12Volts(DC) 5 Volts(DC) 15 Volts(DC) -5 Volts(DC) -15 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) -12 Volts(DC)

Ripple & Noise

Min Load

Line Reg

Load Reg

80mV pk-pk 120mV pk-pk 80mV pk-pk 150mV pk-pk 80mV pk-pk 120mV pk-pk 80mV pk-pk 150mV pk-pk

0.3~8Amps 0.2~4Amps 0.3~8Amps 0.2~3Amps 0.3 ~ 8Amps 0.2 ~ 4Amps 0.3 ~ 8Amps 0.2 ~ 3Amps

±0.5% ±1.5% ±0.5% ±2.0% ±0.5% ±1.5% ±0.5% ±2.0%

±0.5% ±3.0% ±0.5% ±4.0% ±0.5% ±5.0% ±0.5% ±5.0%

6 Amps 2.8 Amps 0.5 Amps 5.0 Amps 2.8 Amps 0.5 Amps 5.0 Amps 2.2 Amps 0.5 Amps 4.0 Amps 1.5 Amps 1.0 Amps

80mV pk-pk 120mV pk-pk 80mV pk-pk 80mV pk-pk 120mV pk-pk 80mV pk-pk 80mV pk-pk 120mV pk-pk 80mV pk-pk 80mV pk-pk 150mV pk-pk 120mV pk-pk

0.5~8Amps 0.2~3.5Amps 0~1Amps 0.5~8Amps 0.2~3.5Amps 0~1Amps 0.5~8Amps 0.2~3Amps 0~1Amps 0.5~8Amps 0.2~2Amps 0.1~1Amps

±0.5% ±1.5% ±0.5% ±0.5% ±1.5% ±0.5% ±0.5% ±1.5% ±0.5% ±0.5% ±1.5% ±2.0%

±1.0% ±3.0% ±1.0% ±1.0% ±3.0% ±1.0% ±1.0% ±3.0% ±1.0% ±1.0% ±3.0% ±4.0%

6.0 Amps 2.0 Amps 0.5 Amps 0.5 Amps 5.0 Amps 2.0 Amps 0.5 Amps 0.5 Amps 4.0 Amps 1.5Amps 1.0 Amps 0.5Amps

80mVpk-pk 120mVpk-pk 80mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 80mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 180mVpk-pk 80mVpk-pk

0.5~8.0Amps 0.2~3.0Amps 0~1.0Amps 0~1.0Amps 0.5~8.0Amps 0.2~3.0Amps 0~1.0Amps 0~1.0Amps 0.5~8.0Amps 0.2~3.0Amps 0.1~1.5Amps 0~1.0Amps

±0.5% ±1.5% ±0.5% ±0.5% ±0.5% ±1.5% ±0.5% ±0.5% ±0.5% ±1.5% ±2.0% ±0.5%

±0.5% ±3.0% ±1.0% ±1.0% ±0.5% ±4.0% ±1.0% ±1.0% ±0.5% ±3.0% ±5.0% ±1.0%

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Efficiency

79% 78% 81% 82%

77%

78%

80%

76% 76% 76% 76% 76% 76% 76% 76% 78% 78% 78% 78%

Tolerance

±2.0% ±6.0% ±2.0% +4,-6% ±2.0% ±8.0% ±2.0% ±10% ±2.0% ±6.0% ±5.0% ±2.0% ±6.0% ±5.0% ±2.0% +8,-4% ±5.0% ±2.0% +4,-6% ±6.0%

±2.0% +7,-5% ±5.0% ±5.0% ±2.0% +10,-4% ±5.0% ±5.0% ±2.0% ±6.0% ±8.0% ±5.0%

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R65 series 65W Enclosed Style Switching Power Supply

Input Voltage Range Frequency Range Inrush Current, typ: (cold start) Input Current Leakage current

90 ~ 264 VAC; 125~373 Volts(DC) 47-63 Hz 40Amps / 230VAC 2.0 Amps. @ 115VAC 1.2 Amps. @ 230VAC < 2mAmps /240VAC

O UTPUTSpecifi SPECcations IFICATIONS Output Voltage and Current (Note 5) Line Regulation (Note 3) Load Regulation (Note 4) Voltage Tolerance (Note 2) Ripple/Noise (Note 1) Hold Up Time @ FL

See Selection Chart See Selection Chart See Selection Chart See Selection Chart See Selection Chart 50mS/230VAC typ. 12mS/115VAC typ. 500mS, 20m/230VAC 1200mS, 30mS/115VAC 5Volts only: 5.75 ~ 6.75Volts(DC) Hiccup mode, auto recover 110 ~ 150% rated output power Hiccup mode, auto recover 5Volts only: 4.75 ~ 5.5Volts(DC)

Setup, Rise Time @ FL Over Voltage Protection Over Current Protection DC Volt Adjust

Environmental Specifications O

Oper. Temperature Storage Temperature Relative Humidity Temperature Coefficient ) MTBF ((R D, RID65) ((RT65) , ) ((RQ65)) Vibration

C C

O S

-25°C to +70°C (See Derate Curve) -40°C to +85°C, 10~95% 20~90% RH non cond 0.03% / °C (0-50°C) on +5V output ( ) 265.9 KHrs min,, MIL-UDBK-217F(25°C) 254.6 KHrs min,, MIL-HDBK-217F(25°C) ( ) ( ) 245.5 KHrs min, MIL-HDBK-217F(25°C) 10~500Hz, 5G10min./1cycle, period for 60min. each along X, Y, Z axes

Safety Insulation Resistance EMI Harmonic Current Efficiency (typ.) Isolation

EMS

UL60950-1, TUV EN60950-1 Approved 100M / 500Volts(DC) Compliance to EN55022 (CISPR22) Class B Compliance to EN61000-3-2,-3 See Selection Chart 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground Compliance to EN61000-4-2, 3, 4, 5, 6, 8,11; ENV50204, EN60601-1-2, EN61000-6-2 (EN50082-2) Heavy Industry Level, Criteria A

Enclosed

GENERASpecifi L SPECcations IFICATIONS General

Input Specifi cations INPUT SPECIFICATIONS

Physical Specifications Size Millimeters Inches Weight

129 x 98 x 38 5.07” x 3.85 ” x 1.50 ” 15.52 oz (440g)

Note 1. Ripple & noise are measured at 20MHz of bandwidth by using a 12” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor. 2. Tolerance: includes set up tolerance, line regulation and load regulation. 3. Line regulation is measured from low line to high line at rated load. 4. Load regulation is measured from 20% to 100% rated load, and other output at 60% rated load. 5. Each output can work within current range. But total output power can’t exceed rated output power. *Please see page 4 for Waiver of Liability Statement

Block Diagram

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349

R65 series 65W Enclosed Style Switching Power Supply

Mechanical Dimensions

RD65

Enclosed RID65

RT65

RQ65

Output Derating Curve - RT65, RQ65

100

Load (%)

Output Derating Curve - RD65, RID65

40 20 -25

20 0

VERTICAL

Ambient Temp. (°C)

350

-25

40 50

VERTICAL

Ambient Temp. (°C) www.astrodyne.com

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R65 series 65W Enclosed Style Switching Power Supply

Output Derating VS Input Voltage Ta=25°C

100 80 70

Enclosed

Load (%)

60 50 40 88 95 100 115 120 140 160 180 200 220 240 264 Input Voltage (VAC) 60Hz

Notes

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351

RS75 series 75W Single Output Switching Power Supply Universal AC input Protections:Short circuit/Over load/Over voltage Cooling by free air convection LED indicator for power on All using 105°C long life electrolytic capacitors

Enclosed

High efficiency, long life and high reliability

General Specifications

Input Specifications

Output Specifications

Environmental Specifications

352

Model Number

Output Volts

SINGLE OUTPUT RS75-3.3 RS75-5 RS75-12 RS75-15 RS75-24 RS75-48

3.3 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 48 Volts(DC)

Output Amps

15 Amps 12 Amps 6.0 Amps 5.0 Amps 3.2 Amps 1.6 Amps

Ripple & Noise

80mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 200mV pk-pk

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Min Load

0~15Amps 0~12Amps 0~6.0Amps 0~5.0Amps 0~3.2Amps 0~1.6Amps

DC Volt Adjust

3~3.6Volt(DC) 4.75~5.5Volt(DC) 10.8~13.2Volt(DC 13.5~16.5Volt(DC) 22~27.2Volt(DC) 42~54Volt(DC)

Load Reg Volt Tolerance

±2.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5%

±3.0% ±2.0% ±1.0% ±1.0% ±1.0% ±1.0%

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RS75 series 75W Single Output Switching Power Supply

Physical Specifications

Note

Enclosed

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

Output Derating Curve VS Input Voltage

Output Derating Curve

Ta=25°c 100

100

Others

Load (%)

80 3.3V, 5V

70 60 50

20 -25

90 80

40 0

Horizontal

88 95 100 110 120140 160 180 200220 240 264

Ambient Temp. (°C)

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Input Voltage (VAC) 60Hz

353

R85 series 85W Enclosed Style Switching Power Supply Universal AC input Protections:Short circuit/Over load/Over voltage Cooling by free air convection LED indicator for power on All using 105°C long life electrolytic capacitors

Enclosed

High efficiency, long life and high reliability Isolated Output (RID85)

Model Number SINGLE OUTPUT RID-85A RID-85B DUAL OUTPUT RD-85A RD-85B TRIPLE OUTPUT RT-85A

RT-85B

RT-85C

RT-85D

Output Volts

Output Amps

Ripple & Noise

Min Load

Line Reg Load Reg Efficiency Tolerance

5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC)

8 Amps 4 Amps 8 Amps 2 Amps

80mV pk-pk 120mV pk-pk 80mV pk-pk 120mV pk-pk

2.0~10Amps 0.3~5Amps 2~10Amps 0.3~5Amps

±0.5% ±1.0% ±0.5% ±1.0%

±1.0% ±3.0% ±1.0% ±5.0%

80%

5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC)

8 Amps 4 Amps 8 Amps 2 Amps

80mV pk-pk 120mV pk-pk 80mV pk-pk 120mV pk-pk

2.0~10Amps 0.3~5Amps 2~10Amps 0.3~2.5Amps

±0.5% ±1.0% ±0.5% ±1.0%

±1.0% ±3.0% ±1.0% ±3.0%

78%

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) -15 Volts(DC) 5 Volts(DC) 24 Volts(DC) 12 Volts(DC)

8.0 Amps 3.5 Amps 0.5 Amps 8.0 Amps 3.5 Amps 0.5 Amps 7.0 Amps 3.0 Amps 0.5 Amps 6.0 Amps 2.0 Amps 1.0 Amps

80mV pk-pk 120mV pk-pk 100mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 80mV pk-pk 150mV pk-pk 120mV pk-pk

2~10Amps 0.3~4Amps 0~1Amps 2~10Amps 0.3~4Amps 0~1Amps 2~10Amps 0.3~4Amps 0~1Amps 2~10Amps 0.3~2.5Amps 0.1~1Amps

±0.5% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0%

±1.0% ±3.0% ±6.0% ±1.0% ±3.0% ±6.0% ±1.0% ±3.0% ±6.0% ±1.0% ±3.0% ±6.0%

76%

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) -12Volts(DC) 5Volts(DC) 15 Volts(DC) -5 Volts(DC) -15 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) -12 Volts(DC)

7.0 Amps 3.1 Amps 0.5 Amps 0.5 Amps 7.0 Amps 2.5 Amps 0.5 Amps 0.5 Amps 6.0 Amps 2.0 Amps 1.0 Amps 0.5 Amps

80mVpk-pk 120mVpk-pk 100mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 100mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 150mVpk-pk 80mVpk-pk

2.0~10Amps 0.3~4.0Amps 0~1.0Amps 0~1.0Amps 2.0~10Amps 0.3~4.0Amps 0~1. Amps 0~1.0Amps 2.0~10Amps 0.3~4.0Amps 0.1~1.5Amps 0~1.0Amps

±0.5% ±1.0% ±1.0% ±1.0% ±0.5% ±1.0% ±6.0% ±1.0% ±0.5% ±1.0% ±1.0% ±1.0%

±1.0% ±3.0% ±6.0% ±2.0% ±1.0% ±3.0% ±8.0% ±2.0% ±1.0% ±3.0% ±5.0% ±2.0%

81%

80%

76%

77%

79%

±2.0% ±8.0% ±2.0% ±5.0% ±2.0% ±5.0% ±2.0% ±5.0% ±2.0% ±5.0% ±6.0% ±2.0% ±5.0% ±6.0% ±2.0% +3,-7% ±6.0% ±2.0% ±5.0% ±6.0%

QUAD OUTPUT RQ-85B

RQ-85C

RQ-85D

354

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76%

77%

78%

±2.0% +7,-3% ±8.0% ±5.0% ±2.0% +3,-7% ±8.0% ±5.0% ±2.0% +7,-3% +8.0% ±5.0%

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R85 series 85W Enclosed Style Switching Power Supply

General Specifications

Enclosed

Input Specifications

Output Specifications

Physical Specifications

Note Environmental Specifications

*Please see page 4 for Waiver of Liability Statement

Output Derating Curve

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Static Characteristics

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355

R85 series 85W Enclosed Style Switching Power Supply Unit:mm

Mechanical Dimensions - RD85 & RID85

Enclosed RID85

RD85

Block Diagram

356

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R85 series 85W Enclosed Style Switching Power Supply Unit:mm

Enclosed

Mechanical Dimensions - RT85 & RQ85

RT85

RQ85

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357

RS100 series 100W Single Output Switching Power Supply Universal AC input Protections:Short circuit/Over load/Over voltage Cooling by free air convection LED indicator for power on All using 105°C long life electrolytic capacitors

Enclosed

High efficiency, long life and high reliability

Input Specifications

General Specifications

Output Specifications

Environmental Specifications

358

Model Number

Output Volts

SINGLE OUTPUT RS-100-3.3 RS-100-5 RS-100-12 RS-100-15 RS-100-24 RS-100-48

3.3 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 48 Volts(DC)

Output Amps

20 Amps 16 Amps 8.5 Amps 7.0 Amps 4.5 Amps 2.3 Amps

Ripple & Noise

80mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 200mV pk-pk

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Min Load

0~20Amps 0~16Amps 0~8.5Amps 0~7.0Amps 0~4.5Amps 0~2.3Amps

DC Volt Adjust Load Reg Volt Tolerance

3.2~3.5Volt(DC) 4.75~5.5Volt(DC) 11.4~13.2Volt(DC 14.25~16.5Volt(DC) 22.8~26.4Volt(DC) 45.6~52.8Volt(DC)

±2.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5%

±3.0% ±2.0% ±1.0% ±1.0% ±1.0% ±1.0%

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RS100 series 100W Single Output Switching Power Supply

Physical Specifications

Notes

Enclosed

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

Output Derating Curve

Static Characteristics Ta=25°C

100

Others

Load (%)

80 3.3V, 5V

70 60 50 40

20 -25

90 80

(Vertical)

88 95 100 115 120140 160 180 200220 240 264

Ambient Temp. (°C)

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Input Voltage (VAC) 60Hz 359

R125 series 125W Enclosed Style Switching Power Supply Switch Selectable AC input Protections:Short circuit/Over load/Over voltage Cooling by free air convection LED indicator for power on All using 105°C long life electrolytic capacitors

Enclosed

High efficiency, long life and high reliability Isolated Output Model Number DUAL OUTPUT RD-125 RD-25B RD125-1224 RD125-1248 RD125-2448 RD125-2412 RD125-4812 RD125-4824 RID125-1205 RID125-2405 RID125-1224 RID125-1248 RID125-2448 TRIPLE OUTPUT RT-125A

RT-125B

RT-125C

RT-125D

Output Volts

Output Amps

5 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC) 12 Volts(DC) 24 Volts(DC) 12 Volts(DC) 48 Volts(DC) 24 Volts(DC) 48 Volts(DC) 24 Volts(DC) 12 Volts(DC) 48 Volts(DC) 12 Volts(DC) 48 Volts(DC) 24 Volts(DC) 12 Volts(DC) 5 Volts(DC) 24 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) 12 Volts(DC) 48 Volts(DC) 24 Volts(DC) 48 Volts(DC)

7.7 Amps 7.7 Amps 4.6 Amps 4.6 Amps 3.7 Amps 3.7 Amps 2.3 Amps 2.3 Amps 2.0 Amps 2.0 Amps 3.7 Amps 3.7 Amps 2.3 Amps 2.3 Amps 2.0 Amps 2.0 Amps 9.2 Amps 3 Amps 4.6 Amps 3.0 Amps 3.7 Amps 3.7 Amps 2.3 Amps 2.3 Amps 2.0 Amps 2.0 Amps

80mV pk-pk 120mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 200mV pk-pk 120mV pk-pk 240mV pk-pk 200mV pk-pk 240mV pk-pk 200mV pk-pk 120mV pk-pk 240mV pk-pk 120mV pk-pk 240mV pk-pk 240mV pk-pk 1200mV pk-pk 80mV pk-pk 120mV pk-pk 80mV pk-pk 120mV pk-pk 200mV pk-pk 120mV pk-pk 240mV pk-pk 200mV pk-pk 240mV pk-pk

2.0~15Amps 0.5~10Amps 2~10Amps 0.4~5Amps 1.0~7Amps 0.4~5Amps 1.0~7Amps 0.2~2.5Amps 0.5~4Amps 0.2~2.5Amps 0.5~5Amps 1.0~7Amps 0.3~2.5Amps 1.0~7Amps 0.3~2.5Amps 0.5~4Amps 1~7Amps 0.4~5Amps 1~7Amps 0.2~2.5Amps 0.5~4Amps 0.2~2.5Amps 2~10.5Amps 0~3Amps 2~5.3Amps 0~3Amps

12 Amps 5.5 Amps 1.0 Amps 12 Amps 5.0 Amps 1.0 Amps 10 Amps 4.5 Amps 1.0 Amps 8.0 Amps 3.0 Amps 2.0 Amps

80mV pk-pk 120mV pk-pk 80mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 80mV pk-pk 150mV pk-pk 150mV pk-pk 80mV pk-pk 150mV pk-pk 120mV pk-pk

2~15Amps 0.5~6Amps 0.1~1Amps 2~15Amps 0.5~6Amps 0.1~1Amps 2~15Amps 0.5~6Amps 0.1~1Amps 2~15Amps 0.4~4mps 0.1~2Amps

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) -15 Volts(DC) 5 Volts(DC) 24 Volts(DC) 12 Volts(DC)

Ripple & Noise

Min Load

Line Reg ±1.0% ±2.0% ±1.0% ±2.0% ±0.5% ±1.0% ±0.5% ±1.0% ±0.5% ±1.0% ±0.5% ±1.0% ±0.5% ±1.0% ±0.5% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5% ±1.0% ±0.5% ±1.0% ±0.5% ±1.0% ±0.5% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0%

Load Reg Efficiency ±3.0% ±4.0% ±3.0% ±4.0% ±1.0% ±5.0% ±1.0% ±5.0% ±1.0% ±3.0% ±1.0% ±5.0% ±1.0% ±5.0% ±1.0% ±5.0% ±1.0% ±2.0% ±1.0% ±2.0% ±1.0% ±5.0% ±1.0% ±5.0% ±1.0% ±3.0% ±1.0% ±3.0% ±6.0% ±1.0% ±3.0% ±6.0% ±1.0% ±3.0% ±6.0% ±1.0% ±3.0% ±6.0%

82% 85% 85% 86% 86% 85% 86% 86% 80% 83% 85% 85% 86%

79%

80%

81%

82%

Tolerance ±5.0% ±7.0% ±5.0% ±7.0% ±2.0% +8,-5% ±2.0% +8,-5% ±1.0% ±4.0% ±2.0% ±10% ±2.0% ±10% ±1.0% ±8.0% ±2.0% ±3.0% ±2.0% ±3.0% ±2.0% +8, -5% ±2.0% +8, -5% ±1.0% ±4.0% ±2.0% +8,-3% +6,-10% ±2.0% +8,-3% ±6.0% ±2.0% +8,-3% ±6.0% ±2.0% ±5.0% ±6.0% Continued

360

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R125 series 125W Enclosed Style Switching Power Supply

RQ-125B

RQ-125C

RQ-125D

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) -12Volts(DC) 5 Volts(DC) 15 Volts(DC) -5 Volts(DC) -15 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) -12 Volts(DC)

11 Amps 4.5 Amps 1.0 Amps 0.5 Amps 10 Amps 4.0 Amps 1.0 Amps 0.5 Amps 8.0 Amps 2.5 Amps 2.0 Amps 0.5 Amps

Input Specifications

80mVpk-pk 120mVpk-pk 80mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 80mVpk-pk 80mVpk-pk 80mVpk-pk 120mVpk-pk 150mVpk-pk 80mVpk-pk

2.0~12Amps 0.5~4.5Amps 0.1~1.0Amps 0~1.0Amps 2.0~12Amps 0.5~4.0Amps 0.1~1.0Amps 0~1.0Amps 2.0~12Amps 0.5~4.0Amps 0.1~2.5Amps 0~1.0Amps

±0.5% ±1.0% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0% ±1.0% ±0.5% ±1.0% ±1.0% ±1.0%

±1.0% ±3.0% ±6.0% ±2.0% ±1.0% ±3.0% ±6.0% ±2.0% ±1.0% ±3.0% ±5.0% ±2.0%

79% 79% 79% 79% 80% 80% 80% 80% 82% 82% 82% 82%

±2.0% +8-3% +6,10% ±5.0% ±2.0% +8,-3% +6,-10% ±5.0% ±2.0% +8,-3% +8.0% ±5.0%

Enclosed

QUAD OUTPUT

General Specifications

Output Specifications

Environmental Specifications

Physical Specifications

*Please see page 4 for Waiver of Liability Statement

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361

R125 series 125W Enclosed Style Switching Power Supply

Note

Enclosed

Mechanical Dimensions - RD, RID125

RID125

RD125

362

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R125 series 125W Enclosed Style Switching Power Supply

Enclosed

Mechanical Dimensions - RT, RQ125

RT125

RQ125

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363

R125 series 125W Enclosed Style Switching Power Supply

D, RT, RQ125 Block Diagram - RD, RT, RQ125

Enclosed

Block Diagram - RID125

Output Derating Curve - RD, RID125 100

Load (%)

80 60 40

Static Characteristics

20 -25 -25

0 0

Ta=25°C

100

VERTICAL HORIZONTAL

Load (%)

Ambient Temp. (°C)

Output Derating Curve - RT, RQ125 100

Load (%)

70 60 50 40

80 60

88 176

95 190

100 200

115 230

120 240

132 264

(Vertical) (Horizontal)

Input Voltage (VAC) 60Hz

20 -25 -25

90 80

0 0

VERTICAL HORIZONTAL

Ambient Temp. (°C)

364

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RS150 series 150W Single Output Switching Power Supply Switchable Selectable AC input Protections:Short circuit/Over load/Over voltage Cooling by free air convection LED indicator for power on

Enclosed

All using 105°C long life electrolytic capacitors High efficiency, long life and high reliability

Input Specifications

General Specifications

Output Specifications

Environmental Specifications

Model Number

Output Volts

SINGLE OUTPUT RS150-3.3 RS150-5 RS150-12 RS150-15 RS150-24 RS150-48

3.3 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 48 Volts(DC)

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Output Amps

30 Amps 26 Amps 12.5 Amps 10 Amps 6.5 Amps 3.3 Amps

Ripple & Noise

80mV pk-pk 80mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 200mV pk-pk

Min Load

0~30Amps 0~26Amps 0~12.5Amps 0~10Amps 0~6.5Amps 0~3.3Amps

USA: 1-800-823-8082 • Asia Pacific: 886-2-26983458

DC Volt Adjust Load Reg Volt Tolerance

3.2~3.5Volt(DC) 4.75~5.5Volt(DC) 11.4~13.2Volt(DC 14.25~16.5Volt(DC) 22.8~26.4Volt(DC) 45.6~52.8Volt(DC)

±2.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5%

±3.0% ±2.0% ±1.0% ±1.0% ±1.0% ±1.0%

365

RS150 series 150W Single Output Switching Power Supply

Physical Specifications

Notes

Enclosed

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

Static Characteristics

Output Derating Curve

Ta=25°C

100

Others

Load (%)

80 3.3V, 5V

0 0

(Vertical) (Horizontal)

88 176

95 190

100 200

115 230

120 240

132 264

(Vertical) (Horizon

Input Voltage (VAC) 60Hz

Ambient Temp. (°C)

366

70 50 40

20 -25 -25

90 80

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MK series 40, 75, 150, 320W Enclosed Switching Power Supplies Universal and Auto Ranging AC Inputs Compact Footprint

Regulated Outputs

High Efficiency

Built in EMI Filter

3000V Isolation

Output Specifications

Environmental Specifications

Enclosed

MK40

Physical Specifications

General Specifications Input Specifications

Model Number

Output Voltage

Output Amps (max)

Ripple/Noise pp,typ

MK40S-5 MK40S-12 MK40S-15 MK40S-24 MK75S-12 MK75S-15 MK75S-24 MK150S-5 MK150S-12 MK150S-15 MK150S-24 MK320S-5 MK320S-12 MK320S-15 MK320S-24

5 VDC 12 VDC 15 VDC 24 VDC 12 VDC 15 VDC 24 VDC 5 VDC 12 VDC 15 VDC 24 VDC 5 VDC 12 VDC 15 VDC 24 VDC

8 3.5 2.8 1.8 6.25 5 3.125 30 12.5 10 6 50 25 20 12.5

50mv 120mv 150mv 120mv 120mv 150mv 120mv 100mv 100mv 100mv 100mv 150mv 100mv 100mv 100mv

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367

MK series 40, 75, 150, 320W Enclosed Switching Power Supplies

Mechanical Dimensions - MK40

Enclosed Pin #

Outputs

1 2 3 4 5

ACL ACN GND + Output - Output

Output Derating Curve - MK40 100 80 60 40

PLEASE NOTE: To improve specifications and safety isolation, connection designations may have changed from prior revisions. Please verify connections per product labels on input and output connections prior to applying power to the unit.

368

www.astrodyne.com

50 45

60 55

(VERTICAL) (HORIZONTAL)

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MK series 40, 75, 150, 320W Enclosed Switching Power Supplies

Enclosed

Mechanical Dimensions - MK75

Pin #

Outputs

1 2 3 4 5

ACL ACN GND - Output + Output

Output Derating Curve - MK75 100 80 60 40

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50 45

60 55

(VERTICAL) (HORIZONTAL)

369

MK series 40, 75, 150, 320W Enclosed Switching Power Supplies

Mechanical Dimensions - MK150

Enclosed

Output Derating Curve - MK150 (Forced air cooling direction: Straight down from top of unit)

Outputs

1 2 3 4 5 6 7

ACL ACN GND + Output + Output - Output - Output

22CFM Forced Air - All Outputs (Recommended)

1 2 3

12/15/24VDC Outputs, Convection Cooled 5VDC Output, Convection Cooled

120 1

100 80

Load, %

Pin #

20 0 0

Ambient Temp, C

370

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MK series 40, 75, 150, 320W Enclosed Switching Power Supplies

Enclosed

Mechanical Dimensions - MK320

Output Derating Curve - MK320 Pin #

Outputs

1 2 3 4 5 6 7 8 9

GND ACN ACL - Output - Output - Output + Output + Output + Output

100 15V / 24V

www.astrodyne.com

80 5V / 12V 60 40 20

-10

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371

PMK150E/D series 150 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip 150 Watts Output Power Single and Dual Outputs

PMK150E

Universal 90-264VAC Input PMK150D

5VDC to 48VDC Outputs 3000VAC Input to Output Isolation

Enclosed

Active Power Factor Correction Unit Measures 3.2”W x 5.5”L x 1.6”H

Input Specifications Input Voltage Range Frequency Range Power Factor Correction Inrush Current, typ:

General Specifications 90-264 VAC 47-63 Hz 0.96 to 0.98 30A @ 115VAC 60A @ 230VAC *

Isolation (Note 4)

Efficiency Switching Frequency Safety

Output Specifi cations OUTPUT SPECIFICATIONS

Environmental Specifications

Voltage and Current (Note 6) See Selection Chart Line Regulation (Note 8) See Selection Chart Load Regulation (10%-FL, Note 7) Singles: ± 0.5%, typ Duals: ±3/5%, typ Preset Accuracy (Note 9) ±1%, typ DC Voltage Adjust (typ) ±6%, typ Temperature Coefficient ±0.05%/°C Ripple/Noise (Notes 1, 3, 10) See Selection Chart Over Voltage Protection Latching, Auto Recover after fault condition is removed * Short Circuit Protection Latching, Auto Recover after fault condition is removed * Hold Up Time 20mS, typ (Nom I/P, FL)

372

I/P-O/P: 3000VAC I/P-Ground: 2000VAC O/P-Ground: 500 VAC 75%, min. 67Khz, (fixed, typical) UL,TUV, CB, CE

Oper. Temperature Storage Temperature Relative Humidity EMC MTBF

-10 to +70°C (See Derate Curve) -25 to +85°C * 0% to +95%, non-cond * EN55011 Class B 270,000 Hrs Mil Std 217, 25°C

*Please see page 4 for Waiver of Liability Statement

Model Number

Output Voltage

Output Amps (max)

Line Regulation

Ripple & Noise

SINGLE OUTPUT PMK150S-5E, PMK150S-5D PMK150S-12E, PMK150S-12D PMK150S-15E, PMK150S-15D PMK150S-24E, PMK150S-24D PMK150S-48E, PMK150S-48D

5 VDC 12 VDC 15 VDC 24 VDC 48 VDC

30 12.5 10 6.3 3.2

±0.5% ±0.5% ±0.5% ±0.5% ±0.5%

100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk

DUAL OUTPUT PMK150D-AE, PMK150D-AD PMK150D-BE, PMK150D-BD PMK150D-CE, PMK150D-CD PMK150D-DE, PMK150D-DD

5/12 VDC 5/24 VDC 12/24 VDC 12/48 VDC

15/7 15/3.5 7/3.5 7/1.5

±0.5/1% ±0.5/2% ±1/2% ±1/4%

50/100mV pk-pk 50/200mV pk-pk 100/200mV pk-pk 100/400mV pk-pk

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PMK150E/D series 150 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Physical Specifications Size Construction Weight (Enclosed) (DIN Rail)

Output Derating Curve - Single Output 3.2” x 5.5” x 1.6” Enclosed 1.3 lb, (590g) 1.4 lb, (635g)

1. All measurements should be made directly at the terminals of the power supply. 2. All specifications typical @ 25°C, unless otherwise noted, at nominal line and load. 3. Ripple and noise dependent upon output voltage as specified per particular model. 4. Isolation for up to 1 minute duration. 5. Specified for free air convection cooling. 6. Minimum load is not required for proper operation. 7. Load Regulation is measured by change ±40% of measured output load from 60% full load, with the other output set to 60% full load. 8. Line Regulation measured from 90-264VAC. 100VAC minimum required for full load start. 9. Preset Accuracy measured at nominal load, 120VAC input. 10. O/P Noise measured directly at the pins/terminals at nominal load, 0.1uF bypass and 47uF electrolytic, pk-pk @ 20MHz bandwidth.

Enclosed

Notes

Output Derating Curve - Dual Output

Mechanical Dimensions - PMK150E

134.00 mm [5.276 in] 139.70 mm [5.500 in]

80.40 mm [3.165 in]

65.30 mm [2.571 in]

65.70 mm [2.587 in]

15.10 mm [0.594 in]

5.70 mm [0.224 in]

28.20 mm [1.110 in]

12.00 mm [0.472 in]

24.00 mm [0.945 in]

7_ M3x0.5 - 6H ( The Length : 3 mm )

40.60 mm [1.598 in]

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373

PMK150E/D series 150 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

374

6.50 mm [0.256 in]

1.50 mm [0.059 in]

6.50 mm [0.256 in]

8.80 mm [0.346 in]

139.70 mm [5.500 in]

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40.60 mm [1.598 in]

98.90 mm [3.894 in]

20.20 mm [0.795 in]

60.20 mm [2.370 in]

Enclosed 50.90 mm [2.004 in]

80.40 mm [3.165 in]

Mechanical Dimensions - PMK150D

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PMK225E/D series 225 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip 225 Watts Output Power Single Outputs Universal 90-264VAC Input 5VDC to 48VDC Outputs

Active Power Factor Correction Unit measures 3.86”W x 7”L x 1.57”H

Input Specifications

Enclosed

4242VDC Input to Output Isolation

Ouput Specifications

General Specifications

Model Number

Output Voltage

Output Amps (max)

Ripple & Noise max. (Note 1 & 4)

Efficiency

SINGLE OUTPUT PMK225S-5E PMK225S-12E PMK225S-15E PMK225S-24E PMK225S-36E PMK225S-48E

5 VDC 12 VDC 15 VDC 24 VDC 36 VDC 48 VDC

40 18.8 15 9.4 6.25 4.7

100mV pk-pk 120mV pk-pk 150mV pk-pk 240mV pk-pk 360mV pk-pk 480mV pk-pk

75% 82% 83% 84% 84% 84%

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375

PMK225E/D series 225 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Environmental Specifications

Physical Specifications

Enclosed

Notes

*Please see page 4 for Waiver of Liability Statement

Output Derating Curve

376

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PMK225E/D series 225 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Mechanical Dimensions

Enclosed

“D” Version Only (DIN Rail Clip)

FG ACN ACL

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NC COM COM COM +Vo +Vo -S +S S/D GND

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377

PMK320E/D series 320 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip 320 Watts Output Power Single Outputs Universal 90-264VAC Input 5VDC to 48VDC Outputs 4242VDC Input to Output Isolation

Enclosed

Active Power Factor Correction Unit Measures 3.86”W x 7.99”L x 1.57”H

Input Specifications Input Voltage Range Frequency Range Power Factor Correction Inrush Current, typ: Input Current Leakage Current

General Specifications Isolation (Note 2)

90-264 VAC; Nom: 100-240VAC 47-63 Hz 0.95, min. Nom I/P, FL 30A @ 115VAC Cold Start, FL* 60A @ 230VAC Cold Start, FL* 5.4 Amps max., 90V I/P 1.8 Amps max., 264V I/P <0.2mA, 240Vin, 50Hz

Insulation Resistance Efficiency (FL. Nom I/P) Safety

Environmental Specifications

Output Specifi cations OUTPUT SPECIFICATIONS Voltage and Current Line Regulation (LL-HL) Load Regulation 10%-FL Preset Accuracy (Note 3) Ripple/Noise (Notes 1, & 4) Over Voltage Protection Over Current Protection Short Circuit Protection Turn On Delay Time Rise Time Hold Up Time Over-Shoot/Under Shoot Remote Sense Remote Shutdown

I/P-O/P: 4242VDC I/P-Ground: 2121VDC O/P-Ground: 707VDC 20M 70%, min. UL/cUL60950-1, EN60950-1 (TUV) EN60601-1-2 (CE), IEC60950-1 (CB)

Oper. Temperature Storage Temperature Relative Humidity

See Selection Chart ±1%, max. ±1~1.5%, max. ±1%, typ (2% 5 Vout) See Selection Chart 130% max. Auto Recovery * 150% max. Auto Recovery * Auto Recover after fault condition is removed * <4S <25mS, typ (Nom I/P, FL) 20mS, typ (Nom I/P, FL) <10% of Nominal Output Compensates for up to 0.5V drop Open Collector, Logic “1” = ON “0” = Off. No Termination necessary to maintain constant “On” operation

-20 to +70°C (See Derate Curve) -25 to +85°C * 10% to +90%, * Storage: 5-95%

EMS Harmonics Fluctuations ESD RS EFT Surge CS DIPS EMI MTBF Mil Std 217F, 25°C Vibration Drop Test

Class D, 61000-3-2 61000-3-3 61000-4-2 61000-4-3 61000-4-4 61000-4-5 61000-4-6 61000-4-11 EN55022 Class B 100,000 Hrs, min. 4G Peak, 50-500Hz, 3 Axes 70 CM

*Please see page 4 for Waiver of Liability Statement

378

Model Number

Output Voltage

Output Amps (max)

Ripple & Noise max.

Efficiency

SINGLE OUTPUT PMK320S-5D, PMK320S-5E PMK320S-12D, PMK320S-12E PMK320S-15D, PMK320S-15E PMK320S-24D, PMK320S-24E PMK320S-36D, PMK320S-36E PMK320S-48D, PMK320S-48E

5 VDC 12 VDC 15 VDC 24 VDC 36 VDC 48 VDC

60 26.7 21.4 13.4 8.9 6.7

100mV pk-pk 120mV pk-pk 150mV pk-pk 150mV pk-pk 150mV pk-pk 150mV pk-pk

75% 81% 84% 84% 84% 84%

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PMK320E/D series 320 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Physical Specifications Size Construction Weight

Output Derating Curve - Single Output 7.99”(L) x 3.86”(W) x 1.57”(H) Enclosed 1.77 lb, (802g)

Enclosed

Notes NOTES 1. All measurements should be made directly at the terminals of the power supply . 2. Isolation for up to 1 minute duration. 3. Preset Accuracy measured at nominal load, 120VAC input. 4. O/P Noise measured directly at the pins/terminals at nominal load, 0.1uF ceramic bypass and 47uF electrolytic, pk-pk @ 20MHz bandwidth.

Mechanical Dimensions - PMK320D

FG ACN ACL

+Vo(5V) COM COM COM +Vo +Vo -S +S S/D GND

UNITS: mm (in) www.astrodyne.com

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379

PMK320E/D series 320 WATT Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Mechanical Dimensions - PMK320E

Enclosed

FG ACN ACL

+Vo(5V) COM COM COM +Vo +Vo -S +S S/D GND

UNITS: mm (in)

380

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PMK450E/D series 450 Watt Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip 450 Watts Output Power Single Outputs Universal 90-264VAC Input 5VDC to 48VDC Output Isolation

Enclosed

4242VDC Input to Output Isolation Active Power Factor Correction

Input Specifications

General Specifications

Output Specifications

Environmental Specifications

Note

Model Number

Output V Output I

Line Reg(nom/max) Load Reg(nom/max) Ripple & Noise

Efficiency(min/nom)

SINGLE OUTPUT PMK450S-5E, D PMK450S-12E, D PMK450S-24E, D PMK450S-36E, D PMK450S-48E, D

5VDC 12 VDC 24 VDC 36 VDC 48 VDC

0.4% / ±1.0% 0.3% / ±1.0% 0.2% / ±0.5% 0.1% / ±0.5% 0.1% / ±0.5%

76% / 80% 77% / 85% 78% / 86% 79% / 86% 81% / 88%

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60 Amps 37.5 Amps 18.75 Amps 12.5 Amps 9.375 Amps

0.5% / 3% 0.3% / 1% 0.2% / 0.5% 0.1% / 0.5% 0.1% / 0.5%

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50mV pk-pk 120mV pk-pk 240mV pk-pk 360mV pk-pk 480mV pk-pk

381

PMK450E/D series 450 Watt Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Physical Specifications

Enclosed

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

Pin 1 2 3 4 5 6 7 8

Assignment SD -S1 -S1 COM SHARE COM COM 5Vsb

Input connector : 3P / 8.25 mm pitch terminal block Output connector : 7P / 8.25 mm pitch terminal block Unit : mm

382

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PMK450E/D series 450 Watt Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Enclosed

Mechanical Dimensions - DIN Rail

Pin 1 2 3 4 5 6 7 8

Assignment SD -S1 +S1 COM SHARE COM COM 5Vsb

Input connector : 3P / 8.25 mm pitch terminal block Output connector : 7P / 8.25 mm pitch terminal block Unit : mm www.astrodyne.com

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383

PMK450E/D series 450 Watt Enclosed Switching Power Supply with PFC and Optional DIN Rail Clip

Derating Curve • Enclosed & Din-rail (PMK45S-xx-E/ED) 100

Enclosed

Load (%)

80 60 40 20 0 -20

-10

Ambient Temp. (°C)

100 Load (%)

80 60 40 20 0 90

115

140

165

190

215

240

265

Input Voltage (VAC) 60Hz Ta = 25°

Notes

384

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SP/TP75 series 75W Single/Triple Output with PFC Function Universal AC input Protections:Short circuit/Over load/Over voltage Built-in active PFC function, PF >0.93 LED indicator for power on

Enclosed

Low profile: 33mm thickness

Input Specifications

Model Number

Environmental Specifications

Output Volts

Output Amps

Ripple & Noise

Min Load

DC Volt Adjust

3.3 Volts(DC) 5 Volts(DC) 7.5 Volts(DC) 12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

15 Amps 15 Amps 10 Amps 6.3 Amps 5.6 Amps 5.0 Amps 3.2 Amps 2.8 Amps 1.6 Amps

80mV pk-pk 80mV pk-pk 80mV pk-pk 80mV pk-pk 80mV pk-pk 80mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk

0~15Amps 0~15Amps 0~10Amps 0~6.3Amps 0~5.6Amps 0~5.0Amps 0~3.2Amps 0~2.8Amps 0~1.6Amps

3.14~3.63Volt(DC) 4.75~5.5Volt(DC) 7.13~8.25Volt(DC) 11.4~13.2Volt(DC 12.8~14.9Volt(DC) 14.3~16.5Volt(DC) 22.8~26.4Volt(DC) 25.7~29.7Volt(DC) 45.6~52.8Volt(DC)

Load Reg

Efficiency

SINGLE OUTPUT SP75-3.3 SP75-5 SP75-7.5 SP75-12 SP75-13.5 SP75-15 SP75-24 SP75-27 SP75-48

Model Number

Output Volts

Output Amps

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) -15 Volts(DC)

7.0 Amps 3.0 Amps 0.6 Amps 7.0 Amps 3.0 Amps 0.4 Amps 6.0 Amps 2.5 Amps 0.5 Amps

Ripple & Noise

Load Reg

±1.0% ±1.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5%

Volt Tolerance

68% 72% 74% 77% 78% 79% 80% 80% 80%

Min Load

TRIPLE OUTPUT TP-75A

TP-75B

TP-75C

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100mVpk-pk 120mVpk-pk 100mVpk-pk 100mVpk-pk 120mVpk-pk 120mVpk-pk 100mVpk-pk 120mVpk-pk 120mVpk-pk

±3.0% ±4.0% ±8.0% ±3.0% ±4.0% ±8.0% ±3.0% ±4.0% ±8.0%

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±3.0% ±4.0% ±8.0% ±3.0% ±4.0% ±8.0% ±3.0% ±4.0% ±8.0%

1.5~10Amps 0.2~4.0Amps 0~0.6Amps 1.5~10Amps 0.2~4.0Amps 0~0.6Amps 1.5~10Amps 0.2~3.0Amps 0~0.6Amps

385

SP/TP75 series 75W Single/Triple Output with PFC Function

Output Specifications

General Specifications

Enclosed

Note

Output Derating Curve VS Input Voltage

Physical Specifications

*Please see page 4 for Waiver of Liability Statement

Output Derating Curve - SP75

Output Derating Curve - TP75

Ambient Temp. (ยบC)

386

Ambient Temp. (ยบC)

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SP/TP75 series 75W Single/Triple Output with PFC Function

Mechanical Dimensions - SP75 Unit:mm

Enclosed

Mounting Feet Optional

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387

SP/TP75 series 75W Single/Triple Output with PFC Function

Mechanical Dimensions - TP75

Mounting Feet Optional

Unit:mm

Enclosed

Block Diagram Both

388

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SP/TP/QP100 series 100W Single, Triple and Quad Outputs with PFC Function Universal AC input Protections:Short circuit/Over load/Over voltage

TP100

SP100

Free air conditioning convection

Enclosed

Fixed switching frequency: 134KHz (SP100), 100KHz (TP, QP100)

Physical Specifications

Model Number

Environmental Specifications

Output Volts

Output Amps

Ripple & Noise

Min Load

DC Volt Adjust

3.3 Volts(DC) 5 Volts(DC) 7.5 Volts(DC) 12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

20 Amps 20 Amps 13.5 Amps 8.5 Amps 7.5 Amps 6.7 Amps 4.2 Amps 3.8 Amps 2.1 Amps

100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk 150mV pk-pk 150mV pk-pk 250mV pk-pk

0~20Amps 0~20Amps 0~13.5Amps 0~8.5Amps 0~7.5Amps 0~6.7Amps 0~4.2Amps 0~3.8Amps 0~2.1Amps

3.14~3.63Volt(DC) 4.75~5.5Volt(DC) 7.13~8.25Volt(DC) 11.4~13.2Volt(DC) 12.8~14.9Volt(DC) 14.3~16.5Volt(DC) 22.8~26.4Volt(DC) 25.7~29.7Volt(DC) 45.6~52.8Volt(DC)

Load Reg

Efficiency

±1.0% ±1.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5%

70% 76% 78% 80% 80% 82% 84% 83% 82%

SINGLE OUTPUT SP100-3.3 SP100-5 SP100-7.5 SP100-12 SP100-13.5 SP100-15 SP100-24 SP100-27 SP100-48

Model Number

Output Volts

Output Amps

Ripple & Noise

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) -15 Volts(DC) 5 Volts(DC) 24 Volts(DC) 12 Volts(DC)

10 Amps 4.0 Amps 0.6 Amps 10 Amps 4.0 Amps 0.6 Amps 10 Amps 3.0 Amps 0.6 Amps 10 Amps 2.0 Amps 0.6 Amps

100mVpk-pk 120mVpk-pk 100mVpk-pk 100mVpk-pk 120mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 100mVpk-pk

Load Reg

Volt Tolerance

Min Load

±3.0% ±7.0% ±6.0% ±3.0% ±6.0% ±6.0% ±3.0% +10,-6% ±6.0% ±3.0% ±8.0% ±6.0%

3.0~15Amps 0.4~5.0Amps 0~1.0Amps 3.0~15Amps 0.4~5.0Amps 0~1.0Amps 3.0~15Amps 0.4~4.0Amps 0~1.0Amps 3.0~15Amps 0.4~3.0Amps 0~1.0Amps

TRIPLE OUTPUT TP-100A

TP-100B

TP-100C

TP-100D

±3.0% ±6.0% ±4.0% ±3.0% ±6.0% ±4.0% ±3.0% ±6.0% ±4.0% ±3.0% ±6.0% ±4.0%

Continued

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389

SP/TP/QP100 series 100W Single, Triple and Quad Outputs with PFC Function Model Number

Output Volts

Output Amps

Ripple & Noise

Line Reg

Load Reg Efficiency Tolerance Min Load

QUAD OUTPUT QP100-3A

Enclosed

QP100-3B

QP100-3C

QP100-3D

QP-100D

QP-100F

QP-100B

QP-100C

5 Volts(DC) 3.3 Volts(DC) 12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) 15 Volts(DC) -15 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) 24 Volts(DC) -12 Volts(DC) 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) 24 Volts(DC) -15 Volts(DC) 5 Volts(DC) 12 Volts(DC) -12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 15 Volts(DC) -15 Volts(DC) -5 Volts(DC)

8.0 Amps 8.0 Amps 2.5 Amps 0.6 Amps 8.0 Amps 8.0 Amps 2.2 Amps 0.6 Amps 8.0 Amps 8.0 Amps 1.7 Amps 0.6 Amps 8.0 Amps 8.0 Amps 1.3 Amps 0.6 Amps 8.0 Amps 2.4 Amps 1.0 Amps 0.6 Amps 8.0 Amps 2.0 Amps 1.0 Amps 0.6 Amps 10 Amps 3.0 Amps 1.0 Amps 0.6 Amps 10 Amps 2.2 Amps 1.1 Amp 0.6 Amps

100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 120mVpk-pk 150mVpk-pk 200mVpk-pk 150mVpk-pk 120mVpk-pk 180mVpk-pk 200mVpk-pk 150mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk

General Specifications

±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±2.0% ±2.0% ±1.0% ±1.0% ±2.0% ±2.0% ±1.0%

±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±60% ±2.0% ±2.0% ±6.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0%

74% 74% 74% 74% 74% 74% 74% 74% 75% 75% 75% 75% 75% 75% 75% 75% 78% 78% 78% 78% 78% 78% 78% 78% 76% 76% 76% 76% 77% 77% 77% 77%

±3.0% ±3.0% ±6.0% ±5.0% ±3.0% ±3.0% ±6.0% ±5.0% ±3.0% ±3.0% +8,-6% ±5.0% ±3.0% ±3.0% ±6.0% ±5.0% ±3.0% ±3.0% ±6.0% ±5.0% ±3.0% ±3.0% ±6.0% ±5.0% ±3.0% ±6.0% +10,-6% ±5.0% ±3.0% +6,-10% ±8.0% ±5.0%

2.0~10Amps 0~10Amps 0.3~3.0Amps 0~1.0Amps 2.0~10Amps 0~10Amps 0.3~3.0Amps 0~1.0Amps 2.0~10Amps 0~10Amps 0.3~2.0Amps 0~1.0Amps 2.0~10Amps 0~10Amps 0.3~2.0Amps 0~1.0Amps 2.0~10Amps 0~3.0Amps 0.3~2.0Amps 0~1.0Amps 2.0~10Amps 0~3.0Amps 0.3~2.0Amps 0~1.0Amps 2.0~10Amps 0.3~4.0Amps 0.15~1Amps 0~1.0Amps 2.0~10Amps 0.3~3.0Amps 0.15~1Amps 0~1.0Amps

Input Specifications

*Please see page 4 for Waiver of Liability Statement

390

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SP/TP/QP100 series 100W Single, Triple and Quad Outputs with PFC Function

Enclosed

Output Specifications

Note

Output Derating Curve - SP100

Output Derating Curve VS Input Voltage - SP100

Ambient Temp. (ยบC)

Output Derating Curve - TP, QP100

Output Derating Curve VS Input Voltage - TP, QP100

Ambient Temp. (ยบC)

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391

SP/TP/QP100 series 100W Single, Triple and Quad Outputs with PFC Function

Mechanical Dimensions - SP100

Mounting Feet Optional

Enclosed

Block Diagram - SP100

392

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SP/TP/QP100 series 100W Single, Triple and Quad Outputs with PFC Function Mounting Feet Optional

Enclosed

Mechanical Dimensions - TP100

Block Diagram - TP100

TP100

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393

SP/TP/QP100 series 100W Single, Triple and Quad Outputs with PFC Function

Mechanical Dimensions - QP100-3A/3B/3C/3D/D/F

Mounting Feet Optional

Enclosed

Block Diagram - QP100-3A/3B/3C/3D/D/F QP 100 3A/3B/3C/3D/D/F

394

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SP/TP/QP100 series 100W Single, Triple and Quad Outputs with PFC Function

Mechanical Dimensions - QP100B, C

Enclosed

Mounting Feet Optional

Block Diagram - QP100B, C

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395

SP/TP/QP150 series 150W Single, Triple and Quad Outputs with PFC Function Universal AC input Protections:Short circuit/Over load/Over voltage/Over temperature Built-in active PFC function, PF >0.93

SP150

134KHz (SP150), 100KHz (TP/QP150)

Enclosed

Forced air cooling by built-in DC fan (TP/QP150)

Input Specifications

Model Number

Environmental Specifications

Output Volts

Output Amps

Ripple & Noise

Min Load

DC Volt Adjust Load Reg Efficiency

SINGLE OUTPUT SP150-3.3 SP150-5 SP150-7.5 SP150-12 SP150-13.5 SP150-15 SP150-24 SP150-27 SP150-48

3.3 Volts(DC) 5 Volts(DC) 7.5 Volts(DC) 12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

30 Amps 30 Amps 20 Amps 12.5 Amps 11.2 Amps 10 Amps 6.3Amps 5.6 Amps 3.2 Amps

100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk 100mV pk-pk 150mV pk-pk 150mV pk-pk 250mV pk-pk

Model Number

Output Volts

Output Amps

Ripple & Noise

5 Volts(DC) 12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) -15 Volts(DC) 5 Volts(DC) 24 Volts(DC) 12 Volts(DC)

15 Amps 6.0 Amps 0.6 Amps 15 Amps 5.5 Amps 0.6 Amps 15 Amps 4.5 Amps 0.6Amps 15 Amps 3.0 Amps 0.6 Amps

0~30Amps 0~30Amps 0~20Amps 0~12.5Amps 0~11.2Amps 0~10Amps 0~6.3Amps 0~5.6Amps 0~3.2Amps

Load Reg

3.14~3.63Volt(DC) 4.75~5.5Volt(DC) 7.13~8.25Volt(DC) 11.4~13.2Volt(DC 12.8~14.9Volt(DC) 14.3~16.5Volt(DC) 22.8~26.4Volt(DC) 25.7~29.7Volt(DC) 45.6~52.8Volt(DC)

Volt Tolerance

±1.0% ±1.0% ±1.0% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5%

67% 75% 79% 80% 80% 81% 83% 84% 84%

Min Load

TRIPLE OUTPUT TP-150A

TP-150B

TP-150C

TP-150D

100mVpk-pk 120mVpk-pk 100mVpk-pk 100mVpk-pk 120mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 100mVpk-pk

±3.0% ±6.0% ±4.0% ±3.0% ±6.0% ±4.0% ±3.0% ±6.0% ±4.0% ±3.0% ±6.0% ±4.0%

±3.0% ±8.0% ±6.0% ±3.0% ±8.0% ±6.0% ±3.0% +10,-6% ±6.0% ±3.0% ±8.0% ±6.0%

2.0~20Amps 0.4~7.0Amps 0~1.0Amps 2.0~20Amps 0.4~7.0Amps 0~1.0Amps 2.0~20Amps 0.4~6.0Amps 0~1.0Amps 2.0~20Amps 0.4~4.0Amps 0~1.0Amps Continued

396

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SP/TP/QP150 series 150W Single, Triple and Quad Outputs with PFC Function Model Number

Output Volts

Output Amps

Ripple & Noise

Line Reg Load Reg Efficiency Tolerance Min Load

10 Amps 10 Amps 5.0 Amps 0.6 Amps 10 Amps 10 Amps 5.0 Amps 0.6 Amps 10 Amps 10 Amps 4.0 Amps 0.6 Amps 10 Amps 10 Amps 2.5 Amps 0.6 Amps 10 Amps 4.0 Amps 2.0 Amps 0.6 Amps 10 Amps 3.0 Amps 2.0 Amps 0.6 Amps 15 Amps 4.0 Amps 2.0 Amps 0.6 Amps 15 Amps 3.0 Amps 2.0 Amps 0.6 Amps

100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 120mVpk-pk 150mVpk-pk 200mVpk-pk 150mVpk-pk 120mVpk-pk 150mVpk-pk 200mVpk-pk 150mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk

QP150-3A

QP150-3B

QP150-3C

QP150-3D

QP-150D

QP-150F

QP-150B

QP-150C

General Specifications

±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±60% ±2.0% ±2.0% ±6.0% ±6.0% ±2.0% ±2.0% ±6.0% ±6.0% ±2.0%

73% 73% 73% 73% 75% 75% 75% 75% 74% 74% 74% 74% 76% 76% 76% 76% 78% 78% 78% 78% 78% 78% 78% 78% 76% 76% 76% 76% 77% 77% 77% 77%

3.0~15Amps 0~15Amps 0.4~5.0Amps 0~1.0Amps 3.0~15Amps 0~15Amps 0.4~5.0Amps 0~1.0Amps 3.0~15Amps 0~15Amps 0.4~5.0Amps 0~1.0Amps 3.0~15Amps 0~15Amps 0.3~3.0Amps 0~1.0Amps 3.0~15Amps 0~5.0Amps 0.4~3.0Amps 0~1.0Amps 3.0~15Amps 0~5.0Amps 0.4~3.0Amps 0~1.0Amps 3.0~15Amps 0.4~5.0Amps 0.3~2Amps 0~1.0Amps 3.0~15Amps 0.4~4.0Amps 0.3~2Amps 0~1.0Amps

Enclosed

Quad OUTPUT

Physical Specifications

*Please see page 4 for Waiver of Liability Statement

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397

SP/TP/QP150 series 150W Single, Triple and Quad Outputs with PFC Function

Output Specifications

Enclosed

Note

regulation.

Output Derating Curve

Output Derating VS Input Voltage

Block Diagram - SP150

398

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SP/TP/QP150 series 150W Single, Triple and Quad Outputs with PFC Function

Enclosed

Mechanical Dimensions

SP150

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399

SP/TP/QP150 series 150W Single, Triple and Quad Outputs with PFC Function

Block Diagram - TP150

Enclosed

TP150

Block Diagram - QP150

QP150

400

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SP/QP200 series 200W Single and Quad Output with PFC Function Universal AC input Protections:Short circuit/Over load/Over voltage/Over temperature

QP200 SP200

Built-in active PFC function, PF >0.95 Built-in cooling fan speed control

Enclosed

Fixed switching frequency at PFC:67KHz PWM:134KHz LED indicator for power on

Model Number

Output Volts

Output Amps

SINGLE OUTPUT SP200-3.3 SP200-5 SP200-7.5 SP200-12 SP200-13.5 SP200-15 SP200-24 SP200-27 SP200-48

3.3 Volts(DC) 5 Volts(DC) 7.5 Volts(DC) 12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

40 Amps 40 Amps 26.7 Amps 16.7 Amps 14.9 Amps 13.4 Amps 8.4 Amps 7.5 Amps 4.2 Amps

Model Number QUAD OUTPUT QP200-D

QP200-F

QP200-3A

QP200-3B

QP200-3C

QP200-3D

QP200-3E

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OVP

Min Load

3.63 ~ 4.46Volt(DC) 5.5 ~ 6.75Volt(DC) 8.25 ~ 10.13Volt(DC) 13.2 ~ 16.2Volt(DC) 14.85 ~ 18.2Volt(DC) 16.5 ~ 20.25Volt(DC) 26.4~ 32.4Volt(DC) 29.7 ~ 36.45Volt(DC) 52.8~ 64.8Volt(DC)

0~40Amps 0~40Amps 0~26.7Amps 0~16.7Amps 0~14.9Amps 0~13.4Amps 0~8.4Amps 0~7.5Amps 0~4.2Amps

DC Volt Adjust 3.14~3.63Volt(DC 4.75~5.5Volt(DC) 7.13~8.25Volt(DC) 11.4~13.2Volt(DC 12.8~14.9Volt(DC) 14.3~16.5Volt(DC) 22.8~26.4Volt(DC) 25.7~29.7Volt(DC) 45.6~52.8Volt(DC)

Efficiency 65% 71% 76% 79% 80% 81% 83% 83% 84%

Output Volts Output Amps Ripple & Noise Line Reg Load Reg Peak Current Tolerance Min Load 5 Volts(DC) 12 Volts(DC) 24 Volts(DC) -12 Volts(DC) 5 Volts(DC) 15 Volts(DC) 24 Volts(DC) -15 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) 12 Volts(DC) -5 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) 12 Volts(DC) -12 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) 15 Volts(DC) -15 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) 24 Volts(DC) -12 Volts(DC) 5 Volts(DC) 3.3 Volts(DC) -24 Volts(DC) -15 Volts(DC)

15 Amps 4 Amps 3 Amps 0.7 Amps 15 Amps 3 Amps 3 Amps 0.7 Amps 15 Amps 15 Amps 6.0 Amps 0.7 Amps 15 Amps 15 Amps 6.0 Amps 0.7 Amps 15 Amps 15 Amps 5.0 Amps 0.7 Amps 10 Amps 15 Amps 4.0 Amps 0.7 Amps 10 Amps 15 Amps 4.0 Amps 0.7 Amps

100mVpk-pk 150mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk 100mVpk-pk 100mVpk-pk 150mVpk-pk 150mVpk-pk

±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0% ±1.0% ±1.0% ±2.0% ±1.0%

±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0% ±2.0% ±2.0% ±60% ±2.0% ±2.0% ±2.0% ±6.0% ±2.0%

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75% 75% 75% 75% 75% 75% 75% 75% 72% 72% 72% 72% 72% 72% 72% 72% 72% 72% 72% 72% 74% 74% 74% 74% 74% 74% 74% 74%

±3.0% ±3.0% +10,-6% ±6.0% ±3.0% ±3.0% +10,-6% ±6.0% ±3.0% ±3.0% +8,-10% ±6.0% ±3.0% ±3.0% +8,-10% ±6.0% ±3.0% ±3.0% +10-6% ±6.0% ±3.0% ±3.0% +10,-6% ±6.0% ±3.0% ±3.0% +10,-6% ±6.0%

3.0~20Amps 0~6.0Amps 0.4~5.0Amps 0~1.0Amps 3.0~20Amps 0~5Amps 0.4~5.0Amps 0~1.0Amps 3.0~20Amps 0~20Amps 0.5~8.0Amps 0~1.0Amps 3.0~20Amps 0~20Amps 0.5~8.0Amps 0~1.0Amps 3.0~20Amps 0~20Amps 0.5~6.0Amps 0~1.0Amps 3.0~15Amps 0~20Amps 0.4~5.0Amps 0~1.0Amps 3.0~15Amps 0~20Amps 0.4~5Amps 0~1.0Amps

401

SP/QP200 series 200W Single and Quad Output with PFC Function

Input Specifications Input Voltage Range Frequency Range Inrush Current, typ: (cold start) (SP200) (QP200) Input Current

Enclosed

Leakage current Min Load Power Factor @ FL

Output Specifications 90 ~ 264VAC 120~370 Volts(DC) 47-63 Hz 20Amps/115VAC; 40Amps 230VAC 30 Amps /115VAC 3.5Amps max. @115VAC 2.0Amps max. @ 230VAC < 2mAmps / 240VAC See Selection Chart PF >0.95/230VAC >0.98/115VAC

General Specifications Safety

UL60950-1, TUV EN60950-1 Approved 100M / 500Volts(DC) Compliance to EN55022 (CISPR22) Class B

Insulation Resistance EMI EMS

Harmonic Current Efficiency Isolation

Compliance to EN61000-4-2,3,4,5,6,8,11 ENV50204,EN55024, light Industry Level, Criteria A Compliance to EN61000-3-2,-3 See Selection Chart 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity Temperature Coefficient MTBF (SP200) (QP200) Vibration

-10°C to +60°C (See Derate Curve) -20°C to +85°C, 10~95% RH 20~90% RH non cond 0.05% / °C (0-50°C) 183.8KHrs min,MIL-HDBK-217F(25°C) 160.6K Hrs min, MIL-HDBK-217F (25°C) 10~500Hz, 2G10min./1cycle, period for 60min. each along X, Y, Z axes

Physical Specifications Size (SP200) (QP200) Millimeters Inches Weight (SP200) (QP200)

Voltage and Current Line Regulation (SP200) (QP200) Load Regulation (SP200) (QP200) Voltage Tolerance (Note 2) (SP200) (Note 2)

See Selection Chart ±0.5% See Selection Chart ±0.1%: 3.3~7.5Volts(DC) ±0.5%: 12~48Volts(DC) See Selection Chart

±2.0%: 3.3;15Volts(DC) ±1.0%: 24~48Volts(DC) (QP200) See Selection Chart Ripple/Noise (SP200) (Note 1) 100mVpk-pk: 3.3~15Volts(DC) 150mVpk-pk: 24;27Volts(DC) 250mVpk-pk: 48Volts(DC) (QP200) See Selection Chart Hold Up Time @ FL) 24mS Setup, Rise Time @ FL 800mS, 50mS Over Voltage Protection (SP200) See Selection Chart Shut down o/p voltage, re-power (QP200) 5Volts(DC): 5.75~6.75Volts(DC) 3.3Volts(DC): 3.8~4.4Volts(DC) QP150D: 12Volts(DC): 13.8~16.2Volts(DC) QP150F: 17.25~20.25Volts(DC) Shutdown o/p voltage, re-power Over Current Protection 105 ~ 150% rated output power Constant current limiting,auto recovery Over Temperature (SP200) 95°C ±5°C TSW1: detect on heatsink of power transistor Shut down o/p voltage, auto recovery Over Temperature Protection (QP200) 95°C±5°C (TSW1) detect of Q1,Q2, power transistor Shutdown o/p voltage, re-power after cool down DC Volt Adjust (SP200) See Selection Chart (QP200) 5Volts(DC): 4.75~5.5Volts(DC) 3.3Volts(DC): 3.14~3.63Volts(DC) QP200D(12Volts): 11.4~13.2Volts(DC) QP200F(15Volts): 14.25~16.5Volts(DC Peak Current (Note3) (QP200) See Selection Chart

Note 199x99 x 50mm (7.83”x3.90 ”x1.97”) 215 x 115 x 50 8.46” x 4.53” x 1.97” 29.99 oz (850g) 42.33 oz (1200g)

1. Ripple & noise are measured at 20MHz of bandwidth by using a 12” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor. 2. Tolerance: includes set up tolerance, line regulation and load regulation. 3. 33.3% Duty cycle maximum within every 30 seconds. Average output power should not exceed the rated power.

*Please see page 4 for Waiver of Liability Statement

402

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SP/QP200 series 200W Single and Quad Output with PFC Function Mounting Feet Optional

Enclosed

Mechanical Dimensions - SP200

Block Diagram - SP200 SP200

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403

SP/QP200 series 200W Single and Quad Output with PFC Function

Mechanical Dimensions - QP200 Mounting Feet Optional

Enclosed

Block Diagram - QP200 QP200

404

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SP/QP200 series 200W Single and Quad Output with PFC Function

Output Derating Curve - QP200

Enclosed

Output Derating Curve - SP200

Output Derating Curve VS Input Voltage

Notes

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405

SP240 series 240W Single Output Switching Power Supply with PFC Universal AC input

Forced air cooling by built-in DC fan

Built-in active Power Factor Correction (PFC)

Built in cooling FAN ON-OFF control

Protections: Short circuit / Overload / Over voltage / Over temperature

LED indicator for power on Fixed switching frequency at 90KHz

Enclosed

General Specifications Safety Insulation Resistance EMI Harmonic Current Efficiency Isolation EMS

Input Specifications UL60950-1, TUV EN60950-1 Approved ≥ 100MΩ / 500V / 25°C / 70% RH Compliance to EN55022B (CISPR22B) Compliance to EN61000-3-2,-3 See Selection Chart 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground Compliance to EN61000-4-2,3,4,5,6,8,11, EN55024 ENV50204, light Industry Level, Criteria A

Environmental Specifications Oper. Temperature Curve) Storage Temperature Relative Humidity Temperature Coefficient MTBF Vibration

-20°C to +70°C (See Derate -40°C to +85°C, 10~95% RH 20~90% RH non cond ±0.03% / °C (0-50°C) 284KHrs MIL-HDBK-217F(25°C) 10~500Hz, 2G 10min./1cycle 60min. each along X, Y, Z axes

Physical Specifications Size Weight

190x 93 x 50mm (7.48”x3.66 ”x1.97”) 28.22 oz (800g)

Input Voltage Range Frequency Range Inrush Current, typ: (cold start) Input Current Leakage current Min Load Power Factor @ FL

88~264VAC; 124~370 Volts(DC) 47-63 Hz 25 Amps/115VAC; 40 Amps/230VAC 3.6 Amps/115VAC; 1.8Amps/230VAC < 2mAmps / 240VAC See Selection Chart > 0.95 / 230VAC > 0.98 / 115VAC

Output Specifications Voltage and Current Line Regulation Load Regulation O/P Voltage Tolerance (Note 2) Ripple/Noise (Note 1) Hold Up Time @ FL Setup/Rise Time @ FL Over Voltage Protection Over Current Protection Over Temp. Protection DC Volt Adjust Fan Control

See Selection Chart See Selection Chart ±1%: 5 & 7.5V; ±0.5% 12-48V ±2%: 5 & 7.5V; ±1% 12-48V O/P 150mVpk-pk 20mS typ. 800/50mS @ 230VAC 1500/50mS @ 115VAC See Selection Chart Shutdown, re-power 105~135% rated output power Hiccup mode, auto recovers 90°C±5°C, 5 & 7.5V O/P 85°C±5°C, 12-48V O/P See Selection Chart RTH2≥ 40°C FAN ON ≤ 35°C FAN OFF, typ.

Model Number Output Volts Output Amps OVP Min Load DC Volt Efficiency Line Adjust Regulation SP240-5 SP240-7.5 SP240-12 SP240-15 SP240-24 SP240-30 SP240-48

406

5 Volts(DC) 7.5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 30 Volts(DC) 48 Volts(DC)

45 Amps 32 Amps 20 Amps 16 Amps 10Amps 8 Amps 5 Amps

6.3~ 7.5Volt(DC) 9.4~ 10.9Volt(DC) 14.7 ~ 17.5Volt(DC) 19 ~ 22.5Volt(DC) 29.5 ~ 35Volt(DC) 34.7~ 41Volt(DC) 57.6~ 67.2Volt(DC)

0~45Amps 0~32Amps 0~20Amps 0~16Amps 0~10Amps 0~8Amps 0~5Amps

4~6Volt(DC) 6~9Volt(DC) 10~14Volt(DC) 12~18Volt(DC) 20~28Volt(DC) 27~33Volt(DC) 41~56Volt(DC)

79% 83% 86% 86% 87% 88% 89%

±0.5% ±0.5% ±0.3% ±0.3% ±0.2% ±0.2% ±0.2%

SP240 series 240W Single Output Switching Power Supply with PFC

Enclosed

Mechanical Dimensions

Block Diagram

Derating Curve

Static Characteristics

407

SP series 320, 480, 500 and 750W Single Output Enclosed Power Supply with PFC Function Universal AC input Protections:Short circuit/Over load/Over voltage/ Over temperature

SP320 SP480

Built-in active PFC function, PF >0.95 Forced air cooling by built-in DC Fan

Enclosed

SP750

SP500

Physical Specifications Size (SP320) (SP480) (SP500) (SP750)

Model Number

(SP750) Weight (SP320) (SP480) (SP500) (SP750)

215x115 x 50mm (8.46”x4.53 ”x1.97”) 278x127 x 43mm (10.94”x5 ”x1.69”) 170x120 x 93mm (6.69”x4.72 ”x3.66”) 278x127 x 63.5mm (10.94”x5 ”x2.5”)

Output Volt

Output Amps

OVP

Ripple & Noise

278x127 x 63.5mm (10.94”x5 ”x2.5”) 38.80 oz (1100g) 59.97 oz (1700g) 67.02 oz (1900g) 102.29 oz (2900g)

Min Load

DC Volt Adjust

Efficiency

0~60Amps 0~55Amps 0~40Amps 0~25Amps 0~22Amps 0~20Amps 0~13Amps 0~11.7Amps 0~8.8Amps 0~6.7Amps 0~85Amps 0~85Amps 0~43Amps 0~35Amps 0~22Amps 0~11Amps 0~40Amps 0~36Amps 0~32Amps 0~20Amps 0~18Amps 0~10Amps 0~120Amps 0~62.5Amps 0~50Amps 0~31.3Amps 0~27.8Amps 0~15.7Amps

3.14~3.63Volt(DC) 4.5~5.5Volt(DC) 6.0~9.0Volt(DC) 10~13.2Volt(DC 12~15Volt(DC) 13.5~18Volt(DC) 20~26.4Volt(DC) 26~31.5Volt(DC) 32.4~39.6Volt(DC) 41~56Volt(DC) 2.9~3.6Volt(DC) 4.5~5.5Volt(DC) 10~13.2Volt(DC) 13.5~18Volt(DC) 22~27.6Volt(DC) 41~56Volt(DC) 10~13.2Volt(DC) 12~15Volt(DC) 13.5~18Volt(DC 20~26.4Volt(DC) 24~30Volt(DC) 41~56Volt(DC) 4.75~5.5Volt(DC) 10~13.5Volt(DC) 13.5~16.5Volt(DC) 22~26.4Volt(DC) 24~30Volt(DC) 43~56Volt(DC)

74% 79% 83% 86% 86% 86% 87% 88% 87% 89% 73% 79% 85% 85% 87% 89% 84% 84% 83% 85.5% 86% 86.5% 86% 87% 80% 85% 87% 89% 89% 90%

SINGLE OUTPUT SP320-3.3 SP320-5 SP320-7.5 SP320-12 SP320-13.5 SP320-15 SP320-24 SP320-27 SP320-36 SP320-48 SP480-3.3 SP480-5 SP480-12 SP480-15 SP480-24 SP480-48 SP500-12 SP500-13.5 SP500-15 SP500-24 SP500-27 SP500-48 SP750-5 SP750-12 SP750-15 SP750-24 SP750-27 SP750-48

408

3.3 Volts(DC 5 Volts(DC) 7.5 Volts(DC) 12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 36 Volts(DC) 48 Volts(DC) 3.3 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 48 Volts(DC) 12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC) 5 Volts(DC) 12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

55 Amps 55 Amps 40 Amps 25 Amps 22 Amps 20 Amps 13 Amps 11.7 Amps 8.8 Amps 6.7 Amps 85 Amps 85 Amps 40 Amps 32 Amps 20 Amps 10 Amps 40 Amps 36 Amps 32 Amps 20 Amps 18 Amps 10 Amps 120 Amps 62.5 Amps 50 Amps 31.3 Amps 27.8 Amps 15.7 Amps

3.8 ~ 4.5Volt(DC) 5.75 ~ 6.75Volt(DC) 9.4 ~ 10.9Volt(DC) 13.8 ~ 16.2Volt(DC) 15.5 ~ 18.2Volt(DC) 18 ~ 21Volt(DC) 27.6 ~ 32.4Volt(DC) 33.7 ~ 39.2Volt(DC) 45 ~ 52.5Volt(DC) 57.6~ 67.2Volt(DC) 3.8 ~ 4.45Volt(DC) 5.75 ~ 6.75Volt(DC) 13.8 ~ 16.2Volt(DC) 18 ~ 21Volt(DC) 28.8 ~ 33.6Volt(DC) 57.6~ 67.2Volt(DC) 13.8 ~ 16.2Volt(DC) 15.75 ~ 18.2Volt(DC) 18 ~ 21Volt(DC) 27.6 ~ 32.4Volt(DC) 31 ~ 36.5Volt(DC) 57.6~ 67.2Volt(DC) 5.75 ~ 6.75Volt(DC) 13.8 ~ 16.2Volt(DC) 18 ~ 21Volt(DC) 27.6 ~ 32.4Volt(DC) 31 ~ 36.5Volt(DC) 57.6~ 67.2Volt(DC)

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150mV pk-pk 150mV pk-pk 150mV pk-pk 150mV pk-pk 150mV pk-pk 150mV pk-pk 150mV pk-pk 200mV pk-pk 220mV pk-pk 240mV pk-pk 80mV pk-pk 80mV pk-pk 120mV pk-pk 150mV pk-pk 150mV pk-pk 240mV pk-pk 240mV pk-pk 240mV pk-pk 240mV pk-pk 240mV pk-pk 200mV pk-pk 300mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk 120mV pk-pk

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SP series 320, 480, 500 and 750W Single Output Enclosed Power Supply with PFC Function

General Specifications

Input Voltage Range (Note3) 90 ~ 264VAC 127~370 Volts(DC) Frequency Range 47-63 Hz 20Amps/115VAC; 45Amps 230VAC max. Inrush Current, typ: (cold start) Input Current (SP320) 3.3Volts(DC):2.5Amps@115VAC;1.5 Amps@230VAC 5~48Volts(DC): 5Amps@115VAC;2.5Amps@230VAC (SP480) 6.5Amps @ 115VAC 3.5 Amps @ 230VAC (SP500) 7.0Amps @ 115VAC 3.5 Amps @ 230VAC (SP750) 8.8Amps @ 115VAC 4.2 Amps @ 230VAC Leakage current < 3.5mAmps / 240VAC max. Min Load See Selection Chart Power Factor @ FL (SP320, 480) PF> 0.95 / 230VAC > 0.98 / 115VAC (SP500) PF > 0.95 / 230VAC > 0.95 / 115VAC (SP750) PF> 0.96 / 230VAC > 0.99 / 115VAC

Insulation Resistance EMI Harmonic Current Remote Control (Note 6) (SP480)

Output Specifications Voltage and Current Line Regulation Load Regulation Voltage Tolerance (Note 2) Ripple/Noise (Note 1) Hold Up Time @ FL Setup, Rise Time @ FL Over Voltage Protection Over Current Protection (SP320) (SP480) (SP500) (SP750) Over Temperature (Note 4)

DC Volt Adjust Peak Load: 10min (Note 5)

See Selection Chart ±0.5%, typ. ±2.0% max. ±2.0% max. See Selection Chart 16mS min. 800mS, 50mS /230VAC min. See Selection Chart Shut down o/p voltage,re-power 105 ~ 135% rated output power Hiccup mode, auto recover 105-135% (102-120% 3.3 & 5 Vout) Constant current limiting,auto recover Fold back current limiting,auto recover Constant current limiting, unit will Hiccup after 3sec 80°C ±5°C (70°C±5°C 3.3;5V only) 85°C ±5°C (SP750) Detect on TSW1 90°C ±5°C Detect on TSW2 Shut down o/p voltage, auto recover after cool down See Selection Chart 10% max.

*Please see page 4 for Waiver of Liability Statement

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100M / 500Volts(DC) Compliance to EN55022B (CISPR22B) Compliance to EN61000-3-2,-3

RC+/RC-: 4~10Volts(DC) Power off 0 ~ 0.8Volts(DC) Power on (SP500, 750) RC+/RC-: short= Power off open= Power on Power Good/Fail (SP750) 50mS/1mS Efficiency See Selection Chart Isolation 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground EMS Compliance to EN61000-4-2,3,4,5,6,8,11 ENV50204,EN55024, light Industry Level, Criteria A Fan Control RTH1 or RTH2 50°C Fan On, 45°C Fan Off, 70°C output shutdown

Enclosed

Input Specifications

Environmental Specifications Oper. Temperature (SP320) (SP480, 750) (SP500) Storage Temperature (SP320, 480, 750) (SP500) Relative Humidity Temperature Coefficient MTBF (SP320) (SP480) (SP500) (SP750) Vibration

-20°C to +65°C (See Derate Curve) -20°C to +60°C (See Derate Curve) -10°C to +50°C (See Derate Curve) -40°C to +85°C, 10~95% RH -20°C to +85°C, 10~95% RH 20~90% RH non cond 0.05% / °C (0-50°C) max. 207KHrs min,MIL-HDBK-217F(25°C) 120.5KHrs min,MIL-HDBK-217F(25°C) 133.4KHrs min,MIL-HDBK-217F(25°C) 124KHrs min,MIL-HDBK-217F(25°C) 10~500Hz, 2G10min./1cycle, period for 60min. each along X, Y, Z axes

Note 1. Ripple & noise are measured at 20MHz of bandwidth by using a 12” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor. 2. Tolerance: includes set up tolerance, line regulation and load regulation. 3. Derating may be needed under low input voltages. Please check the derating curve for more details. 4. TSW1: Detect on heatsink of power transistor. TSW2: Detect on heatsink of output diode. 5. 33% Duty cycle maximum within every 30 minute. Average output power should not exceed the rated POWER. 6. The power supply unit will have no output if the shorting connector is not assembled between RC+ & RC-.

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409

SP series 320, 480, 500 and 750W Single Output Enclosed Power Supply with PFC Function

Mechanical Dimensions - SP320

Mounting Feet Optional

Enclosed

Block Diagram - SP320 SP320

Output Derating Curve - SP320

410

Static Characteristics - SP320

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SP series 320, 480, 500 and 750W Single Output Enclosed Power Supply with PFC Function

Enclosed

Mechanical Dimensions - SP480

Block Diagram - SP480SP480

Output Derating Curve - SP480

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Static Characteristics - SP480

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411

SP series 320, 480, 500 and 750W Single Output Enclosed Power Supply with PFC Function

Mechanical Dimensions - SP500

Enclosed

Block Diagram - SP500

Output Derating Curve - SP500

412

Output Derating Curve VS Input Voltage - SP500

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SP series 320, 480, 500 and 750W Single Output Enclosed Power Supply with PFC Function

Enclosed

Mechanical Dimensions - SP750

Block Diagram - SP750

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413

SP series 320, 480, 500 and 750W Single Output Enclosed Power Supply with PFC Funcion

Control Terminal Instruction Manual - SP750

Enclosed

Output Derating Curve - SP750

414

Static Characteristics- SP750

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PSP series 600W with PFC and Parallel Function Universal AC input Protections: Short circuit/Over load/Over voltage/ Over temperature Built-in active PFC function With DC OK Signal Output

Enclosed

Current sharing With power good and fail signal output Built-in remote ON-OFF control Built-in remote sense function

Environmental Specifications Oper. Temperature

-20°C to +60°C (See Derate Curve)

Storage Temperature Relative Humidity Temperature Coefficient

-40°C to +85°C, 10~95% RH 20~90% RH, non cond ±0.03% / °C (0-50°C)

MTBF Vibration

116.4KHrs min,MIL-HDBK-217F(25°C) 10~500Hz, 2G10min./1cycle, period for 60min. each along X, Y, Z axes

Model Number

Output Volts

Output Amps

*Please see page 2 for Waiver of Liability Statement

OVP

Min Load

5.75~6.75Volt(DC) 13.8~16.2Volt(DC) 15.5~18.2Volt(DC) 18~21Volt(DC) 27.6~32.4Volt(DC) 31~36.5Volt(DC) 57.6~67.2Volt(DC)

0~80Amps 0~50Amps 0~44.5Amps 0~40Amps 0~25Amps 0~22.2Amps 0~12.5Amps

DC Volt Adjust

Load Reg

Efficiency

SINGLE OUTPUT PSP600-5 PSP600-12 PSP600-13.5 PSP600-15 PSP600-24 PSP600-27 PSP600-48

5 Volts(DC) 12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

80 Amps 50 Amps 44.5 Amps 40 Amps 25 Amps 22.2 Amps 12.5 Amps

4.75~5.5Volt(DC) 10~13.2Volt(DC) 12~15Volt(DC) 13.5~18Volt(DC) 20~26.4Volt(DC) 24~30Volt(DC) 41~56Volt(DC)

±1.0% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5% ±0.5%

79% 84% 85% 85% 86% 86% 87%

Notes

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415

PSP series 6000W with PFC and Parallel Function

Input Specifications

Enclosed

Input Voltage Range (Note 4) Frequency Range Inrush Current, typ: (cold start) Input Current Leakage current Min Load Power Factor (typ.) @ FL

Output Specifications 90 ~ 264VAC 127~370 Volts(DC) 47-63Hz 40Amps/230VAC 3.5 Amps@230VAC < 3.5 mAmps / 240VAC See Selection Chart 0.96/230VAC

General Specifications Safety Insulation Resistance EMI Harmonic Current Efficiency Isolation

EMS

Remote Control (PSP500) Pok Signal

UL60950-1, TUV EN60950-1 Approved 100M /500Volts(DC)/25°C/70%RH Compliance to EN55022B(CISPR22B) Compliance to EN61000-3-2,-3 See Selection Chart 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground Compliance to EN61000-4-2,3,4,5,6,8,11 ENV50204, ENV55024 light Industry Level, Criteria A RC+/RC-: Short=Power ON Open=Power Off PSU turn on: 3.3~5.6Volts(DC) PSU turn off: 0~1Volts(DC)

Physical Specifications Size Weight

416

170 x 120 x 93 mm (6.69”x 4.72”x 3.66”) 67.02 oz (1900g)

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Voltage and Current Line Regulation Load Regulation Voltage Tolerance (Note 2) Ripple/Noise (Note 1)

Hold Up Time @ FL Setup, Rise Time @ FL Over Voltage Protection Over Current Protection Over Temperature Protection

DC Voltage Adjust Peak Load (Note 3) (PSP1000) (PSP1500)

See Selection Chart ±0.5% max. See Selection Chart 2.0%: 5Volts(DC) 1.0%: 12~48Volts(DC) 180mVpk-pk: 5Volts(DC) 240mVpk-pk: 12~27Volts(DC) 300mVpk-pk: 48Volts(DC) 20mS min. 1500mS, 50mS See Selection Chart Shutdown o/p voltage, re-power 105~135% rated output power Constant current limiting,auto-recover +5Volts(DC): 95°C(TSW1) detect on heatsink of power transitor; 95°C(TSW51) detect on heatsink of power diode +12~48Volts(DC): 85°C(TSW1) detect on heatsink of power transitor; 80°C(TSW51) detect on heatsink of power diode See Selection Chart 5Volts(DC): 800W 12~48Volts(DC): 1000W 5Volts(DC): 1200W 12~48Volts(DC): 1500W

Note 1. Ripple & noise are measured at 20MHz of bandwidth by using a 12” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor. 2. Tolerance : includes set up tolerance, line regulation and load regulation. 3. 10% Duty cycle maximum within every 30 seconds(max.). Average output power should not exceed the rated power. 4. Derating may be needed under low input voltages. Please check the derating curve for more details.

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PSP series 600W with PFC and Parallel Function

Enclosed

Mechanical Dimensions - PSP600

Block am - Diagram PSP600 - PSP600

Output Derating Curve - PSP600

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Output Derating Curve VS Input Voltage - PSP600

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417

PSP series 600W with PFC and Parallel Function

Control Terminal Instruction Manual - PSP600

Enclosed 418

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RSP1000 series Universal AC input

AC input active surge current limiting

Protections: Short circuit/Over load/ Over voltage/Over temperature

DC OK Signal

Built-in active PFC function, PF>0.95

Output voltage can be trimmed between 40~110% of the rated output voltage

Forced air cooling by built-in DC fan

High power density 10.7W/cubic inch

Built-in remote sense function

Active Current sharing up to 4000W (3+1)

Built-in remote ON-OFF control

Built-in 5 Volt/0.5 Amp auxiliary power

Enclosed

1000W Single Output Power Supply

1 U low profile of 41mm

General Specifications Safety Insulation Resistance EMI (Note 4) Harmonic Current Efficiency Isolation EMS (Note 4) Auxiliary power(Aux) Remote ON/OFF Dc OK Signal Output Voltage Trim Current Sharing

Input Specifications UL60950-1, TUV EN60950-1 100MΩ / 500Volts(DC) Compliance to EN55022 (CISPR22) Compliance to EN61000-3-2,-3 See Selection Chart 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground Compliance to EN61000-42,3,4,5,6,8,11 ENV50204, EN55024, EN61000-6-2 EN61204-3 light Industry Level, Criteria A 5 Volts @ 0.5 Amps (+5%, -8%) Please see the Function Manual Please see the Function Manual 40-110%; Please see Function Manual Please see the Function Manual

Environmental Specifications Oper. Temperature Storage Temperature Operating Humidity 2 Temperature Coefficient MTBF Vibration

-20°C to +60°C (See Derate Curve) -40°C to +85°C, 10~95% RH 0~90% RH non cond ±0.02% / °C (0-50°C) 35KHrs min,MIL-HDBK-217F(25°C) 10~500Hz, 2G10min./1cycle, period for 60min. each along X, Y, Z axes

Physical Specifications Size Weight

295 x127 x 41mm (11.61”x5 ”x1.61”) 68.78 oz (1950g)

Input Voltage Range (Note 3) Frequency Range Inrush Current, typ: (cold start) Input Current Leakage current Min Load Power Factor @ FL

90 ~ 264VAC 127~370 Volts(DC) 47-63 Hz 25Amps/115VAC; 40Amps 230VAC 12 Amps/115V; 6.0 Amps/230V < 2.0 mAmps / 240VAC See Selection Chart 0.95 / 230V; 0.98 / 115V

Output Specifications Voltage and Current Line / Load Regulation Voltage Tolerance (Note 2) Ripple/Noise (Note 1) Hold Up Time @ FL Setup, Rise Time @ FL Over Voltage Protection Over Current Protection Over Temperature Protection DC Volt Adjust

See Selection Chart ±0.5% ±1.0% 150mVpk-pk 16mS / 230VAC 300mS, 50mS See Selection Chart Shutdown o/p volage, re-power 105~125% rated output power Constant current limit,auto recover 85°C ±5°C (TSW2) detected on heatsink of O/P diode; 75°C ±5°C (TSW1) detected on heatsink of power transistor See Selection Chart

Note: 1. Ripple & noise are measured at 20MHz of bandwidth by using a 12” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor. 2. Tolerance : includes set up tolerance, line reg and load reg. 3. Derating may be needed under low input voltages. Please check the derating curve for more details. 4. The Power Supply is considered a component. The final equipment should be retested for EMC Directive compliance.

419

RSP1000 series 1000W Single Output Power Supply Model Number Output Volts Output Amps OVP Min Load DC Volt Efficiency Adjust

Enclosed

RSP1000-12 RSP1000-15 RSP1000-24 RSP1000-27 RSP1000-48

Mechanical Dimensions

Derating Curve

420

12 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

60 Amps 50 Amps 40 Amps 37 Amps 21 Amps

13.8 ~ 16.8Volt(DC) 17 ~ 20.5Volt(DC) 27.6 ~ 32.4Volt(DC) 31 ~ 36.5Volt(DC) 56.6~ 66.2Volt(DC)

0~60 Amps 0~50 Amps 0~40 Amps 0~37 Amps 0~21 Amps

10~13.5Volt(DC) 83% 13.5~16.5Volt(DC) 85% 20~26.4Volt(DC) 88% 24~30Volt(DC) 88% 43~55Volt(DC) 90%

RSP1500 series

Enclosed

1500W Single Output Power Supply

Universal AC input

AC input active surge current limiting

Protections:Short circuit/Over load/Over voltage/Over temperature

High efficiency up to 91%

Built-in active PFC function, PF>0.95

Output voltage can be trimmed between 70~100% of the rated output voltage

Forced air cooling by built-in DC ball bearing fan

High power density 8.3W/cubic inche

Built-in remote sense function

Current sharing up to 6000W(3+1)

Built-in remote ON OFF OFFcontrol control

Alarm signal ouput

ZVS new technology

Built-in 12Volts/0.1Amps auxiliary output for remote control

Input Specifications

Model Number

Environmental Specifications

Output Volts

Output Amps

12 Volts(DC) 13.5 Volts(DC) 15 Volts(DC) 24 Volts(DC) 27 Volts(DC) 48 Volts(DC)

240 Amps 125 Amps 100 Amps 63 Amps 56 Amps 32 Amps

OVP

Min Load

DC Volt Adjust

Efficiency

SINGLE OUTPUT RSP1500-5 RSP1500-12 RSP1500-15 RSP1500-24 RSP1500-27 RSP1500-48

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5.75 ~ 6.75Volt(DC) 13.8 ~ 16.8Volt(DC) 17 ~ 20.5Volt(DC) 27.6 ~ 32.4Volt(DC) 31 ~ 36.5Volt(DC) 57.6~ 67.2Volt(DC)

0~240Amps 0~125Amps 0~100Amps 0~63Amps 0~56Amps 0~32Amps

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4.5~5.5Volt(DC) 10~13.5Volt(DC) 13.5~16.5Volt(DC) 20~26.4Volt(DC) 24~30Volt(DC) 43~56Volt(DC)

80% 87% 87% 90% 90% 91%

421

RSP1500 series 1500W Single Output Power Supply

General Specifications

Physical Specifications

Notes

Enclosed

Output Specifications

*Please see page 4 for Waiver of Liability Statement

Output Derating Curve

422

Static Characteristics

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RSP1500 series 1500W Single Output Power Supply

Enclosed

Mechanical Dimensions

Block Diagram

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423

RSP1500 series 1500W Single Output Power Supply

Function Manual

Enclosed 424

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RSP1500 series

Enclosed

1500W Single Output Power Supply

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425

SCP series 600-2400W Parallel (N+1) with PFC Function AC input 180~260VAC only AC input 180~260VAC, 3 Phase 3 wire (SCP2K4) Protections:Short circuit/Over load/Over voltage/Over temperature

SCP1K2

SCP600

PF> 0.98@ 230VAC

Enclosed

Built in remote sense function Built-in remote ON-OFF control Built-in power good signal output Built-in parallel operation function(N+1) Can adjust from 20~100% output voltage by external control 1-5V Forced air cooling by built-in DC fan

SCP2K4

Input Specifications Input Voltage Range 180 ~ 260VAC 260~370 Volts(DC) Frequency Range 47-63Hz Inrush Current, max: (cold start) 60Amps/230VAC Input Current (SCP600, 800) 5.0Amps@230VAC (SCP1K2) 10Amps@230VAC (SCP2K4) 15Amps@230VAC Leakage current < 3.5mAmps / 240VAC Min Load See Selection Chart Power Factor (typ.) @ FL > 0.98/230VAC

Output Specifications Voltage and Current Line Regulation Load Regulation (SCP1K2/2K4)

See Selection Chart ±0.5% ±1.0%: 5Volts(DC) ±0.5%: 9~60Volts(DC) ±1.5%: 5Volts(DC) ±1.0%: 9Volts(DC) ±0.5%: 12~60Volts(DC)

Model Number

Output Volts

Output Amps

Voltage Tolerance (Note 2)

±2.0%: 5Volts(DC) ±1.5%: 9Volts(DC) ±1.0%: 12~60Volts(DC) Ripple/Noise (Note 1) See Selection Chart Hold Up Time @ FL 12mS min. Over Voltage Protection 110~135% follow to output set up point Shutdown o/p voltage, re-power Over Current Protection (Note3) 105~115% rated output power Current limiting, delay shut down o/p, re-power Over Temperature Protection > 100°C / measure by heat sink,near transformer, Shutdown o/p voltage auto-recover after cool down DC Voltage Adjust ±0.3% typ. adjustment by potentiometer 20~100% adjustment by 1~5Volts(DC) external control

Min Load

Ripple & Noise

Efficiency

SINGLE OUTPUT SCP600-5 SCP600-9 SCP600-12 SCP600-15 SCP600-18 SCP600-24 SCP600-36 SCP600-48 SCP600-60

426

5 Volts(DC) 9 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 36 Volts(DC) 48 Volts(DC) 60 Volts(DC)

100 Amps 66 Amps 50 Amps 40 Amps 33.3 Amps 25 Amps 16.6 Amps 12 Amps 10Amps

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0~100Amps 0~66Amps 0~50Amps 0~40Amps 0~33.3Amps 0~25Amps 0~16.6Amps 0~12Amps 0~10Amps

100mVpk-pk 100mVpk-pk 120mVpk-pk 150mVpk-pk 180mVpk-pk 240mVpk-pk 360mVpk-pk 480mVpk-pk 500mVpk-pk

80% 82% 84% 85% 86% 89% 89% 90% 90%

Continued

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SCP series 600-2400W Parallel (N+1) with PFC Function Model Number

Output Volts

Output Amps

Min Load

Ripple & Noise

Efficiency

SCP800-9 SCP800-12 SCP800-15 SCP800-18 SCP800-24 SCP800-36 SCP800-48 SCP800-60 SCP1K2-5 SCP1K2-9 SCP1K2-12 SCP1K2-15 SCP1K2-18 SCP1K2-24 SCP1K2-36 SCPK2-48 SCP1K2-60 SCP2K4-9 SCP2K4-12 SCP2K4-15 SCP2K4-18 SCP2K4-24 SCP2K4-36 SCP2K4-48 SCP2K4-60

9 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 36 Volts(DC) 48 Volts(DC) 60 Volts(DC) 5 Volts(DC) 9 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 36 Volts(DC) 48 Volts(DC) 60 Volts(DC) 9 Volts(DC) 12 Volts(DC) 15 Volts(DC) 18 Volts(DC) 24 Volts(DC) 36 Volts(DC) 48 Volts(DC) 60 Volts(DC)

88Amps 66 Amps 53 Amps 44.4 Amps 33Amps 22.2 Amps 16 Amps 13 Amps 200 Amps 133 Amps 100 Amps 80 Amps 66.6 Amps 50 Amps 33.3 Amps 24 Amps 20 Amps 266 Amps 200 Amps 160 Amps 133.3 Amps 100 Amps 66.6 Amps 50 Amps 40 Amps

General Specifications Safety Insulation Resistance EMI Harmonic Current Efficiency Isolation

EMS

Power Good Signal Special Function Cooling

90mVpk-pk 120mVpk-pk 150mVpk-pk 180mVpk-pk 240mVpk-pk 360mVpk-pk 480mVpk-pk 500mVpk-pk 100mVpk-pk 100mVpk-pk 120mVpk-pk 150mVpk-pk 180mVpk-pk 240mVpk-pk 360mVpk-pk 480mVpk-pk 500mVpk-pk 90mVpk-pk 120mVpk-pk 150mVpk-pk 150mVpk-pk 150mVpk-pk 200mVpk-pk 200mVpk-pk 200mVpk-pk

83% 84% 85% 86% 88% 88% 89% 90% 80% 82% 84% 85% 86% 89% 89% 90% 90% 83% 84% 85% 86% 88% 88% 89% 89%

Environmental Specifications UL60950-1, TUV EN60950-1 Approved 100M /500Volts(DC)/25°C/70%RH Compliance to EN55022A (CISPR22A) Compliance to EN61000-3-2,-3 See Selection Chart 3000VAC Input - Output 1500VAC Input - Ground 500VAC Output - Ground Compliance to EN61000-4-2,3,4,5,6,8,11 ENV50204, light Industry Level, Criteria A Open collector of NPN transistor DC Volt. Adjust, remote sensing, remote control, parallel operation By fan, >20% load or >50°C fan on

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0~88Amps 0~66Amps 0~53Amps 0~44.4Amps 0~33Amps 0~22.2Amps 0~16Amps 0~13Amps 0~200Amps 0~133Amps 0~100Amps 0~80Amps 0~66.6Amps 0~50Amps 0~33.3Amps 0~24Amps 0~20Amps 0~266Amps 0~200Amps 0~160Amps 0~133.3Amps 0~100Amps 0~66.6Amps 0~50Amps 0~40Amps

Enclosed

SINGLE OUTPUT

Oper. Temperature Storage Temperature Relative Humidity Temperature Coefficient MTBF (SCP600) (SCP800) (SCP1K2) (SCP2K4) Vibration

-20°C to +65°C (See Derate Curve) -20°C to +85°C, 10~95% RH 20~90% RH non cond ±0.04% / °C (0-50°C) 74.9KHrs min,MIL-HDBK-217F(25°C) 74.9KHrs min,MIL-HDBK-217F(25°C) 37.4KHrs min,MIL-HDBK-217F(25°C) 24.9KHrs min,MIL-HDBK-217F(25°C) 10~200Hz, 2G10min./1cycle, period for 60min. each along X, Y, Z axes

PHYSICASpecifi L SPECcations IFICATIONS Physical Size

(SCP600/800) (SCP1K2) (SCP2K4) Weight (SCP600/800) (SCP1K2) (SCP2K4)

290 x 120 x 68 mm (11.42”x 4.72”x 2.68”) 290 x 120 x 132 mm (11.42”x 4.72”x 5.20”) 350 x 212 x 124 mm (13.78x 8.35”x 4.88”) 67.02 oz (1900g) 176.37 oz (5000g) 317.47oz (9000g)

*Please see page 4 for Waiver of Liability Statement

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427

SCP series 600-2400W Parallel (N+1) with PFC Function Unit:mm

Mechanical Dimensions - SCP600/800

Enclosed

Output Derating Curves - SCP600/800

428

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SCP series 600-2400W Parallel (N+1) with PFC Function

Enclosed

Control Terminal Instruction Manual

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429

SCP series 600-2400W Parallel (N+1) with PFC Function Unit:mm

Mechanical Dimensions - SCP1K2

Enclosed

Output Derating Curves - SCP1K2

430

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SCP series 600-2400W Parallel (N+1) with PFC Function Unit:mm

Enclosed

Mechanical Dimensions - SCP2K4

Output Derating Curves - SCP2K4

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431

SCP series 600-2400W Parallel (N+1) with PFC Function

FIG. A: 3 Ø 3W 220VAC System (Standard Model For Stock) - SCP2K4

Enclosed

FIG. B: 1 Ø 220VAC System - SCP2K4

FIG. C: 3 Ø 4W 220/380VAC System - SCP2K4

FIG. D: 3 Ø 4W 190/110VAC System

432

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HIGH DENSITY DC/DC converters For distributed power systems requiring highly efficient and compact power conversion, DC/DC converter modules offer flexible power solutions suitable for a wide array of operating conditions. Telecommunications, industrial control and embedded systems are among the popular applications for these modules. DC/DC converters come in isolated and nonisolated formats with various input and output voltage options at power levels ranging from a few watts up to several hundred watts. Packaging styles are similarly diverse. Nonisolated DC/DC converters, often called point-of-load converters, frequently come in through-hole SIP, DIP or surface-mount packages. Meanwhile, isolated DC/DC converters are typically offered in standard footprints such as 1 inch x 2 inch or “brick” sizes— full, 1/2, 1/4, 1/8 and 1/16 bricks are common. Isolated converters also offer the choice of open-frame, enclosed or encapsulated packaging, which allow for tradeoffs in thermal performance, durability and cost. When selecting a DC/DC converter, consider the following criteria as they relate to your application requirements: Open Frame versus Encapsulated. For applications where the DC/DC converter is protected from the elements, openframe construction represents the most cost-effective option. However, for harsh environments, encapsulated models offer protection against dust and moisture, reduced vulnerability to shock and vibration and improved thermal performance. (For more on these two packaging styles, see the respective sections on open-frame and encapsulated power supplies in this Sourcebook.)

High Density

Output Voltage (V) and Current (A). DC/DC converters offer either single, dual or triple outputs, typically in the range of 1.5 to 48 VDC. When determining the supply-voltage levels required in an application, note the current levels that will be required at each voltage. Isolated vs Nonisolated. DC/DC converters are available with or without input-to-output isolation. Isolated converters offer advantages with respect to safety, reliability and system performance, but with some tradeoffs. Nonisolated converters generally provide higher power and current density, higher efficiency and lower cost than similarly rated isolated models. Input Voltage Range. Isolated DC/DC converters are typically designed to accept wide ranges of input voltage, roughly centered around popular nominal values such as 12, 24 or 48 VDC. For example, a supply with 2:1 input at 48 VDC nominal will accept inputs from 36 to 72 VDC. The same supply with 4:1 input will accept 18 to 72 VDC. Other options for input range include 9 to 18 VDC (2:1 at 12 VDC nominal); 18 to 36 (2:1 at 24 VDC nominal), and 9 to 36 V (4:1 at 24 VDC nominal). Nonisolated converters tend to be designed for lower input-voltage ranges such as 4.5 to 14 V or for narrow input-voltage ranges. Loading. Older DC/DC converter models with single or multiple outputs often require a minimum level of loading, or preloading, to ensure stable operation. Newer models with multiple outputs may also need preloading, which can be accomplished by adding load resistors to a converter’s outputs. Compare the DC/DC converter specification with loading conditions in the application to determine whether preloading is necessary. Load capacitance is another consideration. DC/DC converters typically have low levels of output capacitance, which limits their ability to drive highly capacitive loads. If load capacitance exceeds a converter’s specified level, the converter may shut down or enter a current-limiting mode. Regulation. Fluctuations in line (input voltage) and load produce changes in DC/DC converter output voltage. These sensitivities to changing inputs and outputs are quantified on converter data sheets as line and load regulation. When selecting a DC/DC converter, determine the application’s requirement for voltage regulation to determine whether a converter’s line and load regulation specifications are adequate. Ripple and Noise. DC/DC converters typically specify maximum values of output ripple and noise in millivolts peak-topeak for each output. Be sure to compare a converter’s data sheet specifications for ripple and noise with application requirements when choosing a DC/DC converter. Efficiency. Typical values of efficiency are often specified for DC/DC converters. These values provide a rough means of comparing the performance of different models. However, the efficiency of a given DC/DC converter will vary with operating conditions such as load. Consider the typical operating conditions and efficiency requirements of the application when selecting a DC/DC converter. Thermal Management. The ambient temperature range expected in the application together with converter thermal specifications will determine whether convection cooling or forced-air cooling may be required, or whether derating of the converter may be necessary. Note that the thermal performance of the converter can be dramatically affected by the choice of open-frame or encapsulated packaging. Safety. Some newer DC/DC converter models are approved to UL60950-1 and related safety standards. However for most applications, safety approvals such as UL60950-1 are not required for DC/DC converters because these power supplies operate from safety extra low voltage (SELV) circuits, which are less than 60 V.

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379

433

DU1P0 series Isolated and Unregulated 1 WATT Modular DC/DC Converters Low Cost 1 Watt in SIP Package Unregulated Outputs Input/Output Isolation up to 3KVDC UL 94-V0 Non-Conductive Case Unit Measures 0.24”W x 0.77”L x 0.4”H

Internal Input & Output Filters

General Specifications

Input Specifications Input Voltage Ranges:

High Density

Input Current Input Filter

5 VDC Nominal 4.5-5.5 VDC 12 VDC Nominal 10.8-13.2 VDC 15 VDC Nominal 13.5-16.5 VDC 24 VDC Nominal 21.6-26.4 VDC (Nom Vin, Full Load) See Selection Chart Capacitor

Input-Out Isolation Efficiency (Nom I/P & FL) Switching Frequency Isolation Resistance Isolation Capacitance Safety

1000VDC; (3000VDC suffix-N) See Selection Chart 60Khz 10000 M Ohms 30pF, max. UL, TUV, CB, CE

*Please see page 4 for Waiver of Liability Statement

Model Number Output Voltage Output mA

Input Range

Efficiency

Max I.P. Current

Max Load Capacitance

SINGLE OUTPUT DU1P0-05S05(N) 5 VDC DU1P0-12S05(N) DU1P0-15S05(N) DU1P0-24S05(N) DU1P0-05S12(N) 12 VDC DU1P0-12S12(N) DU1P0-15S12(N) DU1P0-24S12(N) DU1P0-05S15(N) 15 VDC DU1P0-12S15(N) DU1P0-15S15(N) DU1P0-24S15(N)

200 200 200 200 83 83 83 83 67 67 67 67

4.5-5.5 VDC 10.8-13.2 VDC 13.5-16.5 VDC 21.6-26.4 VDC 4.5-5.5 VDC 10.8-13.2 VDC 13.5-16.5 VDC 21.6-26.4 VDC 4.5-5.5 VDC 10.8-13.2 VDC 13.5-16.5 VDC 21.6-26.4 VDC

77% 77% 73% 72% 82% 82% 79% 78% 81% 79% 80% 78%

274mA 114mA 97mA 61mA 255mA 106mA 89mA 56mA 261mA 112mA 88mA 57mA

6.2uF 6.2uF 6.2uF 6.2uF 6.2uF 6.2uF 6.2uF 6.2uF 6.2uF 6.2uF 6.2uF 6.2uF

DUAL OUTPUT DU1P0-05D05(N) +/-5 VDC DU1P0-12D05(N) DU1P0-15D05(N) DU1P0-24D05(N) DU1P0-05D12(N) +/-12 VDC DU1P0-12D12(N) DU1P0-15D12(N) DU1P0-24D12(N) DU1P0-05D15(N) +/-15 VDC DU1P0-12D15(N) DU1P0-15D15(N) DU1P0-24D15(N)

+/-100 +/-100 +/-100 +/-100 +/-42 +/-42 +/-42 +/-42 +/-33 +/-33 +/-33 +/-33

4.5-5.5 VDC 10.8-13.2 VDC 13.5-16.5 VDC 21.6-26.4 VDC 4.5-5.5 VDC 10.8-13.2 VDC 13.5-16.5 VDC 21.6-26.4 VDC 4.5-5.5 VDC 10.8-13.2 VDC 13.5-16.5 VDC 21.6-26.4 VDC

78% 77% 75% 75% 82% 81% 80% 78% 81% 82% 80% 79%

270mA 114mA 94mA 59mA 258mA 109mA 88mA 57mA 257mA 106mA 87mA 55mA

3.0uF 3.0uF 3.0uF 3.0uF 3.0uF 3.0uF 3.0uF 3.0uF 3.0uF 3.0uF 3.0uF 3.0uF

Note - (N) Denotes that there is an optional 3000VDC Input to Output Isolation version available for the DU1P0 family of products. To order a DU1P0 product with the optional 3000VDC Isolation, simply add an “N” to the end of the standard Part Number. For example DU1P0-05S05N.

434

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DU1P0 series Isolated and Unregulated 1 WATT Modular DC/DC Converters

Output Specifi cations OUTPUT SPECIFICATIONS See Selection Chart +/- 10% on 5V output +/- 8% on all others +/- 1.3%/1% of Vin +/-0.1%/°C max. 100mV Pk-Pk, typ +/-5%, max 1 Second max 10% of FL Min Vin & Resitive Load See Selection Chart

Environmental Specifications Oper. Temperature Storage Temperature Relative Humidity MTBF (Note 2) Thermal Shock Vibration

0.77(19.6)

0.016(0.4) FRONT VIEW

0.01x 0.02 ( 0.25 x 0.5) Rectangular Pin 0.10(2.54)

0.14(3.6)

0.085(2.16)

0.20(5.08) BOTTOM VIEW 1 2 4 5 6 7

0.24(6.1)

-25 to +85°C(See Derate Curve) -55 to +105°C * 5% to 95% RH * 1.471 MHrs MIL-STD-810D 10-55Hz, 10G, 30 Minutes along X, Y, and Z

0.40(10.2)

0.053(1.35)

All dimensions in inches(mm) Tolerance : x.xx±0.02(x.x±0.5) x.xxx±0.01(x.xx±0.25) Pin pitch tolerance ±0.014(0.35)

High Density

Voltage and Current Load Regulation (Note 1) 20% - FL Line Regulation (HL-LL) Temperature Coefficient Ripple/Noise(Single/Dual) Voltage Accuracy Short Circuit Protection Minimum Load (Note 1) Max. Load Capacitance

Mechanical Dimensions

Physical Specifications Dimensions Case Material Construction Weight

0.77 x 0.24 x 0.40” UL 94-V0 Non-Conductive Black Plastic Fully Encapsulated (UL94-V0) 2g (0.071oz)

NOTES 1) A Minimum 10% Load is required to maintain regulation 2) BELLCORE TR-NWT-000332. Case 1: 50% Stress, Temperature at 40°C. (Ground fixed and controlled environment)

STANDARD MODELS Pin #

Single Outputs Dual Outputs

1 2 4 5 6 7

+ Input - Input - Output NC + Output No Pin

Output Derating Curve

+ Input - Input - Output Common + Output No Pin

“N” MODELS Pin #

Single Outputs Dual Outputs

1 2 4 5 6 7

+ Input - Input No Pin - Output NC + Output

+ Input - Input No Pin - Output Common + Output

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435

ASD105 series Isolated and Regulated 1.5 WATT Modular DC/DC Converters Low Ripple and Noise Regulated Outputs 500V Isolation Short Circuit Protection Standard Pinouts

Unit Measures 0.8”W x 1.25”L x0.4”H

Input PI Filter

Output Specifications

Input cations INPUTSpecifi SPECIFICATIONS Input Voltage Ranges:

High Density

Input Filter

5 VDC Nominal 12 VDC Nominal 24 VDC Nominal 28 VDC Nominal 48 VDC Nominal PI Type

Model Number SINGLE OUTPUT ASD105-5S5 ASD105-12S5 ASD105-24S5 ASD105-28S5 ASD105-48S5 ASD105-5S12 ASD105-12S12 ASD105-24S12 ASD105-28S12 ASD105-48S12 ASD105-5S15 ASD105-12S15 ASD105-24S15 ASD105-28S15 ASD105-48S15 DUAL OUTPUT ASD105-5D12 ASD105-12D12 ASD105-24D12 ASD105-28D12 ASD105-48D12 ASD105-5D15 ASD105-12D15 ASD105-24D15 ASD105-28D15 ASD105-48D15

436

4.5-5.5 VDC 10.8-13.2 VDC 21.6-26.4 VDC 25.2-30.8 VDC 43.2-52.8 VDC

Voltage and Current Load Regulation Line Regulation (HL-LL) Temperature Coefficient Ripple/Noise(Single/Dual) Voltage Accuracy Short Circuit Protection Efficiency

See Selection Chart 20% to FL +/- 0.3% +/-0.02%/°C 50mVp-p max. +/- 4% 1 second max. 50%

Output Voltage

Output mAmps Input Range

5 VDC

300 300 300 300 300 125 125 125 125 125 100 100 100 100 100

4.5-5.5 VDC 10.8-13.2 VDC 21.6-26.4 VDC 25.2-30-8 VDC 43.2-52.8 VDC 4.5-5.5 VDC 10.8-13.2 VDC 21.6-26.4 VDC 25.2-30-8 VDC 43.2-52.8 VDC 4.5-5.5 VDC 10.8-13.2 VDC 21.6-26.4 VDC 25.2-30-8 VDC 43.2-52.8 VDC

+/-60 +/-60 +/-60 +/-60 +/-60 +/-50 +/-50 +/-50 +/-50 +/-50

4.5-5.5 VDC 10.8-13.2 VDC 21.6-26.4 VDC 25.2-30-8 VDC 43.2-52.8 VDC 4.5-5.5 VDC 10.8-13.2 VDC 21.6-26.4 VDC 25.2-30-8 VDC 43.2-52.8 VDC

12 VDC

15 VDC

+/-12 VDC

+/-15 VDC

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+/- 0.5%

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ASD105 series Isolated and Regulated 1.5 WATT Modular DC/DC Converters

Environmental Specifications

General Specifications

Oper. Temperature Case Temperature Storage Temperature Cooling MTBF

Input-Output Isolation Isolation Resistance Isolation Capacitance Switching Frequency

-25 to +71°C 100°C max. -40 to +100°C * Free Air Convection Single O/P 1,024,000 Hrs. Dual O/P 937,000 Hrs. MIL-HDBK-217F Ground Benign, 25°C

*Please see page 4 for Waiver of Liability Statement

Physical Specifications Case Material

Black coated Copper w. Non-conductive base Fully Encapsulated 0.5 oz, (13g) 1.25” x 0.8” x 0.4”

Construction Weight Dimensions

High Density

Mechanical Dimensions

500VDC 10-9nth Ohm min. 30pF 20Khz

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Pin #

Single Outputs

Dual Outputs

1 2 3 10 11 12 13 14 15 22 23 24

+ Input NC NC - Output + Output - Input - Input + Output - Output NC NC + Input

+ Input - Output Common Common + Output - Input - Input + Output Common Common - Output + Input

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437

ASD03 series Isolated and Regulated 3 WATT Modular DC/DC Converters 24-Pin DIP Package Wide 2:1 Input Range

“H” versions only

500 or 1500V Isolation Short Circuit Protection High Efficiency

Unit Measures 0.8”W x 1.25”L x0.5”H

Input PI Filter

Input Specifications Input Voltage Ranges:

High Density

Input Filter

Output Specifications 12 VDC Nominal 24 VDC Nominal 48 VDC Nominal PI Type

9-18 VDC 18-36 VDC 36-72 VDC

Line Regulation Temperature Coefficient Ripple/Noise(Single/Dual)

Physical Specifications Case Material Construction Weight Dimensions

Black coated Copper w. Non-conductive base Fully Encapsulated 0.5 oz, (13g) 1.25” x 0.8” x 0.5”

Model Number SINGLE OUTPUT ASD03-12S3(H orM)* ASD03-24S3(H orM)* ASD03-48S3(H orM)* ASD03-12S5(H or M)* ASD03-24S5(H or M)* ASD03-48S5(H or M)* ASD03-12S12(H or M)* ASD03-24S12(H or M)* ASD03-48S12(H or M)* ASD03-12S15(H or M)* ASD03-24S15(H or M)* ASD03-48S15(H or M)* DUAL OUTPUT ASD03-12D5(H or M)* ASD03-24D5(H or M)* ASD03-48D5(H or M)* ASD03-12D12(H or M)* ASD03-24D12(H or M)* ASD03-48D12(H or M)* ASD03-12D15(H or M)* ASD03-24D15(H or M)* ASD03-48D15(H or M)*

Voltage and Current Load Regulation

Voltage Accuracy Short Circuit Protection Voltage Balance (Dual) Efficiency

See Selection Chart Single (10% to FL) Dual (25% to FL) (HL-LL) +/-0.05%/°C 3.3V/5V 100mVp-p max. 12V/15V +/- 2% Continuous +/-1% See Selection Chart

Output Voltage

Output mAmps

Input Range

Efficiency

3.3 VDC

600 600 600 600 600 600 250 250 250 200 200 200

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

70% 73% 71% 73% 74% 76% 78% 80% 77% 76% 80% 77%

+/-300 +/-300 +/-300 +/-125 +/-125 +/-125 +/-100 +/-100 +/-100

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

73% 74% 76% 76% 80% 76% 75% 78% 76%

5 VDC

12 VDC

15 VDC

+/-5 VDC

+/-12 VDC

+/-15 VDC

+/- 0.5% +/-1% +/- 0.5%

1% p-p max.

* Specifying “H” or “M” designates a choice of Pinouts (Please see Mechanical Specifications) and a choice of 500VDC Isolation (“M” Version) or 1500VDC Isolation (“H” Version).

438

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ASD03 series Isolated and Regulated 3 WATT Modular DC/DC Converters

Environmental Specifications

General Specifications Isolation Resistance Switching Frequency Conducted EMI Safety

500VDC (“M” Versions) 1500VDC (“H” Versions) 10-9nth Ohm min. 100Khz Meets EN55022 Class B UL, cUL - “H” Versions Only

Oper. Temperature Case Temperature Storage Temperature Cooling MTBF Single O/P Dual O/P MIL-HDBK-217F

-25 to +71°C 100°C max. -40 to +100°C * Free Air Convection 1,203,000 Hrs. 1,145,000 Hrs. Ground Benign, 25°C

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions

“M” Version

“H” Version

Pin #

Single

Dual

Single

Dual

1 2 3 5 9 10 11 12 13 14 15 16 22 23 24

+Input NC NC No Pin No Pin -Output +Output -Input -Input +Output -Output No Pin NC NC +Input

+Input -Output Common No Pin No Pin Common +Output -Input -Input +Output Common No Pin Common -Output +Input

No Pin -Input -Input No Pin NC NC NC No Pin No Pin +Output NC -Output +Input +Input No Pin

No Pin -Input -Input No Pin Common NC -Output No Pin No Pin +Output NC Common +Input +Input No Pin

High Density

Input-Output Isolation

NC = No Connection with Pin

NOTE: Pin Size is 0.02” Inch (0.5mm) DIA All Dimensions In Inches (mm) Tolerance .xx = +/-0.02, .xxx = +/- 0.010

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Notes

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439

ASD35 series 5V Input 3 WATT Modular DC/DC Converters 24-Pin DIP Package 5 Volt Input

“H” versions only

500 or 1500V Isolation Short Circuit Protection High Efficiency Unit Measures 0.8”W x 1.25”L x0.4”H

Input PI Filter

Input cations INPUTSpecifi SPECIFICATIONS High Density

Input Voltage Nominal Input Voltage Range: Input Filter

Environmental Specifications Oper. Temperature Case Temperature Storage Temperature Cooling MTBF

5 VDC 4.5-6.0 VDC PI Type

Output Specifi cations OUTPUT SPECIFICATIONS Voltage and Current Load Regulation Line Regulation Temperature Coefficient Ripple/Noise(Single/Dual) Voltage Accuracy Voltage Balance Short Circuit Protection Efficiency

See Selection Chart Single (10% to FL) +/- 0.5% Dual (25% to FL) +/-1% (HL-LL) +/- 0.5% +/-0.05%/°C 3.3V/5V 100mVp-p max. 12V/15V 1% p-p max. +/- 2% (Dual) +/- 1% Continuous See Selection Chart

-25 to +71°C 100°C max. -40 to +100°C * Free Air Convection Single O/P 1,249,000 Hrs. Dual O/P 1,186,000 Hrs. MIL-HDBK-217F Ground Benign, 25°C

Physical Specifications Case Material Construction Weight Dimensions

Black coated Copper w. Non-conductive base Fully Encapsulated 0.5 oz, (13g) 1.25”x0.8”x0.4”

Model Number

Output Voltage

Output mAmps

Input Range

Efficiency

SINGLE OUTPUT ASD35-5S3(H or M)* ASD35-5S5(H or M)* ASD35-5S12(H or M)* ASD35-5S15(H or M)*

3.3 VDC 5 VDC 12 VDC 15 VDC

600 600 250 200

4.5-6.0 VDC 4.5-6.0 VDC 4.5-6.0 VDC 4.5-6.0 VDC

64.00% 70.00% 75.00% 75.00%

DUAL OUTPUT ASD35-5D5(H or M)* ASD35-5D12(H or M)* ASD35-5D15(H or M)*

+/-5 VDC +/-12 VDC +/-15 VDC

+/-300 +/-125 +/-100

4.5-6.0 VDC 4.5-6.0 VDC 4.5-6.0 VDC

70.00% 75.00% 75.00%

* Specifying “H” or “M” designates a choice of Pinouts (Please see Mechanical Specifications) and a choice of 500VDC Isolation (“M” Version) or 1500VDC Isolation (“H” Version).

440

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ASD35 series 5V Input 3 WATT Modular DC/DC Converters

General Specifications Input-Output Isolation Isolation Resistance Switching Frequency Safety

*Please see page 4 for Waiver of Liability Statement

500VDC (“M” Versions) 1500VDC (“H” Versions) 10-9nth Ohm min. 100Khz UL60950 - “H” Versions Only

“M” Version

“H” Version

Pin #

Single

Dual

Single Dual

1 2 3 9 10 11 12 13 14 15 16 22 23 24

+Input NC NC No Pin -Output +Output -Input -Input +Output -Output No Pin NC NC +Input

+Input -Output Common No Pin Common +Output -Input -Input +Output Common No Pin Common -Output +Input

No Pin -Input -Input NC NC NC No Pin No Pin +Output NC -Output +Input +Input No Pin

No Pin -Input -Input Common NC -Output No Pin No Pin +Output NC Common +Input +Input No Pin

High Density

Mechanical Dimensions

NC = No Connection with Pin

NOTE: Pin Size is 0.02” Inch (0.5mm) DIA All Dimensions In Inches (mm) Tolerance .xx = +/-0.02, .xxx = +/- 0.010

Notes

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441

VKC03 series Isolated and Regulated 3 WATT Modular DC/DC Converters Wide 4 : 1 Input Range Regulated Outputs Unit Measures 0.8”W x 1.25”L x 0.4”H

500V Isolation Full EMI Shielding Standard Pinouts

General Specifications

Input Specifications Input Voltage Ranges:

24 VDC Nominal 48 VDC Nominal

9-36 VDC 18-72 VDC

On/Off Control

High Density

Output Specifi cations OUTPUT SPECIFICATIONS Voltage and Current Load Regulation 25% - FL Line Regulation Temperature Coefficient Ripple/Noise(Single/Dual) Voltage Stability Voltage Balance, Dual Short Circuit Protection

Input-Out Isolation In/Out Capacitance Isolation Resistance Efficiency Switching Frequency

See Selection Chart singles: +/- 0.2% duals: +/-1% +/- 0.2% +/-0.02%/DegC 50mV Pk-Pk, typ +/-2% +/-2% Continuous, self-recovering

Environmental Specifications Oper. Temperature Storage Temperature Maximum Case Temp MTBF

Physical Specifications Case Material Construction Weight

Nickel-Coated Copper Non-Conductive Base Fully Encapsulated 0.5 oz, (14g)

Model Number SINGLE OUTPUT VKC03-24S05 VKC03-48S05 VKC03-24S12 VKC03-48S12 VKC03-24S15 VKC03-48S15 DUAL OUTPUT VKC03-24D05 VKC03-48D05 VKC03-24D12 VKC03-48D12 VKC03-24D15 VKC03-48D15

442

(Ref to - Input pin) Logic “1”/Open=ON Logic “0”/GND=OFF 500VDC 300 pF 10000 M Ohms 77%, typ 300Khz

-25 to +71 DegC(FL) -55 to +125 DegC * 110 DegC * 1214 kHrs MIL-HDBK-217F TA=25C FL

*Please see page 4 for Waiver of Liability Statement

Output Voltage

Output mAmps

Input Range

5 VDC

500 500 250 250 200 200

9-36VDC 18-72VDC 9-36VDC 18-72VDC 9-36VDC 18-72VDC

+/-250 +/-250 +/-125 +/-125 +/-100 +/-100

9-36VDC 18-72VDC 9-36VDC 18-72VDC 9-36VDC 18-72VDC

12 VDC 15 VDC

+/-5 VDC +/-12 VDC +/-15 VDC

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VKC03 series Isolated and Regulated 3 WATT Modular DC/DC Converters

Mechanical Dimensions Pin size is 0.02(0.5) Dia or 0.01 x 0.02 (0.25 x 0.50) Rectangular Pin

0.08(4.6)

20 BOTTOM VIEW 13

Single Outputs Dual Outputs

1 2 10 11 12 13 15 20 23 24

+ Input + Input N/C N/C - Output + Output N/C Control - Input - Input

+ Input + Input Common Common N/C - Output + Output Control - Input - Input

10 11 12

0.60(15.2)

0.15 (3.8)

0.40 (10.2)

Output Derating Curve Output Power (%)

0.80(20.3)

High Density

0.10 (2.5)

1 2 0.90 (17.8)

1.25 (31.8)

24 23

Pin #

100 75 50 25

Natural convection

0 -40 -25 -10

50 60 70 80 90

100

Ambient Temp. (ยบC)

Notes

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443

ASD06 series Isolated and Regulated 5-6 WATT Modular DC/DC Converters 24-Pin DIP Package Wide 2:1 Input Range 1500V Isolation Short Circuit Protection Unit Measures 0.8”W x 1.25”L x0.5”H

High Efficiency Input PI Filter

INPUTSpecifi SPECIFICATIONS Input cations Input Voltage Ranges:

High Density

Input Filter

Output Specifications 12 VDC Nominal 24 VDC Nominal 48 VDC Nominal PI Type

Input-Output Isolation Isolation Resistance Switching Frequency Conducted EMI Safety

1500VDC 10-9nth Ohm min. 100Khz Meets EN55022 Class B UL60950

SINGLE OUTPUT ASD06-12S3 ASD06-24S3 ASD06-48S3 ASD06-12S5 ASD06-24S5 ASD06-48S5 ASD06-12S12 ASD06-24S12 ASD06-48S12 ASD06-12S15 ASD06-24S15 ASD06-48S15 DUAL OUTPUT ASD06-12D5 ASD06-24D5 ASD06-48D5 ASD06-12D12 ASD06-24D12 ASD06-48D12 ASD06-12D15 ASD06-24D15 ASD06-48D15

Voltage and Current Load Regulation Line Regulation (HL-LL) Temperature Coefficient Ripple/Noise (Single/Dual)

General Specifications

Model Number

444

9-18 VDC 18-36 VDC 36-72 VDC

Voltage Accuracy Voltage Balance (Dual) Short Circuit Protection Efficiency

See Selection Chart Single (10% to FL) Dual (25% to FL)

+/-0.05%/°C 3.3V/5V 100mVp-p max. 12V/15V 1% p-p max. +/- 2% +/-1% Continuous See Selection Chart

Output Voltage

Output mAmps

Input Range

Efficiency

3.3 VDC

1000 1000 1000 1000 1000 1000 470 470 470 400 400 400

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

70% 70% 70% 76% 78% 78% 80% 82% 81% 80% 82% 81%

+/-500 +/-500 +/-500 +/-230 +/-230 +/-230 +/-190 +/-190 +/-190

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

76% 78% 78% 80% 81% 81% 80% 81% 81%

5 VDC

12 VDC

15 VDC

+/-5 VDC

+/-12 VDC

+/-15 VDC

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+/- 0.5% +/-1% +/- 0.5%

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ASD06 series Isolated and Regulated 5-6 WATT Modular DC/DC Converters

Environmental Specifications

Physical Specifications

Oper. Temperature Case Temperature Storage Temperature Cooling MTBF

Case Material

-25 to +71°C 100°C max. -40 to +100°C * Free Air Convection Single O/P 1,186,000 Hrs. Dual O/P 1,145,000 Hrs. MIL-HDBK-217F Ground Benign, 25°C

Black coated Copper w. Non-conductive base Fully Encapsulated 0.5 oz, (13g) 1.25” x 0.8” x 0.5”

Construction Weight Dimensions

*Please see page 4 for Waiver of Liability Statement

Pin #

Single Outputs

Dual Outputs

1 2 3 5 9 10 11 12 13 14 15 16 22 23 24

No Pin - Input - Input No Pin NC NC NC No Pin No Pin + Output NC - Output + Input + Input No Pin

No Pin - Input - Input No Pin Common NC - Output No Pin No Pin + Output NC Common + Input + Input No Pin

High Density

Mechanical Dimensions

NOTE: Pin Size is 0.02” Inch (0.5mm) DIA All Dimensions In Inches (mm) Tolerance .xx = +/-0.02, .xxx = +/- 0.010

Notes

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445

ASD series Isolated and Regulated 5, 7 and 10 Watt Encapsulated DC/DC Converters Wide 4 : 1 Input Range High Efficiency Regulated Outputs 1500V Isolation Full EMI Shielding

Unit measures 1”W x 2”L x 0.25”H

Standard Pinouts

Physical Specifications

Input Specifications High Density

Input Voltage, Nominal Input Voltage Ranges Input Surge Voltage

Model Number SINGLE OUTPUT ASD05-12S3 ASD05-48S3 ASD05-12S5 ASD05-48S5 ASD05-12S9 ASD05-48S9 ASD05-12S12 ASD05-48S12 ASD05-12S15 ASD05-48S15 ASD07-12S3 ASD07-48S3 ASD07-12S5 ASD07-48S5 ASD07-12S9 ASD07-48S9 ASD07-12S12 ASD07-48S12 ASD07-12S15 ASD07-48S15 ASD10-12S3 ASD10-48S3 ASD10-12S5 ASD10-48S5 ASD10-12S9 ASD10-48S9 ASD10-12S12 ASD10-48S12 ASD10-12S15 ASD10-48S15

12VDC 9-36 50V (12V Models), * 100V (48V Models), * 10 mS duration, min.

48VDC 18-75 VDC

Output Voltage

3.3 VDC 5 VDC 9 VDC 12 VDC 15 VDC 3.3 VDC 5 VDC 9 VDC 12 VDC 15 VDC 3.3 VDC 5 VDC 9 VDC 12 VDC 15 VDC

Case Material Construction Weight

Output Amps

1.5 1.5 1 1 0.55 0.55 0.42 0.42 0.33 0.33 1.9 1.9 1.5 1.5 0.83 0.83 0.62 0.62 0.5 0.5 2.5 2.5 2 2 1.1 1.1 0.83 0.83 0.67 0.67

Aluminum Fully Encapsulated 0.64 oz, (18g)

Input Range

9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC Continued

446

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ASD series Isolated and Regulated 5, 7 and 10 Watt Encapsulated DC/DC Converters

DUAL OUTPUT ASD05-12D5 ASD05-48D5 ASD05-12D12 ASD05-48D12 ASD05-12D15 ASD05-48D15 ASD07-12D5 ASD07-48D5 ASD07-12D12 ASD07-48D12 ASD07-12D15 ASD07-48D15 ASD10-12D5 ASD10-48D5 ASD10-12D12 ASD10-48D12 ASD10-12D15 ASD10-48D15

Output Voltage

Output Amps

+/-5 VDC

+/-0.5 +/-0.5 +/-0.21 +/-0.21 +/-0.17 +/-0.17 +/-0.75 +/-0.75 +/-0.31 +/-0.31 +/-0.25 +/-0.25 +/-1 +/-1 +/-0.42 +/-0.42 +/-0.33 +/-0.33

+/-12 VDC +/-15 VDC +/-5 VDC +/-12 VDC +/-15 VDC +/-5 VDC +/-12 VDC +/-15 VDC

Shutdown Idle Current Input-Out Isolation In/Out Capacitance Efficiency Switching Frequency

(Ref to - Input pin) Logic “1”/Open=ON Logic “0”/GND=OFF 15mA 1500VDC (48V) 500 VDC (12V) 1000 pF 82%, typ 450Khz

Environmental Specifications Oper. Temperature Storage Temperature Maximum Case Temp Input Fusing MTBF Shock/Vibration

9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC

Output Specifications

General Specifications On/Off Control

Input Range

High Density

Model Number

-25 to +71°C(FL) -40 to +125°C * 110°C * 12V: 4A, 48V: 2A 1,000,000 Hrs Mil Std 217, 25°C To MIL-STD 810°C

Voltage and Current Preset Accuracy Cross Regulation (Duals) Load Regulation 20% - FL Line Regulation Temperature Coefficient Ripple/Noise (Pk-Pk, typ) Single 3V Single 5V Single 9,12V Single 15V Dual 5V Dual 12, 15V Overvoltage Protection Short Circuit Protection

See Selection Chart Singles: +/- 1% max. Duals: +/- 2% max. 5-8% typ. singles: +/- 0.5% duals: +/-1%, +/-3% (5V mod) singles: +/- 0.5% duals: +/- 1% +/-0.03%/°C 150mV 100mV (12Vin), 150mV (48Vin) 50mV (12Vin), 100mV (48Vin) 50mV 150mV 50mV Clamp, 130-150% * Continuous, self-recovering

*Please see page 4 for Waiver of Liability Statement

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447

ASD series Isolated and Regulated 5, 7 and 10 Watt Encapsulated DC/DC Converters

Mechanical Dimensions Dimensions are in Inches (mm)

0.27 (6.8)

0.04 (1.016)

+ VIN

- VIN CONTROL

COM - VOUT

0.90 (22.86)

+ VOUT

0.50 (12.70)

1 0.6 (15.24)

High Density

1.0 (25.4)

0.25 (6.35)

Bottom View

0.40 (10.16) 0.10 (2.54)

0.60 (15.24) 1.40 (35.56) 2.00 (50.80)

Pin #

Single Outputs

Dual Outputs

1 2 3 4 5 6

+ Input - Input + Output N/A - Output Control

+ Input - Input + Output Common - Output Control

Output Derating Curve 120 Output Power (%)

100 80 60 40 20 0

448

40 50 Ambient Temp °C

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ASDH series Isolated and Regulated 5, 7 and 10 WATT Open Frame DC/DC Converter Wide 4 : 1 Input Range High Efficiency Regulated Outputs 1500V Isolation Integral Finned Heatsink EN60950 & UL60950-1 Approved

Model Number SINGLE OUTPUT ASD05H-12S3 ASD05H-48S3 ASD05H-12S5 ASD05H-48S5 ASD05H-12S9 ASD05H-48S9 ASD05H-12S12 ASD05H-48S12 ASD05H-12S15 ASD05H-48S15 ASD07H-12S3 ASD07H-48S3 ASD07H-12S5 ASD07H-48S5 ASD07H-12S9 ASD07H-48S9 ASD07H-12S12 ASD07H-48S12 ASD07H-12S15 ASD07H-48S15 ASD10H-12S3 ASD10H-48S3 ASD10H-12S5 ASD10H-48S5 ASD10H-12S9 ASD10H-48S9 ASD10H-12S12 ASD10H-48S12 ASD10H-12S15 ASD10H-48S15

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Output Voltage

Output Amps

Input Range

3.3 VDC

1.5 1.5 1 1 0.55 0.55 0.42 0.42 0.33 0.33 1.9 1.9 1.5 1.5 0.83 0.83 0.62 0.62 0.5 0.5 2.5 2.5 2 2 1.1 1.1 0.83 0.83 0.67 0.67

5 VDC 9 VDC 12 VDC 15 VDC 3.3 VDC 5 VDC 9 VDC 12 VDC 15 VDC 3.3 VDC 5 VDC 9 VDC 12 VDC 15 VDC

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High Density

Unit measures 1”W x 2”L x 0.375”H

449

ASDH series Isolated and Regulated 5, 7 and 10 WATT Open Frame DC/DC Converter Model Number

High Density

DUAL OUTPUT ASD05H-12D5 ASD05H-48D5 ASD05H-12D12 ASD05H-48D12 ASD05H-12D15 ASD05H-48D15 ASD07H-12D5 ASD07H-48D5 ASD07H-12D12 ASD07H-48D12 ASD07H-12D15 ASD07H-48D15 ASD10H-12D5 ASD10H-48D5 ASD10H-12D12 ASD10H-48D12 ASD10H-12D15 ASD10H-48D15

Output Voltage

Output Amps

+/-5 VDC

+/-0.5 +/-0.5 +/-0.21 +/-0.21 +/-0.17 +/-0.17 +/-0.75 +/-0.75 +/-0.31 +/-0.31 +/-0.25 +/-0.25 +/-1 +/-1 +/-0.42 +/-0.42 +/-0.33 +/-0.33

+/-12 VDC +/-15 VDC +/-5 VDC +/-12 VDC +/-15 VDC +/-5 VDC +/-12 VDC +/-15 VDC

Input Specifications Input Voltage, Nominal Input Voltage Ranges Input Surge Voltage

Cross Regulation (Duals) Load Regulation 20% - FL Line Regulation Temperature Coefficient Ripple/Noise (Pk-Pk, typ) Single 3.3V Single 5, 9,12, 15V Dual 5V Dual 12, 15V Overvoltage Protection Short Circuit Protection

12VDC 9-36 50V (12V Models), * 100V (48V Models), * 10 mS duration, min.

48VDC 18-75 VDC

See Selection Chart Singles: +/- 1% max. Duals: +/- 2% max. 5-8% typ. singles: +/- 0.5% duals: +/-1%, +/-3% (5V mod) singles: +/- 0.5% duals: +/- 1% +/-0.03%/°C 100mV 50mV 150mV (12Vin) 100mV (48Vin) 50mV Clamp, 130-150% * Continuous, self-recovering

*Please see page 4 for Waiver of Liability Statement

450

9-36VDC 18-75VDC 9-36VDC 8-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC 9-36VDC 18-75VDC

GENERAL SPECIFICATIONS General Specifi cations

Output Specifications Voltage and Current Preset Accuracy

Input Range

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On/Off Control

Shutdown Idle Current Input-Out Isolation In/Out Capacitance Efficiency Switching Frequency

(Ref to - Input pin) Logic “1”/Open=ON Logic “0”/GND=OFF 15mA 1500VDC (48V) 500 VDC (12V) 1000 pF 82%, typ 450Khz

ENVIRONMENTAL SPECIFICATIONS Environmental Specifi cations Oper. Temperature Relative Humidity Storage Temperature Maximum Heatsink Temp Input Fusing MTBF Shock/Vibration Safety EN60950 UL60950-1

-25 to +71°C(FL) 0 to 95%, non-cond -40 to +125°C * 110°C * 12V: 4A, 48V: 2A 1,000,000 Hrs Mil Std 217, 25°C To MIL-STD 810°C TUV File # B 02 10 22749 038 UL File # E167432

PHYSICAL SPECIFICATIONS Physical Specifi cations Heatsink Material Construction Weight

Aluminum Open Frame 0.57 oz, (16g)

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ASDH series Isolated and Regulated 5, 7 and 10 WATT Open Frame DC/DC Converter

Mechanical Dimensions Dimensions in inches (mm) .375 (9.52)

.040 (1.02)

.070 (1.78)

.150 (3.81)

6 .400 (10.16)

High Density

.900 (22.86)

1 .600 (15.24)

1.00 (25.40)

5 .500 (12.70)

.600 (15.24)

.100( 2.54)

.100 (2.54) 1.400 (35.56) 2.00 (50.80)

Pin # 1 2 3 4 5 6

Single Outputs + Input - Input + Output N/A - Output Control

Dual Outputs + Input - Input + Output Common - Output Control

Output Derating Curve

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451

ASD705 series Isolated and Regulated 7.5 WATT Modular DC/DC Converters Industry Standard Package Wide 2:1 Input Range 1500V Isolation Short Circuit Protection High Efficiency

Unit Measures 1”W x 2”L x 0.4”H

Input PI Filter

Input Specifications Input Voltage Ranges:

High Density

Input Filter

Output Specifications 12 VDC Nominal 24 VDC Nominal 48 VDC Nominal PI Type

SINGLE OUTPUT ASD705-12S3 ASD705-24S3 ASD705-48S3 ASD705-12S5 ASD705-24S5 ASD705-48S5 ASD705-12S12 ASD705-24S12 ASD705-48S12 ASD705-12S15 ASD705-24S15 ASD705-48S15 DUAL OUTPUT ASD705-12D5 ASD705-24D5 ASD705-48D5 ASD705-12D12 ASD705-24D12 ASD705-48D12 ASD705-12D15 ASD705-24D15 ASD705-48D15

Voltage Accuracy Voltage Balance (Dual) Short Circuit Protection Efficiency

1500VDC 10-9nth Ohm min. 100Khz

Model Number

Voltage and Current Load Regulation Line Regulation Temperature Coefficient Ripple/Noise(Single/Dual)

General Specifications Input-Output Isolation Isolation Resistance Switching Frequency

452

9-18 VDC 18-36 VDC 36-72 VDC

See Selection Chart Single (10% to FL) +/- 0.5% Dual (25% to FL) +/-1% (HL-LL) +/- 0.5% +/-0.05%/°C 3.3V/5V 100mVp-p max. 12V/15V 1% p-p max. +/- 2% +/-1% Continuous See Selection Chart

Output Voltage

Output mAmps

Input Range

Efficiency

3.3 VDC

1500 1500 1500 1500 1500 1500 625 625 625 500 500 500

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

74% 76% 76% 76% 78% 78% 80% 82% 81% 80% 82% 81%

+/-750 +/-750 +/-750 +/-310 +/-310 +/-310 +/-250 +/-250 +/-250

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

76% 78% 78% 80% 81% 81% 80% 81% 81%

5 VDC

12 VDC

15 VDC

+/-5 VDC

+/-12 VDC

+/-15 VDC

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ASD705 series Isolated and Regulated 7.5 WATT Modular DC/DC Converters

Environmental Specifications -25 to +71°C 100°C max. -40 to +100°C * Free Air Convection

Physical Specifi cations PHYSICAL SPECIFICATIONS Case Material Construction Weight Dimensions

100

-25

80 60 40

Natural Convection

20 0

Black coated Copper w. Non-conductive base Fully Encapsulated 1 oz, (27g) 2” x 1” x 0.4”

100

-25

100

Ambient Temp. (°C)

*Please see page 4 for Waiver of Liability Statement

High Density

1,222,000 Hrs. 1,148,000 Hrs. MIL-HDBK-217F Ground Benign, 25°C

120

Output Load (%)

Oper. Temperature Case Temperature Storage Temperature Cooling MTBF Single O/P Dual O/P

Output Derating Curve

Mechanical Dimensions

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Pin #

Single Outputs

Dual Outputs

1 2 3 4 5

+ Input - Input + Output No Pin - Output

+ Input - Input + Output Common - Output

453

ASD08

series

Isolated and Regulated 7.5 WATT Modular DC/DC Converters 24-Pin DIP Package Wide 2:1 Input Range 1500V Isolation Short Circuit Protection High Efficiency Input PI Filter

Unit Measures 0.8”W x 1.25”L x0.5”H

INPUTSpecifi SPECIFICATIONS Input cations Input Voltage Ranges:

Output Specifications

High Density

12 VDC Nominal 24 VDC Nominal 48 VDC Nominal PI Type

Input Filter

1500VDC 10-9nth Ohm min. 300Khz

Model Number SINGLE OUTPUT ASD08-12S3 ASD08-24S3 ASD08-48S3 ASD08-12S5 ASD08-24S5 ASD08-48S5 ASD08-12S12 ASD08-24S12 ASD08-48S12 ASD08-12S15 ASD08-24S15 ASD08-48S15 DUAL OUTPUT ASD08-12D5 ASD08-24D5 ASD08-48D5 ASD08-12D12 ASD08-24D12 ASD08-48D12 ASD08-12D15 ASD08-24D15 ASD08-48D15

Voltage and Current Load Regulation Line Regulation (HL-LL) Temperature Coefficient Ripple/Noise Voltage Accuracy Voltage Balance (Dual) Short Circuit Protection Efficiency

General Specifications Input-Output Isolation Isolation Resistance Switching Frequency

454

9-18 VDC 18-36 VDC 36-72 VDC

See Selection Chart Single (10% to FL) Dual (25% to FL) +/-0.2% +/-0.05%/°C 100mVp-p max. +/-2%, max. +/-1% Continuous See Selection Chart

Output Voltage

Output mAmps

Input Range

Efficiency

3.3 VDC

1500 1500 1500 1500 1500 1500 625 625 625 500 500 500

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

74% 76% 76% 78% 79% 80% 82% 82% 82% 82% 82% 82%

+/-750 +/-750 +/-750 +/-310 +/-310 +/-310 +/-250 +/-250 +/-250

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

79% 81% 81% 83% 83% 83% 83% 83% 83%

5 VDC

12 VDC

15 VDC

+/-5 VDC

+/-12 VDC

+/-15 VDC

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+/-0.5% +/-1%

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ASD08

series

Isolated and Regulated 7.5 WATT Modular DC/DC Converters

Environmental Specifications

Physical Specifications

Oper. Temperature Case Temperature Storage Temperature Cooling MTBF

Case Material

-25 to +71°C 100°C max. -40 to +100°C * Free Air Convection Single O/P 1,109,000 Hrs. Dual O/P 1,090,000 Hrs. MIL-HDBK-217F Ground Benign, 25°C

Black coated Copper w. Non-conductive base Fully Encapsulated 0.5 oz, (13g) 0.80” x 1.25” x 0.4”

Construction Weight Dimensions

*Please see page 4 for Waiver of Liability Statement

Notes

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Pin #

Single Outputs

Dual Outputs

No Pin

- Input

No Pin

Common

- Output

No Pin

+ Output

- Output

Common

+ Input

No Pin

High Density

Mechanical Dimensions

NOTE: Pin Size is 0.02” Inch (0.5mm) DIA All Dimensions In Inches (mm) Tolerance .xx = +/-0.02, .xxx = +/- 0.010

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455

ASD15/15H series Isolated and Regulated 15W Encapsulated/Open Frame DC/DC Converters Wide 4 : 1 Input Range High Efficiency Regulated Outputs 1500V Isolation Integral Finned Heatsink (ASD15H) EN60950 & UL60950-1 Approved (ASD15H) Unit measures 1.5”W x 2”L x 0.413”H (ASD15H)

INPUTSpecifi SPECIFICATIONS Input cations

High Density

Input Voltage, Nominal Input Voltage Ranges Input Surge Voltage

ENVIRONMENTAL SPECIFICATIONS Environmental Specifi cations 12VDC 9-18 50V (12V Models), * 100V (48V Models), * 10 mS duration, min.

48VDC 20-75 VDC

GENERAL SPECIFICATIONS General Specifi cations On/Off Control

Shutdown Idle Current Input-Out Isolation In/Out Capacitance Efficiency Switching Frequency Safety (ASD15H)

Oper. Temperature (ASD15) (ASD15H) Storage Temperature Maximum Case Temp Input Fusing MTBF

25 to +71°C(FL) -25 to +75ºC(FL) -40 to +125°C * 110°C * 12V: 4A, 48V: 2A 1,000,000 Hrs Mil Std 217, 25°C To MIL-STD 810°C

Shock/Vibration (Ref to - Input pin) Logic “1”/Open=ON Logic “0”/GND=OFF 15mA 1500VDC (48V) 500 VDC (12V) 1000 pF 82%, typ 450Khz UL60950-1, EN60950

Model Number SINGLE OUTPUT ASD15-12S3, ASD15H-12S3 ASD15-48S3, ASD15H-48S3 ASD15-12S5, ASD15H-12S5 ASD15-48S5, ASD15H-48S5 ASD15-12S12, ASD15H-12S12 ASD15-48S12, ASD15H-481S2 ASD15-12S15, ASD15H-12S15 ASD15-48S15, ASD15H-48S15 DUAL OUTPUT ASD15-12D5, ASD115H-12D5 ASD15-48D5, ASD15H-48D5 ASD15-12D12, ASD15H-12D12 ASD15-48D12, ASD15H-48D12 ASD15-12D15, ASD15H-12D15 ASD15-48D15, ASD15H-48D15

456

Unit measures 1.6”W x 2”L x 0.375”H (ASD15)

PHYSICAL SPECIFICATIONS Physical Specifi cations Case Material (ASD15) Heatsink Material (ASD15H) Construction (ASD15) (ASD15H)

Aluminum Aluminum Fully Encapsulated Open Frame

Weight (ASD15) (ASD15H)

1.6 oz, (40g) .93 oz, (26g)

Output Voltage

Output Amps

Input Range

3.3 VDC

3.75 3.75 3 3 1.25 1.25 1 1

9-18VDC 20-75VDC 9-18VDC 20-75VDC 9-18VDC 20-75VDC 9-18VDC 20-75VDC

+/-1.5 +/-1.5 +/-0.62 +/-0.62 +/-0.5 +/-0.5

9-18VDC 20-75VDC 9-18VDC 20-75VDC 9-18VDC 20-75VDC

5 VDC 12 VDC 15 VDC

+/-5 VDC +/-12 VDC +/-15 VDC

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ASD15/15H series Isolated and Regulated 15W Encapsulated/Open Frame DC/DC Converters

Trim Range Temperature Coefficient Ripple/Noise(Single/Dual) Overvoltage Protection Voltage Stability Transient Response Short Circuit Protection

See Selection Chart singles: +/- 0.5% duals: +/-1%, +/-3% (5V mod) singles: +/- 0.5% duals: +/- 1% 0.5V min, 0.65V typ +/-0.01%/°C 100mV Pk-Pk, typ Clamp, 130-150% * +/- 0.05%, max +/- 2%, max Continuous, self-recovering

16 14 12 10 8 6 4 2 0

-25 -20 -10

10 20 30 50 50 60 70 80 90

High Density

Voltage and Current Load Regulation 20% - FL Line Regulation

Output Derating Curve

Output Power (Watts)

Output Specifi cations OUTPUT SPECIFICATIONS

*Please see page 4 for Waiver of Liability Statement

Mechanical Dimensions - ASD15

Mechanical Dimensions - ASD15H

Pin #

Single Outputs

Dual Outputs

TRIM CONNECTIONS

1 2 3 4 5 6 7 8

+ Input - Input No Pin Control No Pin + Output Out. Ret. Trim

+ Input - Input No Pin Control + Output Out. Ret. - Output Trim

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10Kohm Pot.

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-v To Pin 8

457

LED/LCD15 series Isolated and Regulated 15 Watt DC/DC Converters Wide 4 : 1 Input Range

LCD15

LED15

High Efficiency Regulated Outputs Small Size and Low Profile Standard Pinouts

High Density

Input Specifications

Physical Specifications

Input Voltage Ranges:

Weight (LED15) (LCD15) Size (LED15)

24 VDC Nominal 9-36 VDC 48 VDC Nominal 18-75 VDC Start Up Voltage 24V: 9VDC, 48V: 18VDC Shutdown Voltage 24V: 8VDC, 48V: 16VDC Input Voltage Variation (dv/dt) 5V/ms, max. to ETS300 part 4.4 Max. Voltage Surge (100mS max) 24 VDC Nominal 50 VDC 48 VDC Nominal 100 VDC Input Reflected Ripple Current 30mA, pk-pk Nom I/P, FL

Model Number SINGLE OUTPUT LED15-24S3P3W LED15-48S3P3W LED15-24S05W LED15-48S05W LED15-24S12W LED15-48S12W LED15-24S15W LED15-48S15W LCD15-24S3P3W LCD15-48S3P3W LCD15-24S05W LCD15-48S05W LCD15-24S12W LCD15-48S12W LCD15-24S15W LCD15-48S15W

(LCD15) Case Material (LCD15) Base Material (LCD15) Potting Material (LCD15)

0.36oz (10.5g) 0.53 oz (15g) 1.1”L x 0.94”W x 0.335”H (27.94 x 23.88 x 8.5mm) 1”W x 1”L x 0.39”H (25.4 x 25.4 x 9.9mm) Nickel-coated Copper FR4 PCB Epoxy (UL94-V0)

Output Voltage

Output Amps

Input Range

Input mAmps (NL/FL)

Efficiency

Capacitive Load

3.3 VDC

4 4 3 3 1.3 1.3 1 1 4 4 3 3 1.3 1.3 1 1

9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC

50 / 688 40 / 340 60 / 763 40 / 377 15 / 803 15 / 392 15 / 772 15 / 377 50 / 688 40 / 336 50 / 782 40 / 382 20 / 803 15 / 392 20 / 772 15 / 377

84% 86% 85% 85% 85% 87% 87% 87% 86% 86% 84% 86% 86% 86% 85% 87%

1000uF max. 1000uF max. 330uF max. 220uF max. 1000uF max. 1000uF max. 330uF max. 220uF max. 1000uF max. 1000uF max. 1000uF max. 1000uF max. 330uF max. 330uF max. 220uF max. 220uF max.

5 VDC 12 VDC 15 VDC 3.3 VDC 5 VDC 12 VDC 15 VDC

SMT Mount versions available. Simply add a “-A” to the end of the Model Number (i.e. LED15-24S05W-A). Also, options exist for the removal of the Trim Function and the reconfiguration of the Remote ON/OFF to Positive Logic (Negative Logic is standard). Please see the Product Options Table for Model Number information (suffixes). Options exist for the removal of the Trim Function and the reconfiguration of the Remote ON/OFF to Positive Logic (Negative Logic is standard). Please see the Product Options Table for Model Number information (suffixes). Simply add the suffix denoted to the end of the Model Number (i.e. LCD15-24S05W-A).

458

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LED/LCD15 series General Specifications

Environmental Specifications

On/Off Control Negative Logic (Ref to - Input) is standard. See Product Options Table for options and Model Numbers) ON = Short or 0V < Vr < 1.2V OFF = Open or 3V < Vr < 12V Positive Logic: ON = Open or 3V < Vr < 12V OFF = Short or 0V < Vr < 1.2V Input-Out Isolation (LED15) 2250VDC (LCD15) 1600VDC In/Out Capacitance (LED15) 1500 pF, max (LCD15) 1000 pF, max Isolation Resistance 100 M Ohms Efficiency See Selection Chart Switching Frequency (LED15) 3.3, 5V: 350Khz 12, 15V: 400Khz (LCD15) 400Khz

Oper. Temperature Maximum Case Temperature (LCD15) Storage Temperature Thermal Impedance (LCD15)

Output Specifications Voltage and Current See Selection Chart Minimum Load 0% Voltage Adjust ±10% Line Regulation (HL-LL, FL) ±0.2% Load Regulation (NL-FL) ±0.2% Start Up Time (Power or RC) 30mS, max. Temperature Coefficient +/-0.02%/°C, max. Ripple/Noise (Note) 75~100mV, pk-pk Voltage accuracy (FL, Nom I/P) +/- 2% Transient Response Recovery 25% Load Step Change 250 microSeconds Short Circuit Protection Hiccup, self-recovering Overvoltage Protection Threshold: (Clamp) 3.3V Output 3.7-5.4Volts 5V Output 5.6-7.0Volts 12V Output 13.8-17.5Volts 15V Output 16.8-20.5Volts Overload Protection 150% of Full Load (FL), typ.

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-40 to +85°C (see derate) 105ºC -55 to +125°C * Convection: 18.2°C /Watt With Heatsink: 15.8°C/Watt Relative Humidity 5-95% Thermal Shock MIL-STD-810F Vibration (LED15) 10-55Hz, 2G, 3 minutes period, 30 minutes along X, Y and Z axes (LCD15) 15-55Hz, 10-55Hz, 10G, 3 minutes period, 30 minutes along X, Y and Z axes EMI EN55022A (See Class B Filter) ESD (LCD15) EN61000-4-2 Criteria A Radiated Immunity E N61000-4-3 Criteria A EFT EN61000-4-4 Criteria B Surge (Using 220uF/100V, ESR 48M cap) EN61000-4-5 Criteria B Conducted Immunity EN61000-4-6 Criteria A MTBF BELLCORE TR-NWT-000322 Case 1: 50% Stress, Temp. @ 40°C 1.322 MHrs MIL-HDBK-217F TA=25°C FL, Ground Benign, Controlled Environment (LED15) 514.7 KHrs (LCD15) 563 KHrs

High Density

Isolated and Regulated 15 Watt DC/DC Converters

*Please see page 4 for Waiver of Liability Statement

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459

LED/LCD15 series Isolated and Regulated 15 Watt DC/DC Converters

Mechanical Dimensions - LED15

High Density 1. All dimensions in inches (mm) Tolerance X.XX ± 0.02 (X.X ± 0.05) X.XXX ± 0.01 (X.XX ± 0.25) 2. Pin pitch tolerance ± 0.01 (0.25) 3. Pin dimension tolerance ± 0.004 (0.1)

Ouput can be externally trimmed by using the method shown below. TRIM UP RT1 or TRIM DOWN

460

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RT2

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LED/LCD15 series Isolated and Regulated 15 Watt DC/DC Converters

Output Derating Curves & Filters - LED15

Output Power (%)

g 100 80 60 40 20 0 -40 -20

100 120

Recommended Filter for EN55022 Class B Compliance. The components used in the above figure, together with the manufacturers’ part numbers for these components are as follows

Efficiency VS Input Voltage x

High Density

Ambient Temp. (°C)

Efficiency (%)

x x x x x 0 18

Input Voltage (V)

Efficiency (%)

Efficiency VS Output Load 95 90 85 80 75 70 65 60 55 50 45

Recommended EN55022 Class B Filter Circuit Layout

100

Output Load (% of Full Load)

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461

LED/LCD15 series Isolated and Regulated 15 Watt DC/DC Converters

Mechanical Dimensions - LCD15

High Density 1. All dimensions in inches (mm) Tolerance X.XX ± 0.02 (X.X ± 0.05) X.XXX ± 0.01 (X.XX ± 0.25) 2. Pin pitch tolerance ± 0.01 (0.25) 3. Pin dimension tolerance ± 0.004 (0.1)

Ouput can be externally trimmed by using the method shown below. TRIM UP RT1 or TRIM DOWN

462

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RT2

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LED/LCD15 series Isolated and Regulated 15 Watt DC/DC Converters

Output Power (%)

Output Derating Curves & Filters - LCD15 100 80 60 40 20 0 -40 -20

100 120

Ambient Temp. (°C)

High Density

Output Power (%)

with Heatsink 100 80 60 40

Recommended Filter for EN55022 Class B Compliance. The components used in the above figure, together with the manufacturers’ part numbers for these components are as follows

20 0 -40 -20

60 66 80

100 120

Ambient Temp. (°C) Efficiency VS Input Voltage x Efficiency (%)

x x x x x 0 18

Input Voltage (V)

Efficiency (%)

Efficiency VS Output Load 90 85 80 75 70 65 60 55

Recommended EN55022 Class B Filter Circuit Layout

50 45 10

100

Output Load (% of Full Load)

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463

FED20 series Isolated and Regulated 20 WATT Modular DC/DC Converters

Physical Specifications

Wide 4 : 1 Input Range High Efficiency to 89%

Case Material Construction Dimensions

Regulated Outputs 1600V Isolation

Nickel-Coated Copper w. FR4 Base Encapsulated w, UL94-V0 Epoxy 2”L x 1”W x 0.4”H (50.8 x 25.4 x 10.2mm) 0.95oz (27g)

Weight

6 Sided Shielding Standard Pinouts

Unit Measures 1”W x 2”L x 0.4”H

High Density

Input Specifications

Output Specifications

I/P Voltage Range (24/48V Nom.) 9-36 / 18-75VDC Voltage Surge (100mS max) 24 V: 50 VDC; 48 V: 100 VDC Under Voltage Lockout 24 VDC I/P DC/DC ON: 9 VDC OFF: 7.5 VDC 48 VDC I/P DC/DC ON: 15 VDC OFF: 18 VDC Input Filter Pi Type Input Voltage Variation (dv/dt) 5V/rms, max. to ETS300 132 part 4.4 Input Reflected Ripple Current 20mA p-p Start Up Time (Power Up or RC) 20mS, typ. On/Off Control Positive Logic: (Ref to - Input) is standard. ON = Open or 3V < Vr < 12V OFF = Short or 0V < Vr < 1.2V Negative Logic: (optional) ON = Short or 0V < Vr < 1.2V OFF = Open or 3V < Vr < 12V Efficiency See Selection Chart

Voltage and Current Load Regulation NL-FL

See Selection Chart Singles: ±0.5% Duals: ±1% Cross Regulation (Dual 25%-FL) ±5% Voltage Adjustability (Single O/P) ±10% Line Regulation (Single/Dual) ±0.2% / ±0.5% Temperature Coefficient ±0.02%/°C, max. Ripple/Noise See Selection Chart Voltage Accuracy ± 1% Transient Response Recovery 25% Load Step Change 250 microSeconds Short Circuit Protection Continuous Hiccup, self-recovering Overvoltage Protection, Zener Diode Clamp: 3.3V Output 3.9Volts 5V Output 6.2Volts 12V Output 15Volts 15V Output 18Volts Overload Protection 150% of FL Rating, typ.

*Please see page 4 for Waiver of Liability Statement

Model Number Output Volts Output Amps Input Range Input Amps (NL/FL) Ripple & Noise Efficiency Capacitive Load SINGLE OUTPUT FED20-24S3P3W FED20-48S3P3W FED20-24S05W FED20-48S05W FED20-24S12W FED20-48S12W FED20-24S15W FED20-48S15W DUAL OUTPUT FED20-24D05W FED20-48D05W FED20-24D12W FED20-48D12W FED20-24D15W FED20-48D15W

464

3.3 VDC 5 VDC 12 VDC 15 VDC

±5 VDC ±12 VDC ±15 VDC

5.5 5.5 4 4 1.67 1.67 1.33 1.33

9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC

50 / 934 mA 35 / 467 mA 65 / 922 mA 35 / 496 mA 22 / 1018 mA 15 / 503 mA 22 / 1014 mA 15 / 501 mA

60mV p-p 60mV p-p 75mV p-p 75mV p-p 75mV p-p 75mV p-p 75mV p-p 75mV p-p

85% 85% 88% 88% 86% 87% 86% 87%

18000uF max. 18000uF max. 9600uF max. 9600uF max. 1650uF max. 1650uF max. 1050uF max. 1050uF max.

±2 ±2 ±0.833 ±0.833 ±0.667 ±0.667

9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC 9-36 VDC 18-75 VDC

55 / 992 mA 35 / 490 mA 30 / 1004 mA 17 / 496 mA 30 / 1005 mA 17 / 496 mA

100mV p-p 100mV p-p 100mV p-p 100mV p-p 100mV p-p 100mV p-p

88% 89% 87% 88% 87% 88%

±4800uF max. ±4800uF max. ±825uF max. ±825uF max. ±525uF max. ±525uF max

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FED20 series Isolated and Regulated 20 WATT Modular DC/DC Converters

-40 to +105°C (see derate curve) 5-95% -55 to +125°C * 105°C * Convection: 12°C/Watt Convection w. Heatsink: 10°C/Watt MIL-STD-810D 10-55Hz 10G 30 min. on X, Y, Z axes

Thermal Shock Vibration MTBF BELLCORE TR-NWT-000322 Case 1: 50% Stress, Temp. @ 40°C 1.691 MHrs MIL-HDBK-217F TA=25°C FL, Ground Benign, Controlled Environment 562.9 KHrs EMI EN55022A ESD EN61000-4-2 Criteria B Radiated Immunity EN61000-4-3 Criteria A EFT EN61000-4-4B Criteria B Surge EN61000-4-5B Criteria B Conducted Immunity EN61000-4-6A Criteria A

Input-Out Isolation In/Out Capacitance Isolation Resistance Switching Frequency

1600VDC 1500 pF, max. 10000 M Ohms 400Khz, typ

Output Derating Curves FED20-48S05W Derating Curve 100 75

48Vln

18Vln

Natural Convection

-40 -25 -10 0

75Vln

50 60 70 80 90 105 Ambient Temp. (°c)

High Density

Oper. Temperature Relative Humidity Storage Temperature Maximum Case Temp Thermal Impedance

General Specifications

Output Power (%)

Environmental Specifications

FED20-48S05W Derating Curve 500 LFM Output Power (%)

Mechanical Dimensions

DIA 0.04 (1.0)

0.80 (20.3)

3 Bottom View

0.40 (10.2)

400 LFM

300 LFM

200 LFM

Nature Convection

-40 -25 -10 0

50 60 70 80 90

105

Ambient Temp. (°C)

Pin #

Single

Dual

1 2 3 4 5 6

+ Input - Input + Output Trim - Output CTRL

+ Input - Input + Output Common - Output CTRL

0.60 (15.2)

2.00 (50.8)

1.00 (25.4) 0.50 (12.7) 0.40 0.40 (10.2) (10.2)

100

0.10 (2.5) 0.20 (5.1)

0.22 (5.6)

1. All dimensions in inches (mm) Tolerance x.xx ± 0.02 (x.x ± 0.5) 2. Pin Pitch tolerance ± 0.014 (0.35) www.astrodyne.com

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465

ASD20 series Isolated and Regulated 20 WATT Modular DC/DC Converter Wide 4:1 Input Range 1500V Isolation Short Circuit Protection Remote On/Off Control High Efficiency

Unit measures 1.6”W x 2”L x0.45”H

Input PI Filter

Output Specifications

Input Specifications Input Voltage Ranges:

High Density

Input Filter Remote On/Off Control Logic Compatibility EC-On EC-Off Control Common

12 VDC Nominal 24 VDC Nominal PI Type

9-36 VDC 18-72 VDC

CMOS or Open Collector TTL >+5.5VDC or Open Circuit <1.8VDC Ref. to - Input

Voltage Accuracy

-25 to +71°C w. Derate Linearly to Zero Power +100°C 100°C max. -55 to +105°C *

Model Number SINGLE OUTPUT ASD20-12S3 ASD20-48S3 ASD20-12S5 ASD20-48S5 ASD20-12S12 ASD20-48S12 ASD20-12S15 ASD20-48S15 DUAL OUTPUT ASD20-12D5 ASD20-48D5 ASD20-12D12 ASD20-48D12 ASD20-12D15 ASD20-48D15

466

See Selection Chart +/-0.5% (HL-LL) +/-0.5% +/-0.02%/°C RMS 20mV max. P-P 75mVp-p max. Single O/P +/-1% Dual +O/P +/-1% Dual -O/P +/-2% +/-1% Continuous See Selection Chart

Voltage Balance (Dual FL) Short Circuit Protection Efficiency Transient Response Single 25% Load Change Dual Full Load to 1/2 Load Trim +/-10%

Environmental Specifications Oper. Temperature Derate Above 60°C Case Temperature Storage Temperature

Voltage and Current Load Regulation (25% to FL) Line Regulation Temperature Coefficient Ripple/Noise

Output Voltage

Output Amps

Input Range

Efficiency

3.3 VDC

4 4 4 4 1.67 1.67 1.33 1.33

9-36 VDC 18-72 VDC 9-36 VDC 18-72 VDC 9-36 VDC 18-72 VDC 9-36 VDC 18-72 VDC

78% 78% 81% 82% 83% 84% 83% 84%

+/-2.0 +/-2.0 +/-833 +/-833 +/-666 +/-666

9-36 VDC 18-72 VDC 9-36 VDC 18-72 VDC 9-36 VDC 18-72 VDC

83% 84% 83% 84% 83% 84%

5 VDC 12 VDC 15 VDC

+/-5 VDC +/-12 VDC +/-15 VDC

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<500uS <500uS

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ASD20 series Isolated and Regulated 20 WATT Modular DC/DC Converter

General Specifications Input-Output Isolation Isolation Resistance Switching Frequency Safety RFI MTBF

Physical Specifications 1500VDC 10-8nth Ohm min. 300Khz UL60950 Six Sided Shielding MIL-HDBK-217F Ground Benign, 25°C 880,584 Hrs.

Case Material Construction Weight Dimensions

Black coated Copper w. Non-conductive base Fully Encapsulated 2 oz, (57g) 1.6” x 2” x 0.45”

*Please see page 4 for Waiver of Liability Statement

Pin #

Single Outputs

Dual Outputs

1 3 4 5 6 7 8

On/Off Control - Input + Input Trim - Vout + Vout No Pin

On/Off Control - Input + Input Trim - Vout Common + Vout

High Density

Mechanical Dimensions

All Dimensions In Inches (mm) Tolerance .xx = +/-0.04, .xxx = +/- 0.010

Notes

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467

ASD30 series Isolated and Regulated 30 WATT Modular DC/DC Converter Wide 2:1 Input Range Remote ON/OFF Control High Efficiency Input PI Filter Unit Measures 2.0”W x 2.0”L x0.4”H

Six-Sided Shield

Physical Specifications

Input Specifications Input Voltage Ranges:

High Density

Input Filter

12 VDC Nominal 24 VDC Nominal 48 VDC Nominal PI Type

Model Number SINGLE OUTPUT ASD30-12S3 ASD30-24S3 ASD30-48S3 ASD30-12S5 ASD30-24S5 ASD30-48S5 ASD30-12S12 ASD30-24S12 ASD30-48S12 ASD30-12S15 ASD30-24S15 ASD30-48S15 DUAL OUTPUT ASD30-12D5 ASD30-24D5 ASD30-48D5 ASD30-12D12 ASD30-24D12 ASD30-48D12 ASD30-12D15 ASD30-24D15 ASD30-48D15 TRIPLE OUTPUT ASD30-12T512 ASD30-24T512 ASD30-48T512 ASD30-12T515 ASD30-24T515 ASD30-48D515

468

9-18 VDC 18-36 VDC 36-72 VDC

Case Material Construction Weight Dimensions

Black coated Copper w. Non-conductive base Fully Encapsulated 2.4 oz, (68g) 2.0”x2.0”x0.4”

Output Voltage

Output mAmps

Input Range

Efficiency

3.3 VDC

5000 5000 5000 5000 5000 5000 2500 2500 2500 2000 2000 2000

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

74% 75% 75% 78% 79% 79% 82% 82% 82% 82% 82% 82%

+/-2500 +/-2500 +/-2500 +/-1250 +/-1250 +/-1250 +/-1000 +/-1000 +/-1000

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

78% 79% 79% 82% 85% 85% 82% 85% 85%

3500, +/-300 3500, +/-300 3500, +/-300 3500, +/-200 3500, +/-200 3500, +/-200

9-18 VDC 18-36 VDC 36-72 VDC 9-18 VDC 18-36 VDC 36-72 VDC

79% 80% 85% 79% 80% 80%

5 VDC

12 VDC

15 VDC

+/-5 VDC

+/-12 VDC

+/-15 VDC

5, +/-12 VDC

5, +/-15 VDC

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ASD30 series Isolated and Regulated 30 WATT Modular DC/DC Converter

General Specifications

Voltage and Current Load Regulation (25% to FL) Line Regulation (HL-LL) Temperature Coefficient Ripple/Noise Voltage Accuracy

Voltage Balance (Dual) Transient Response Trim Adjustment Range Short Circuit Protection Efficiency

See Selection Chart Single/Dual Triple Single/Dual Triple +/-0.02%/°C 10 mV RMS, max. 75mVp-p max. Single Ouput Dual + Output Dual - Output Triple 5V Triple 12V/15V +/-1% Single, 25% Change Dual FL to 1/2L +/-10% Continuous See Selection Chart

EC-On EC-Off Shutdown Idle Current Control Common

+/-2%, max. +/-2%, max. +/-3%, max. +/- 2%, max. +/-5%, max <500uS <500uS

500VDC 10-9nth Ohm min. 300Khz Connected to O/P Common UL60950 Six Sided Continuous Shield Single O/P 891,000 Hrs. Dual O/P 870,000 Hrs. Triple O/P 790,000 Hrs. MIL-HDBK-217F Ground Benign, 25°C

Environmental Specifications Oper. Temperature Case Temperature Storage Temperature Cooling

-25 to +71°C w. Derate See Curve 100°C max. -55 to +105°C * Free Air Convection

External Output Trimming

Remote On/Off Control Logic Compatibility

+/-0.5% +/-1% +/-0.5% +/-1%

Input-Output Isolation Isolation Resistance Switching Frequency Case Grounding Safety EMI/RFI MTBF

High Density

Output Specifications

CMOS or Open Collector TTL >+5.5VDC or Open Circuit <1.8VDC 10mA Referenced to - Input

*Please see page 4 for Waiver of Liability Statement

Output Derating Curve

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469

ASD30 series Isolated and Regulated 30 WATT Modular DC/DC Converter

Mechanical Dimensions

High Density 470

Pin #

Single Outputs Dual Outputs

Triple Ouputs

1 2 3 4 5 6 7 8

Remote On/Off No Pin - Input + Input Trim - Output + Output No Pin

Remote On/Off No Pin - Input + Input - Aux. Out Common + 5Vout + Aux. Out

Remote On/Off No Pin - Input + Input Trim - Output Common + Output

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FEC40 series Isolated and Regulated 40 WATT Modular DC/DC Converters Wide 2 : 1 Input Range High Efficiency Regulated Outputs 1600V Isolation Unit Measures 2.0”W x 2.0”L x 0.4”H

Full EMI Shielding L-C Type Input Filter

Input Voltage Ranges:

24 VDC Nominal 18-36 VDC 48 VDC Nominal 36-75 VDC Input Filter (Note 6) L-C Type Under Voltage Lockout 24V Input DC-DC On: 17.8V DC-DC Off: 16V 48V Input DC-DC On: 36V DC-DC Off: 34V Input Voltage Variation dv/dt 5V / mS, max. (Complies with ETS300 132 part 4.4) Input Surge Voltage 100mS max. 24V Input 50VDC 48V Input 100VDC Input Reflected Ripple (Note 7) Nom I/P and FL 40mA Pk-Pk Start Up Time Nom. I/P and Static Resistive Load 25mS, typ. Remote ON/OFF (Note 8) DC-DC On: Open or 3.5V < Vr < 12V DC-DC Off: Short or 0V < Vr < 1.2V Remote Off Input Current Nom. Input: 2.5mA

Oper. Temperature Storage Temperature Relative Humidity Maximum Case Temp Over Temp. Protection Thermal Impedance (Note 11)

Thermal Shock Vibration MTBF (Note 10)

-40 to +85°C with derate -55 to +105°C * 5 to 95% RH * 100°C * 115°C, typ. Convection: 9.2°C/Watt Heat Sink w. 20LFM 8.5°C/Watt Heat Sink w. 500LFM 2.8°C/Watt MIL-STD-810D 10-55Hz, 2G, 30 Minutes along X, Y and Z Axes 1.398 MHrs

Model Number Output Voltage Output Amps

Input Range

Efficiency

Ripple & Noise

SINGLE OUTPUT FEC40-24S3P3 FEC40-48S3P3 FEC40-24S05 FEC40-48S05 FEC40-24S12 FEC40-48S12 FEC40-24S15 FEC40-48S15

8 8 8 8 3.33 3.33 2.66 2.66

18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC

50mV Pk-Pk 50mV Pk-Pk 50mV Pk-Pk 50mV Pk-Pk 75mV Pk-Pk 75mV Pk-Pk 75mV Pk-Pk 75mV Pk-Pk

87% 88% 89% 90% 88% 89% 89% 89%

3.3 / 5 VDC

4/4 4/4

18-36 VDC 36-75 VDC

100mV Pk-Pk 100mV Pk-Pk

84% 85%

3.3, +/-12 VDC

6, +/-0.40 6, +/-0.40 6, +/-0.30 6, +/-0.30 6, +/-0.40 6, +/-0.40 6, +/-0.30 6, +/-0.30

18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC

50 / 75mV Pk-Pk 50 / 75mV Pk-Pk 50 / 75mV Pk-Pk 50 / 75mV Pk-Pk 50 / 75mV Pk-Pk 50 / 75mV Pk-Pk 50 / 75mV Pk-Pk 50 / 75mV Pk-Pk

85% 86% 85% 86% 87% 88% 87% 88%

DUAL OUTPUT FEC40-24D3305 FEC40-48D3305 TRIPLE OUTPUT FEC40-24T3312 FEC40-48T3312 FEC40-24T3315 FEC40-48T3315 FEC40-24T0512 FEC40-48T0512 FEC40-24T0515 FEC40-48T0515

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3.3 VDC 5 VDC 12 VDC 15 VDC

3.3, +/-15 VDC 5, +/-12 VDC 5, +/-15 VDC

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High Density

Environmental Specifi cations ENVIRONMENTAL SPECIFICATIONS

Input Specifications

471

FEC40 series Isolated and Regulated 40 WATT Modular DC/DC Converters

Output Specifications

Line Regulation

High Density

Cross Regulation (Note 4) Temperature Coefficient Ripple/Noise (Note 5) Transient Response Voltage Stability Over Load Protection Short Circuit Protection

OVP Threshold, Zener Diode Clamp: 3.3V Output 5V Output 12V Output 15V Output

3.9Volts 6.2Volts 15Volts 18Volts

Physical Specifications Case Material Construction Dimensions Weight

FEC40-48S05

Natural Convection 100 Output Power (%)

Voltage Adjust (Note 1) Min. Load-Triple Only (Note 2) Load Regulation-10%-FL (Note 3)

40 Watts Max. See Selection Chart single/dual; +/- 1% Triple Main: +/-1% Triple Aux.: +/-3% +/-10% 10% singles: +/-0.5% duals: +/-1% Triple Main: +/-2% Triple Aux.: +/-5% single/dual; +/- 0.5% Triple Main: +/-1% Triple Aux.: +/-5% single/dual/triple main +/-1% triple aux. +/-5% +/-0.02%/DegC, Max. See Selection Chart (25% Load Step) 400uS (singles/duals) +/- 2% (triples) 5 V:+/-2%, Aux: +/-5% FL, Nom. I/P: 150% Max. Hiccup, Auto Recovery

75 50 25 0 -40 -25 -10 0

50 60 70 80 90

100

Ambient Temp. (ºC) FEC40-48S05 Efficiency VS Input voltage

Efficiency (%)

Output Power Voltage and Current O/P Accuracy (FL & Nom I/P)

Output Derating Curves

Nickel-Coated Copper Non-Conductive Base Fully Encapsulated with UL94-VO Epoxy 2.0” x 2.0” x 0.40” 2.11 oz, (60g)

92 91 90 89 88 87 86 85 84 83 82 36

Input Voltage (V) FEC40-48S05 Efficiency VS Output load

Input-Out Isolation Isolation Resistance Isolation Capacitance Efficiency Switching Frequency (Note 9)

1600VDC 10-9nth Ohms 1000pF, Max. See Selection Chart 300Khz, typ

*Please see page 4 for Waiver of Liability Statement

Efficiency (%)

General Specifications

94 92 90 88 86 84 82 80 75 70 65

Output Load (A) 472

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FEC40 series

High Density

Isolated and Regulated 40 WATT Modular DC/DC Converters

Mechanical Dimensions

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473

ASD50 series Isolated and Regulated 25 to 50 WATT Modular DC/DC Converters Wide 2:1 Input Range 1500V Isolation Remote ON/OFF Control High Efficiency Input PI Filter Unit Measures 2.28”W x 2.4”L x0.5”H

Five-Sided Shield

Output Specifications

Input Specifications Input Voltage Ranges:

High Density

Undervoltage Lockout

Input Filter

12 VDC Nominal 24 VDC Nominal 48 VDC Nominal 12Vin Power Up 12Vin Power Down 24Vin Power Up 24Vin Power Down 48Vin Power Up 48Vin Power Down PI Type

9-18 VDC 18-36 VDC 36-75 VDC 8.8V 8V 17V 16V 34V 32.5V

Voltage Accuracy Transient Response Trim Adjustment Range Short Circuit Protection Over Voltage Protection Current Limit Efficiency

Physical Specifications Case Material Construction Weight Dimensions

474

Voltage and Current Load Regulation (0% to FL) Line Regulation Temperature Coefficient Ripple/Noise

Aluminum Fully Encapsulated 5 oz (142g) 2.28” x 2.4” x 0.5”

See Selection Chart +/-0.2%, max. (HL-LL) +/-0.2%, max. +/-0.03%/°C 2.5, 3.3 & 5Vout 20mV RMS, max. 75mVp-p max. 12 & 15Vout 30mV RMS, max. 100mVp-p max. 24Vout 100mV RMS, max. 240mVp-p max. +/-1%, max 25% Change <500uS +/-10% Continuous 115-140% of Output 110-150% of Rated Load See Selection Chart

Model Number

Output Voltage

Output Amps

Input Range

Efficiency

ASD50-12S25 ASD50-24S25 ASD50-48S25 ASD50-12S3 ASD50-24S3 ASD50-48S3 ASD50-12S5 ASD50-24S5 ASD50-48S5 ASD50-12S12 ASD50-24S12 ASD50-48S12 ASD50-12S15 ASD50-24S15 ASD50-48S15 ASD50-12S24 ASD50-24S24 ASD50-48S24

2.5 VDC

10 10 10 10 10 10 10 10 10 4.16 4.16 4.16 3.33 3.33 3.33 2.08 2.08 2.08

9-18 VDC 18-36 VDC 36-75 VDC 9-18 VDC 18-36 VDC 36-75 VDC 9-18 VDC 18-36 VDC 36-75 VDC 9-18 VDC 18-36 VDC 36-75 VDC 9-18 VDC 18-36 VDC 36-75 VDC 9-18 VDC 18-36 VDC 36-75 VDC

76% 77% 77% 78% 79% 79% 81% 82% 83% 84% 85% 85% 84% 85% 85% 84% 86% 86%

3.3 VDC

5 VDC

12 VDC

15 VDC

24 VDC

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ASD50 series Isolated and Regulated 25 to 50 WATT Modular DC/DC Converters

General Specifi cations GENERAL SPECIFICATIONS

Environmental Specifications

Input-Output Isolation I/P-O/P, I/P-Case, O/P-Case Isolation Resistance Switching Frequency 12 & 24Vin 48Vin Safety

Oper. Case Temperature Thermal Shutdown, Case Temp. Storage Temperature Cooling MTBF

1500VDC 10-7nth Ohm min. 400kHz 300kHz UL60950

-40 to +100°C 100°C typ. -55 to +105°C * Free Air Convection 1,005,677 Hrs. MIL-HDBK-217F Ground Benign, 25°C

*Please see page 4 for Waiver of Liability Statement

Remote On/Off Control Logic Compatibility Module-On Module-Off Shutdown Idle Current

Open Collector Referenced to - Input Open Circuit <0.8VDC 10mA

High Density

External Output Trimming

Mechanical Dimensions

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Pin #

Function

1 2 3 4 5 6 7 8 9

+ Input Remote On/Off Case - Input - Output - Sense Trim + Sense + Output

475

ASD75EB series 75 Watt High Density Eighth Brick DC/DC Converter Small 2.32” x 0.9” x 0.37” Size

Adjustable Output Voltage 80-110% of Vo

Constant Frequency

No Sink Current from Output During Shutdown

High Typical Efficiency of 92% (12Vout)

Logic ON/OFF Control

Low Output Noise

MTBF of 1.3Mhrs

24 or 48VDC Nominal Input Voltage Options

RoHS Compliant

Output Over Voltage Protection

CSA Certified to IEC 60950-1 for Basic Insulation

Current Limit/Short Circuit Protection

High Density

Input Specifications

General Specifications

Input Operation Voltage: See Model Chart Input Current FL (0 Vin - Vin max.) See Model Chart Input Transient 1A²t Input Reflected Ripple Current 20mAp-p, typ. Startup Input Voltage (Note 4) 24Vin: 16-18VDC 48Vin: 33-36VDC Shutoff Input Voltage 24Vin: 14-16VDC 48Vin: 30-33VDC Hysteresis 1V

MTBF Weight Dimensions

Output Specifications

Control Specifications Input Logic Low Input Logic High Turn-On Time Trim Adjustment Range

476

1.3Mhrs 0.72 oz (20.5g) 2.3” x 1.45” x 0.47” (58.4 x 36.8 x 12mm)

Voltage at 1mA current relative to -Vin is 1V max. Current at 0 volts is 1mA Enable pin voltage relative to -Vin is 5.5V Leakage current is 100uA 500mS, FL, o=90% Vo, set 80-110%

Model Number

Output Voltage

Output Amps

ASD75-24S3.3EB ASD75-24S5EB ASD75-24S12EB ASD75-48S3.3EB ASD75-48S5EB ASD75-48S12EB

3.3 VDC 5 VDC 12 VDC 3.3 VDC 5 VDC 12 VDC

20 15 6.25 20 15 6.25

Output Voltage See Model Chart Output Current (Io, max.) See Model Chart Output Set Point (Vo,set) +/-1.5%, Nominal Vin, FL Total Output Voltage Range +/- 3% Load/Load Regulation +/-1% Temperature Regulation +/-1%, -40 to 70°C Ripple/Noise 150mV p-p max., 30mVrms (Note 2) Dynamic Response: (Note 3) Peak Deviation 4% Vnom Settling Time 200uS Vout within 1% Vnom Over Voltage Protection 110-140% of Output, Hiccup Mode Over Temperature Protection 105-125°C, auto recover (converter hot spot temperature) External Capacitance (Electrolytic) 3.3 & 5Vout: 10 to 5000uF max. 12Vout: 220 to 1200uF max. Short Circuit Protection (rms) 15Arms, Hiccup, Rout ≤10M Ω Current Limit (rms.) 105-140%, Hiccup Mode Efficiency FL See Model Chart

Input Range

18-36 VDC 18-36 VDC 18-36 VDC 36-75 VDC 36-75 VDC 36-75 VDC

Max. Iin FL Efficiency

4.9A 5.5A 5.5A 2.5A 2.9A 2.9A

Max Output Power

89%, typ. 90.5%, typ. 91.5%, typ. 89%, typ. 91%, typ. 92%, typ.

66 Watts 75 Watts 75 Watts 66 Watts 75 Watts 75 Watts

ASD75EB series 75 Watt High Density Eighth Brick DC/DC Converter

High Density

Mechanical Dimensions

477

ASD75EB series 75 Watt High Density Eighth Brick DC/DC Converter

Derating Curves

High Density 478

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ASD150QV series 150 Watt, Open Frame, Quarter Brick DC/DC Converter Small 2.3” x 1.45” x 0.47” Size

Current Limit/Short Circuit Protection

Constant Frequency (300kHz, typ)

Adjustable Output Voltage 80-110% of Vo

High Typical Efficiency of 91%

Open Frame Construction

Low Output Noise

Logic ON/OFF Control (Optional Configurations Available)

Output Over Voltage Protection

MTBF Weight Dimensions

Output Specifications 1Mhrs, 48Vin, 80% Load 3.52 oz (100g) 2.3” x 1.45” x 0.47” (58.4 x 36.8 x 12mm)

Control Specifications Turn-On Time Trim Adjustment Range

500mS, FL, Vo=90% Vo, set 80-110% See TRIM CIRCUIT

Isolation Specifications Input-Output Input-Output Capacitance Isolation Resistance

1500VDC 1500pF 10MΩ

Input Specifications Input Operation Voltage: See Model Chart on Page 1 Input Current FL (0 Vin - Vin max.) See Model Chart on Page 1 Input Transient 1A²t Input Reflected Ripple Current 50mAp-p, typ. (Note 1) Startup Input Voltage (Note 4) 24Vin: 17-19VDC 48Vin: 33-36VDC Shutoff Input Voltage 24Vin: 16-18VDC 48Vin: 30-33VDC Hysteresis 1V

Output Voltage See Model Chart on Page 1 Output Current (Io, max.) See Model Chart on Page 1 Output Set Point (Vo,set) +/-1.5%, Nominal Vin, FL Total Output Voltage Range +/- 3% Load/Load Regulation +/-1% Temperature Regulation +/-1%, Io-40A, Ta=-40 to 70°C Ripple/Noise 150mV p-p max., 30mVrms (Note 2) Dynamic Response: (Note 3) Peak Deviation 4% Settling Time 200uS Vout within 1% Vnom Over Voltage Protection 110-140% of Output, Hiccup Mode Over Temperature Protection 104-125°C, auto recover External Capacitance 10 to 5000uF max. (Electrolytic) Short Circuit Protection (rms) 30Arms, Hiccup, Rout ≤10M Ω Current Limit (rms.) 110-140%, Vo=90% of Vnom Efficiency @ 50% Io: 90% @ 75% Io: 91% @ 100% Io: 90%

High Density

General Specifications

Notes 1.Measured before Input Filter 2.Scope measurement should be made using a BNC connector with 1uF and 10uF aluminum electrolytic capacitor across output. Scope set to read at 20MHz bandwidth. 3. 25%-50%-75% load, 0.1A/uS 4. The Cold Start condition is a uniform converter temperature of -40°C after thermal stabilization. The Hot Start condition for start up is a uniform converter temperature of 65°C after thermal stabilization.

Model Number

Output Voltage

Output Amps

Input Range

Max. Iin FL

Max Output Power

ASD150-24S3.3QV ASD150-24S5QV ASD150-24S12QV ASD150-48S3.3QV ASD150-48S5QV ASD150-48S12QV

3.3 VDC 5 VDC 12 VDC 3.3 VDC 5 VDC 12 VDC

40 30 12.5 40 30 12.5

18-36 VDC 18-36 VDC 18-36 VDC 36-75 VDC 36-75 VDC 36-75 VDC

11A 13A 13A 6A 7A 7A

132 Watts 150 Watts 150 Watts 132 Watts 150 Watts 150 Watts

479

ASD150QV series 150 Watt, Open Frame, Quarter Brick DC/DC Converter

Trim Circuit

High Density

Pin Outs

Mechanical Dimensions

480

High Reliability /COTS power supplies High reliability and ruggedized applications require unique power solutions. DC/DC and AC/DC modules offer many of the attributes required including extended temperature ranges and packaging that addresses shock and vibrations environments. Military, in-flight, transportation and industrial controls are markets served by these solutions. DC/DC and AC/DC converter modules (often called “bricks”) are found in a variety of power levels and input ranges. Often times they are used in a distributed solution utilizing multiple modules. The input voltage ranges may service 12, 24 or 48V buses along with 300Vdc following power factor correction modules. For AC inputs, frequency is an additional consideration as conventional grid power operates at 50/60Hz while military power may require 440Hz and newer aircraft requirements providing 350 to 550 Hz (also known as “Wild” frequency). Packages are typically board mount and encapsulated to provide shock/vibration resistance along with efficient thermal distribution/management. Industry standard package outlines include full brick, ¾ brick, ½ brick, and ¼ brick. When selecting a DC/DC converter, consider the following criteria as they relate to your application requirements:

High Reliability/COTS

Distributed Architecture. There are several advantages offered by a distributed architecture approach in High Reliability applications. Time to market and relatively low volumes are drivers in utilizing off-the-shelf bricks. Other reasons may include low profiles and improved reliability. With AC/DC PFC modules, higher powers can be achieved without the requirement of fan cooling.

DC/DC converters typically have low levels of output capacitance, which limits their ability to drive highly capacitive loads. If load capacitance exceeds a converter’s specified level, the converter may shut down or enter a current-limiting mode. Regulation. Fluctuations in line (input voltage) and load produce changes in DC/DC converter output voltage. These sensitivities to changing inputs and outputs are quantified on converter data sheets as line and load regulation. When selecting a DC/DC converter, determine the application’s requirement for voltage regulation to determine whether a converter’s line and load regulation specifications are adequate. Ripple and Noise. DC/DC converters typically specify maximum values of output ripple and noise in millivolts peak-to peak for each output. Be sure to compare a converter’s data sheet specifications for ripple and noise with application requirements when choosing a DC/DC converter. Efficiency. Typical values of efficiency are often specified for DC/DC converters. These values provide a rough means of comparing the performance of different models. However, the efficiency of a given DC/DC converter will vary with operating conditions such as load. Consider the typical operating conditions and efficiency requirements of the application when selecting DC/DC converters. www.astrodyne.com

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481

High Reliability/COTS

Application Notes

No.

Description Page

AP1

Module Handling Considerations (All Series).................................................................483

AP2

Mechanical Mounting Considerations (All Series)..........................................................483

AP3

Input Ripple Measurement and Filtering (All Series)......................................................484

AP4

Logic On - Off (MV, UV, and UV-164 Series)..................................................................484

AP5B

Output Voltage Trimming (NV, PV, and UV Series)........................................................487

AP6

Remote Sensing (All Series)..........................................................................................489

AP7

Measuring Line and Load Regulation (All Series)..........................................................490

AP8

Measuring Output Noise and Ripple (All Series)............................................................491

AP10

Thermal Considerations (All Series + 2003, 2005, 2006 Heatsinks)..............................492

AP23

PFC Load Restrictions During Startup (PFC Series).....................................................493

AP24C

Power Factor Correction (PFC) Modules (PFC Series)................................................496

High Reliability/COTS

A complete set of Application Notes is available from Astrodyne including the following titles:

App. Note# Application Note Title Product Series AP9

Trimming Paralleled Modules MV, UV, and UV-164 Series

AP11A

Non-Redundant Paralleling of UV300 Modules UV300 & UV300-164 Series

AP12A

Synchronization of MicroVerter Modules UV and UV-164 Series

AP13B

Paralleling with Current Sharing and n+m Redundancy MV, UV, & UV-164 Series

AP14

Special Considerations for MicroVerter Triples UV Triple Output Module

AP19C

Hole Dimensions and Socket Information NV, PV, UV, & PFC Series + HH199

AP25B

SuperVerter DC/DC Converters SV Series

AP27

Comparing the MicroVerter UV and UV-164 Series UV & UV-164 Series

The latest versions of all our Application Notes are available in PDF format on our website or call 800-823-8082 for a complete set of printed Application Notes.

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High Reliability/COTS

Application Notes

Module Handling Considerations RO DC/DC and AC/DC converter modules have proven to be extremely rugged and are designed to meet MIL-STD-810D requirements. Also, once theyâ&#x20AC;&#x2122;re installed properly on a printed circuit board, they can take all the normal mechanical forces for circuit boards and circuit board mounted components. Reasonable care must be exercised, however, during all handling of converter modules, to prevent mechanical damage to the case or the electrical terminal pins.

Implementation Storage Modules should be kept in their original shipping containers to provide adequate protection until inserted into printed circuit boards.

Installation into Printed Circuit Board Reasonable care must be exercised when inserting the pins of a module into the holes or sockets of a printed circuit board during production or prototype fabrication. The pins must all be properly aligned with the holes or sockets before pressure is evenly exerted to the surface of the module to seat it onto the board. Otherwise, over stressed or bent pins could result in external pin breakage, internal damage, or degradation of the module.

Removal from Printed Circuit Board In soldered applications, solder must be carefully removed from the pin/pad connections and each pin must be observed to be mechanically free from its pad. Once the solder is adequately removed or for socket applications, the module must be removed using both hands, one on either end of the module, to carefully lift the mod-

ule evenly off the board. While the pins are clearing the sockets or circuit board holes, the plane of the module baseplate must remain in parallel with the plane of the circuit board. Otherwise, the pins may be over stressed or bent resulting in degradationor failure.

Shipment of Modules In the event that individual modules are shipped as a component and not in a circuit board assembly, adequate protection must be provided to the pins to prevent damage. Utilization of the original plastic shipping tube from Astrodyne is recommended.

Related Topics AP-2 Mechanical Mounting Considerations AP-18 Board Layout Considerations and Recommendations AP-19 Hole Dimensions and Socket Information

Mechanical Mounting Considerations General description RO DC/DC and AC/DC converter modules have proven to be extremely rugged, and are designed to meet MIL-STD-810D requirements. Also, once theyâ&#x20AC;&#x2122;re installed properly on a printed circuit board, they can take all the normal mechanical forces for circuit boards and circuit board mounted components. Reasonable care must be exercised, however, during the design and fabrication of modules into power supply assemblies to prevent excess stress that could cause mechanical damage to the case or the electrical terminal pins.

Implementation Design Good mechanical engineering practices must be observed in designing modules into power supply assemblies to prevent excess stress or bending forces on the

Application Note 2

modules and their electrical terminal pins. Circuit board holes and sockets must be properly located and mechanical attachment to heatsinks and circuit boards must be designed to prevent excess shear, compression, or tensile forces on the pins. (See AP-19, Hole Dimensions and Socket Information.)

Assembly Good manufacturing procedures must be observed in assembling modules into power supply assemblies to prevent excess stress on the modules or pins. Reasonable care must be exercised in inserting (and removing) modules from printed circuit boards (See AP-1, Module Handling Considerations). In particular, care must be exercised in applications where a single heat sink is attached to more than one module in a soldered application. If possible, the heat www.astrodyne.com

sink should be assembled to the modules prior to soldering. In situations where this is not possible, care must be exercised to insure that bolting of the modules to the heat sink following the soldering operation does not result in excess stress on the pins. One approach might be to fixture the modules during soldering to insure their base plates are co-planer and to also insure that the heatsink is flat and that pin forces are reasonable during and after assembly.

High Reliability/COTS

General description

Application Note 1

Related Topics AP-1 Module Handling Considerations AP-18 Board Layout Considerations and Recommendations AP-19 Hole Dimensions and Socket Information

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High Reliability/COTS

Application Notes

Input Ripple Measurement and Filtering General description The following discussion pertains to a MicroVerter® UV28 module loaded to 200W. The 370 kHz component of the input ripple is addressed. Higher frequency components, which are usually common mode “spikes,” must be addressed separately.

Measurement Measurement of the input ripple current of a high frequency DC/DC converter is not a simple task. Because of the large DC component of the current, many current probes normally used to measure high frequency currents become useless, due to DC saturation. Current shunts, while suitable for accurate measurement of the DC value of the current, are too inductive to give an accurate picture of the AC component of the current.

High Reliability/COTS

A low inductance current shunt can be made using a short piece of resistance wire for the purpose of measuring input ripple current. This device, when connected to coaxial cable, and properly terminated, will result in fair accuracy if the resistance wire length is held to an inch or less. The oscilloscope measurement will be greater than the actual IR component of the voltage due to the Ldi/dt component which, although small, will be present as well. A more complicated, but more accurate device can be made which is virtually non-inductive by insulating the resistance wire and shielding it with the shield lead from a piece of coaxial cable. Our measurements were made using this type of device, constructed from three pieces of #18 managing 290, one inch long each, in parallel. The managing wire was kept on sleeved, then shielded with the shield lead portion of a piece of RG 58 A/U coax which is connected to the managing at one end. RG 58 A/U cable was also used to connect the signal to the scope, as was a 50 OHM termination. The resultant DC resistance is 5 milliseconds-Ohms. Of course, there is still some error where the measured current is higher than the actual current due to skin

effect. The capacitance of the device is negligible.

or more of inductance).

Ripple Current Theory In Figure 1 below, a MicroVerter module is shown connected to an ideal DC source. Since the ideal source has infinite capacity, the ripple voltage appearing at its terminals is zero, despite the ripple component of the current flowing into the MicroVerter module.

Figure 1 With an ideal input source, the ripple voltage at Vin is zero. Although the amount of ripple current is small, in practice, a ripple voltage will appear at the input to the MicroVerter module, and at the terminals of the source, which should be treated as two different points. The ripple at the source is a function of ripple current and the source impedance, and the ripple at the input to the MicroVerter module is a function of these parameters, as well as the line impedance. The source impedance is generally made up of elements such as battery ESR, capacitor ESR, actual capacitor value, and capacitor or battery ESL. The line impedance is made up of the wire inductance and resistance. Figure 2 illustrates a MicroVerter module connected to a real source, with source impedance and line impedance included. The voltage at the source terminals has been named VDC. The ripple voltages can be calculated if these quantities are known (ripple current, source impedance and line impedance). On the relative magnitudes of the source and line impedances at 400khz, the source ripple may be highly attenuated. For instance, just a few feet of wire connected between the source and the MicroVerter module input may reduce the ripple at the source to a negligibly small p-p magnitude if the source impedance is small. (A few feet of wire can easily result in 1µH www.astrodyne.com

484

Application Note 3

Figure 2 The source voltage and the input to the converter is treated as two different points. They are separated by the line impedance. There is, of course, a need to keep the ripple that appears at the source reasonably small, since other equipment may be sensitive to ripple at certain frequencies. Since the MicroVerter operates at the affixed 400khz frequency, keeping the source ripple very low is a simple matter.

Input Ripple Reduction The easiest way to reduce the ripple voltage is to use a capacitor at the input to the MicroVerter. This is assuming that the source impedance is suitably low in the first place. The capacitor should be located physically close to the MicroVerter module input, and the connections should be as short as possible between the cap and the input pins to minimize series inductance and resistance. A 22uF, 50V tantalum, or a 3.3uF, 50V MLC, or a 220uF, 50V aluminum will give good results. The same type of capacitor should be added at the source point if the source impedance is not already sufficiently low. The capacitor at the MicroVerter module input terminals reduces both the Vin ripple, and the VDC ripple. Since the line impedance is usually inductive, the capacitor will supply some of the MicroVerter module’s input ripple current, thereby reducing the current flowing in the source impedance, and hence the source ripple voltage.

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High Reliability/COTS

Application Notes

The above mentioned capacitors are generally sufficient to reduce the ripple at the MicroVerter module input to less than 100mV p-p. Depending on the relative magnitudes of the source and line impedances at 400khz, the source ripple may be highly attenuated. For instance, just a few feet of wire connected between the source and the MicroVerter module input may reduce the ripple at the source to a negligibly small p-p magnitude if the source impedance is small. (A few feet of wire can easily result in 1µH or more of inductance). For applications where the line impedance is small, the source ripple (VDC ripple) will approach that of the input (Vin ripple). In these cases, a small valued inductor can be connected between the VDC and Vin points to reduce the VDC ripple to the desired p-p value. The inductor should be used in addition to the capacitor at the input to the MicroVerter module previously described. This is shown in Figure 4.

Input Ripple Reduction The easiest way to reduce the ripple voltage is to use a capacitor at the input to the MicroVerter. This is assuming that the

Figure 4 An input choke can be used when the line impedance is small. Generally, a 2µH choke will be sufficient to reduce the VDC ripple to less than 20mV p-p, assuming 100 milliohm source impedance, and 100 milliohm impedance for the cap at the input of the MicroVerter module. Attention should be given to the line impedance, since it can play a significant role in determining the ripple at the source, and at the input to the converter. If the line in-

Logic On - Off

ductance exceeds 1µH, it is recommended that a capacitor be placed at the input of the MicroVerter module as previously described to prevent the ripple appearing at Vin from becoming excessively high, which can result in degraded converter performance or oscillations. Wire, switches, circuit breakers, fuses, and the like will all contribute resistive and more importantly, inductive elements to the impedance of the line. Tables or handbooks, such as F.E. Terman’s Radio Engineers’ Handbook, McGraw-Hill 1943, may be helpful in determining wire inductances, etc.

Related Topics AP-13 Paralleling with Current Sharing and n+m Redundancy When paralleling MicroVerter modules, following the recommendations in this note, the result will be much improved performance of paralleled MicroVerter modules, in terms of not only input ripple, but current sharing and output ripple is well. A separate input capacitor, and inductor if necessary, provided for each MicroVerter module, will give best results. The inductor must be connected in the plus leg of the input line to each individual MicroVerter module in order that the -Vin pins of all the paralleled units may be held at the same potential. In light of this note, it follows that the inductance of the connections between the -Vin pins of the paralleled MicroVerter modules should be held to a minimum.

High Reliability/COTS

Figure 3 A cap at the converter input has a dramatic effect on the ripple at the source.

source impedance is suitably low in the first place. The capacitor should be located physically close to the MicroVerter module input, and the connections should be as short as possible between the cap and the input pins to minimize series inductance and resistance. A 22uF, 50V tantalum, or a 3.3uF, 50V MLC, or a 220uF, 50V aluminum will give good results. The same type of capacitor should be added at the source point if the source impedance is not already sufficiently low. The capacitor at the MicroVerter module input terminals reduces both the Vin ripple, and the VDC ripple. Since the line impedance is usually inductive, the capacitor will supply some of the MicroVerter module’s input ripple current, thereby reducing the current flowing in the source impedance, and hence the source ripple voltage.

Application Note 4

General Description

Implementation

The logic on-off function allows the user to shut off the converter’s output using a simple TTL logic signal or mechanical switch, and avoids having to turn off the DC input bus. This feature is useful for cycling the output power without having to cycle the input power. It is particularly useful for the µV300 series, where it avoids recharging of the 60Hz energy storage caps that normally filter the 300VDC bus voltage.

The PARALLEL-ON/OFF pin is used to implement the disable function. By pulling the terminal below 1V @ 4mA with respect to -IN, the module turns off. With logic circuits -A simple logic signal can disable the converter using a transistor or small signal FET as shown in Figures 4a and 4b, respectively. In these circuits, a logic high signal disables the converter.

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Figure 4a Logic on/off circuit with small signal transistor. A logic high signal disables the converter

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High Reliability/COTS

Application Notes

Custom Thermal Protection

Figure 4b Logic on/off circuit with small signal MOSFET. A logic high signal disables the converter. In some cases, it is desirable to use a logic low signal to disable the converter. Figure 4c shows how to implement a logic lowdisable circuit.

High Reliability/COTS

The circuits shown in Figures 4a, 4b and 4c are all primary-referenced. In situations where the logic signal is secondaryreferenced, an opto-isolator can be used to disable the converter as shown in Figure 4d. A high signal disables the converter. Note: The converter’s output cannot be used to disable itself. Otherwise, the logic voltage used to disable the converter would itself disappear when the converter was turned off, and the converter would restart. Use either a housekeeping power source or more than one paralleled converter to insure logic signal voltage.

Figure 4e Use a bounce-limited contact switch to disable the converter. The converter is disabled when the switch is closed. The resistor should be limited to 470Ω to prevent the pin voltage from exceeding 1V when the switch is closed. C should not exceed 0.047µF. Otherwise; the converter’s output will take abnormally long to reach its operating voltage. If the mechanical switch is located more than a few inches away from the converter, or if the switch is an ordinary (not a contact bounce-limited) type, consider using the switch to activate a small-signal FET or transistor located physically near the module as shown in Figure 4f. The filter capacitor connected to the FET’s gate filters out contact bounce and noise.

Figure 4f Suggested circuit for isolating contact bounce and noise from the PARALLEL ON/OFF pin. Typical values for a 48V application are shown.

Possible Applications Figure 4d Secondary-referenced on/off circuit using an opto-coupler. A logic high signal disables the converter. With mechanical switch -A simple mechanical switch can disable the converter. Astrodyne recommends a pushbutton switch. In addition, when using any type of mechanical switch, always use a de-bounce circuit consisting of a resistor and a capacitor as shown in Figure 4e.

Measurement of the input ripple current of a highEnergy Conservation, The U.S. government’s new Energy Star Program, puts a premium on energy efficient systems. Astrodyne’s MicroVerter modules are an excellent choice for these systems since they are inherently more efficient than conventional power supplies. When paralleling converters, the on/off feature can be used to enable the exact number of modules to attain peak operating efficiency.

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Although MicroVerter modules are internally thermally protected, other system components may be susceptible to overheating due to fan failure or high outside ambient temperatures. Thermal sensors, properly placed, could detect some other temperature and shut off the converters using the logic on/off function, preventing system damage. Sequencing outputs In some applications, one output voltage needs to “come up” before another. Logic on/off can be used to control output voltages to rise in a particular sequence. (See Figure 4g depicting logic turn-on time)

Figure 4g Timing diagram showing logic turn on time.

Precautions Voltage sensitivity - The PARALLEL-ON/ OFF pin is voltage sensitive. If the pin voltage, applied or induced, exceeds 6V, the module can fail. If the conductor leading to the PARALLEL-ON/OFF pin is over a few inches long, or if there is any possibility of induced transient voltages, Astrodyne recommends connecting a 5.6V - 1W Zener diode from PARALLEL-ON/OFF to -IN. The Parallel-On/Off pin is physically close to the +IN pin. Accidentally shorting the two pins can cause module failure. Make any circuit changes to the PARALLEL-ON/OFF pin with the power off. For proper converter operation, the pin should be left floating, not forced highAlways use a mechanical switch or open collector to control the pin. Never apply an external voltage to this pin. Noise sensitivity - The PARALLEL-ON/OFF pin is noise sensitive. Keep the logic on-off circuit as close as possible to the module. If the circuit must be more than a few inches away, or if the environment is electrically

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High Reliability/COTS

Application Notes

noisy, connect a capacitor from PARALLEL-ON/OFF to -IN. A 0.022µF NPO ceramic capacitor is normally recommended. If wire cables are used for the disable function, use a twisted pair, or better, use coax cable.

Related Topics AP-13 Paralleling with Current Sharing and n+m Redundancy

Output Voltage Trimming Output voltage trimming allows the user to change the output voltage of the module. This greatly enhances the functionality of modules by allowing a few select, standard modules to be applied to virtually any application; regardless of the voltage requirements. This allows module users to reduce the number of models kept in stock. This application note covers the basics of trimming modules and performance effects of trimming. It also covers some possible applications for trimming as well as some trimming precautions to observe.

Implementation Basic Trimming Concepts

Where: ZTG = the transimpedence gain of the module from the trim pin to the output (see tables). Vref = the internal reference voltage of the module (see tables). Vnom = the nominal output voltage of the module with no trimming (see tables). Vo = The desired output voltage of the module after trimming.

MicroVerter Trimming The trimming constants for the MicroVerter modules are given in Table 5a. These constants, along with the desired output voltage, are plugged into the resistor equations derived above.

Astrodyne uses a simple approach to trimming modules that in most cases allows the module to be trimmed with a single external resistor. To trim the module you must create a current source/ sink that provides current to the TRIM pin. To accomplish this, connect a resistor from TRIM to either +SENSE or -SENSE depending on whether you want a lower or higher than nominal output voltage. In trim-up applications the resistor will be connected from TRIM to -SENSE, and in trim-down applications the resistor will be connected from TRIM to +SENSE. Figure 5a shows the two connections. To calculate the resistor value, use the following equations:

Figure 5a Basic circuits for trim-up and trimdown applications. Note: The trimming ranges in Table 5a represent the guaranteed ranges given in the data sheets. On some models extended ranges have been verified and are reflected in the table. Also note that the module performance specifications only apply when the output voltage is within the guaranteed adjustment range. If your application requires a trim voltage that is outside of the range given, contact the factory and they will assist you.

Ω Resistor in series with the TRIM pin. This resistor must be subtracted from the calculated trim resistor value. EXAMPLE: An application requires 9A at 26V to drive a RF amplifier in a cellular transmitter. In this application we could use either a 28V module trimmed down to 26V or a 24V module trimmed up to 26V. The 28V module would have a current limit of 9A. The 24V module has a power rating of 24V x 10A or 240W. At 26V the output current must be limited to 240W / 26V = 9.23A which is acceptable for the application. For our example we will choose the 24V module since it will be more efficient (module efficiency improves when the output is trimmed up and degrades when the output is trimmed down) and we don’t need the 9A current limit feature. The required trim resistor is:

High Reliability/COTS

General Description

Application Note 5B

For our application we will use a 30.9kΩ, 1%, temperature stable, metal film resistor such as a RN55D connected from TRIM to -SENSE. www.astrodyne.com

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Application Notes

NanoVerter Trimming The trimming constants for the NanoVerter modules are given in Table 5b. These constants, along with the desired output voltage are plugged into the resistor equations derived above. There is one significant difference between the NanoVerter modules and other modules in that NanoVerter module have an internal 332Ω resistor in series with the TRIM pin. This resistor must be subtracted from the calculated trim resistor value. The modified trim resistor equations are:

The required trim up resistor is: R trim-up =

R trim-up =

0.575kΩ x (2.5V)

the factory they learned that the 15V

- 0.332kΩ

5.5V - 5V 2.543kΩ

For this example we will use a 1.96kΩ, 1%, temperature stable, metal film resistor such as a RN55D for the trim down resistor and a 2.55kΩ, 1% temperature stable, and metal film resistor such as a RN55D for the trim up resistor. See Figure 5b for the proper connections.

PicoVerter Trimming

High Reliability/COTS

Note: The trimming ranges in Table 5b represent the guaranteed ranges given in the data sheets. On some models extended ranges have been verified and are reflected in the table. Also note that the module performance specifications only apply when the output voltage is within the guaranteed adjustment range. If your application requires a trim voltage that is outside of the range given contact the factory.

EXAMPLE: A 5V logic system needs the capability to perform margin testing. The margin limits are 4.5V and 5.5V. The required trim down resistor is:

The trimming constants for the PicoVerter modules are given in Table 5c. These constants, along with the desired output voltage are plugged into the resistor equations derived above; and repeated here for clarity:

PicoVerter module can be trimmed down to 12V and still handle the modest load requirements. The required trim down resistor is: R trim-dn =

R trim-dn =

20.77kΩ x (2.5V - 12V) 12V - 15V 65.76kΩ

For this example use a 66.5kΩ, 1%, temperature stable, metal film resistor such as a RN55D for the trim down resistor and connect it from TRIM to +SENSE.

Performance Effects of Output Trimming

Note: The trimming ranges in Table 5c represent the guaranteed ranges given in the data sheets. On some models extended ranges have been verified and are reflected in the table. Also note that the module performance specifications only apply when the output voltage is within the guaranteed adjustment range. If your application requires a trim voltage that is outside of the range given contact the factory and they will assist you. EXAMPLE: A designer has a system that uses both 12V and 15V PicoVerter modules. They would like to minimize part count and lower cost by only using one model of the PicoVerter modules. By checking with www.astrodyne.com

488

Figure 5b Circuit for NanoVerter trimming example: Voltage margining using a switch.

Several of the module performance parameters will change as the output voltage is trimmed. All specifications given in the data sheets apply over the guaranteed adjustment range. The specifications of primary concern are: efficiency, output ripple, and output OVP.

Efficiency -The efficiency of a given model will decrease as the output voltage is trimmed down and increase as the voltage is trimmed up. Output Ripple - As a percentage of

the output voltage, the output ripple will increase as the voltage is lowered and decrease as the voltage is raised.

Output OVP - The OVP set point

remains at a fixed voltage, independent of output trimming. In most cases the OVP set point is what limits the maximum trimmable

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High Reliability/COTS

Application Notes

Do not exceed the maximum rated output power of the module when trimming the output up.

Possible Applications

conditions might also fail under conditions found in the user’s environment. Margin testing helps insure trouble-free system operation.

Obtaining non-standard output voltages -When a non-standard output

voltage is necessary, it may be available simply by trimming the output voltage of a module with an output voltage that is close to the desired voltage. Although the published data sheet limits are valid for the guaranteed adjustment range, lower output voltages are commonly available by using the trim function. Contact the factory for details.

changes could cause the converter’s trimmed output voltage to vary. Noise sensitivity - The TRIM pin is noise sensitive. External resistors (either fixed or variable) should be located within one cm of the converter. If wires are necessary, use twisted or shielded wires. Output power, output current - If the output voltage is increased, output current must be derated to avoid exceeding module maximum output power. If the output voltage is decreased, output current is limited to its maximum rating and the available output power decreases.

Eliminating the need for remote sense Output trimming can be used instead of remote sense when the load current change is limited and the voltage drop between converter and load is relatively constant.

Reducing the number of stocked models -When two output voltages are

necessary, such as 24V and 28V, one model may be able to supply both, using the trim function to set the lower voltage.

Adjustment range limits - In some cases, the output voltage can be trimmed outside the guaranteed adjustment range. However, data sheet specifications are only valid within the specified voltage range.

System testing (margining) - Often,

Precautions

Related Topics

AP-19 Hole Dimensions and Socket Information

AP-3 Input Ripple Measurement and Filtering

AP-23 PFC Load Restrictions during Startup

AP-13 Paralleling with Current Sharing

High Reliability/COTS Figure 24f a simple, cost effective approach to a multiple PFC system

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SMV-28-500 series 500 Watt, High Efficiency, AC/DC Power Module Miniature 4.59” x 2.4” x 0.5.” Size

Over Voltage Protection

High Power Density up to 90.78W/ Inch ³

Current Limit/Short Circuit Protection

High Typical Efficiency of 88.5% at 230VAC

Adjustable Output Voltage 60-120% of Vo, Set

Low Output Noise

Remote Sense

Metal Baseplate

Power On Signal (ENA) Open Collector (10mA sink current). Low (ON) when output is present

Thermal Protection

Output Specifications

MTBF Weight Dimensions

TBD TBD 4.59” x 0.5” x 2.4” (116.8 x 12.7 x 61mm)

Output Voltage & Current See Model Selection Chart PG. 1 Output Set Point See Model Selection Chart PG. 1 Output Voltage Adjustment Range 16.8-33.6VDC @ FL Load Regulation 56mV typ. NL-FL Line Regulation 56mV typ. HL-LL Ripple/Noise p-p max. (Note 1) 280mV Dynamic Response (Note 6) 25% - 50% - 75% Load Peak Deviation: 3% Vo, set Settling Time 300uS Current Limit (Note 2) 105-140% of Rated Load Over Voltage Protection 125-145% Vo, set, Io=0.5A, clamp Over Temperature Protection Shutdown: 110°C typ. Auto Recovery: 90°C min. Efficiency (Tb=°C) 86.5% @ 110 Vin, FL 88.5% @ 230Vin, FL See Fig. 4 EFFICIENCY CURVE

Input Specifications Input Operation Voltage: Input Frequency Input Current FL @ 100 Vin, FL Inrush Current (Note 3)

85-265 VAC 47-63 Hz 6.2A 40A @ 265VAC

Isolation Specifications Input-Output Input-Case Output-Case Input-Output Capacitance Isolation Resistance

3000VAC, 60S 2500VAC, 60S 1500VDC, 60S 2000pF 100MΩ @ Tb=25°C & 70%RH Output to Baseplate-500VDC

High Reliability/COTS

General Specifications

Control Specifications Turn-on Time Trim Adjustment Range

Notes 1.2.Bandwidth 5Hz to 20MHz and with filter 4.7nF MLCC series 50Ω min. Output Capacitor: 470uF*2, TC≥ -20°C, 470uF*4, TC≤ -20°C. 2. Current Limit inception point Vo=90% of Vo, set @ Tb-25°C; Auto recovery. 3. Turn on @ 265Vin, External Components are needed for operation. 4. Sine Wave, 10-55Hz (Sweep for 1 min.), Amplitude 0.825mm Constant (Max. 0.5g) X, Y. Z 1 Hour each, at No Operation 5. Temperature measurement shall be taken from the baseplate (Tb). 6. 0.1A/uS; with cap 940uF/35V, Tb=25°C, Vin=200VAC

3S max., 90% Vo, set, FL 60-120% with Cap. 940uF/35V, Tb=25°C See Fig. 1 TRIM CiRCUIT

Absolute Maximum Ratings (Min to Max) Input Voltage (AC(L) to AC(N) Power Factor Correction Storage Temperature Storage Humidity Operating Temperature (Note 5) Operating Humidity Output Power

300 VAC with No Damage 0.95 min HL-LL and Full Load -55 to +125°C 10 to 95% -40 to 100°C 20 to 95% 500 Watts

Model Number

Output Voltage

Output Input Range Max, lin FL Amps

Efficiency O/P Set (Tb=25°C) Point

SMV-28-500

28 VDC

88.5%

85-265 VAC

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6.2A

27.44-28.56VDC

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SMV-28-500 series 500 Watt, High Efficiency, AC/DC Power Module

Trim Circuit

TRIM CIRCUIT: Output Voltage Adjusted by using external resistor and/or variable resistor:

R=33Kohm and VR=20Kohm for 60% to 120% of Vo,set OUTLINE DRAWING: Outline Drawing Fig1 The schematic of output voltage adjusted by using external resistor and/or variable resistor.

High Reliability/COTS 502

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PFC series 375-1000 Watts 85-265VAC Input 3/4” & Full Brick Power Factor 600, 650 & 1000 Watts

Very Low Harmonic Distortion

UL/CSA/TUV/CE MARK

Auxiliary Supply

Meets European EN55022 Emissions when used with HH-1199-6 EMI Filter

Power Fail Warning Via DC OK Signal

Unity Power Factor

Load Enable Signal to Control DC-DC Converters

High Efficiency

Very Low Thermal Resistance

Active Inrush Limiting and Short Circuit Protection

Superior Thermal Design

Power Input Range Input Frequency Power Factor Harmonic Distortion Output Voltage Efficiency Inrush Limiting Short Circuit Protection Thermal Protection Auxiliary Supply DC OK Signal Load Enable Operating Temp. Overvoltage Protection Safety Thermal Resistance : (Case To Ambient) Isolation: Input-Output Input/Output-Case

PFC-600

PFC-650 PFC-1000

600 W 650 W Derate output power linearly below 105 VAC from 600W at 105 VAC to 400W at 85 VAC 85-265 VAC 47-63 Hz (operation up to 440Hz is available with reduced specifications) .99 .99 <5% (conforming to IEC 1000-3-2) 380 VDC 380 VDC 90/94 % (120/240 VAC) typical 94% (115 VAC) <15 A peak typical Trip point 1.8 A (Shutdown, automatic recovery after removal of short) 105-110°C (Shutdown, automatic recovery) 14 V @ 10 mA Provides power fail warning when output drops below 355VDC Direct interface with MicroVerter, MegaVerter and PicoVerter DC-DC Converter logic on/off pin -40 to +100°C Case -40 to +100°C Case 415 VDC non-shutdown UL1950, CSA22.2-234-M90, UL1950, CSA22.2-234-M90, EN 60950 EN 60950

1000W Derate output power linearly below 205 VAC from 1000W at 205 VAC to 750W at 170 VAC 170-265 VAC 47-63 Hz (operation up to 440Hz is available with reduced specifications) .99 <5% (conforming to IEC 1000-3-2) 380 VDC 94 % (240 VAC input) 30 A (max) 2.8 A (Shutdown, automatic recovery after removal of short) 105-110°C (Shutdown, automatic recovery) 14 V, @10 mA Provides power fail warning when output drops below 355VDC Direct interface with MicroVerter MegaVerter and PicoVerter DC-DC Converter logic on/off pin -40 to +100°C Case 415 VDC non-shutdown UL1950, CSA22.2-234-M90, UL1950, CSA22.2-234-M90, EN 60950 EN 60950

High Reliability/COTS

100°C Baseplate Operation

3.3°C/W 3.3°C/W Non-isolated Non-isolated 2500 VDC 2500 VDC

Model Number

Input Voltage

Output Voltage

Output Power

PFC-600 PFC-650 PFC-1000

85-265VAC 85-265VAC 170-265VAC

380VDC 375VDC 380VDC

600 Watts 650 Watts 1000 Watts

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PV300 PicoVerter® series 40-60 Watt 300VDC Input 1/2 Brick Miniature Size - Low Profile .42”

Constant Frequency Operation

High Efficiency

Non Shutdown Over-voltage Protection

Low Cost

Industry Standard Pin-out

Fully Automated Manufacturing

Low Thermal Resistance

UL/CSA/TUV/CE Mark

100°C Baseplate Operation

Input Output

Input Voltage

Min

Typical

Max

220VDC

300VDC

400VDC

High Reliability/COTS

Input Reflected Ripple

10%

Set Point Accuracy

±0.5%

±1%

Full load

Load Regulation

0.1%

0.2%

0-Full load

Line Regulation

0.1%

0.2%

220-400VDC

Ripple

0-20MHz

115%

130%

Trim Range

±10%

Remote Sense Compensation

0.5V Total

OVP (Non-shutdown auto. recovery)

110%

Short Circuit Current

Full load, nominal line

130%

Transient Response: Excursion

Recovery Time

50 µs

(20-80% Full load, 0.5 A/ µ s) 200µs

Temperature Drift

Isolation

Thermal

Input to Output

4500VDC

Input to Case

2500VDC

Output to Case

500VDC

Operating Temperature

-40°C case

Automatic Shutdown Temperature

+100°C case

Storage Temperature

Weight Size

Vout 1%

.02%/°C

Thermal Resistance Case to Ambient

+100°C case +105°C case

+110°C case

6.6°C/c -55°C

+110°C

3.4oz (96 grams) 0.42” x 2.40” x 2.30” (1.07cm x 6.10cm x 5.84cm)

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Conditions

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PV300 PicoVerter® series 40-60 Watt 300VDC Input 1/2 Brick

Model Input Number (220-400V)

Output Output Voltage Current

PV300-3

300VDC

3.3V

12.5A

PV300-5

300VDC

10A

PV300-12

300VDC

12V

PV300-15

300VDC

15V

PV300-24

300VDC

24V

2.5A

High Reliability/COTS

Mechanical Dimensions

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ASD75Q series 75 Watt ASD-Q Single Series DC/DC Converters Small size 1.45”x2.28”x0.52”,

Low magnetics run cooler

Industry standard 1/4 brick

Constant frequency for normal operation

Excellent thermal performance with metal baseplate

Wide input voltage range

Fast over voltage protection Pulse-by-pulse current limiting, dead short Current limiting Over-temperature protection Auto-softstart Very Low noise

Remote Sense with high regulation Remote ON/OFF Super energy saving, 6 mA input idle current Output trim with very low temperature Water Washable, wide humidity applications Good shock and vibration damping

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ASD75Q series

High Reliability/COTS

75 Watt ASD-Q Single Series DC/DC Converters

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ASD75Q series 75 Watt ASD-Q Single Series DC/DC Converters

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Model Input Range I inADC Vout Number VDC min/max @nom VDC

Iout VDC

ASD75-24S3.3Q

18/36

3.31

3.3

ASD75-24S5Q

18/36

3.63

ASD75-24S12Q

18/36

3.59

6.25

ASD75-24S15Q

18/36

3.55

ASD75-24S24Q

18/36

3.55

3.13

ASD75-48S3.3Q

36/75

1.65

3.3

ASD75-48S5Q

36/75

1.80

ASD75-48S12Q

36/75

1.78

6.25

ASD75-48S15Q

36/75

1.76

ASD75-48S24Q

36/75

1.76

3.13

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ASD100W series 100 Watt Single Output DC/DC Converters 4:1 Input voltage range

Over-temperature protection

High power density

Auto-softstart

Small size 2.4” x 2.28” x 0.55”

Low noise

Excellent thermal performance with metal baseplate

Industry-standard pinout Constant frequency during normal operation

Volt-seconds clamp and fast over voltage protection

Remote sense Remote ON/OFF

Pulse-by-pulse current limiting, short circuit frequency foldback, dead short shut down

General Specifications

Input Specifications 1500VDC 10-7nth Ohm min. 500kHz UL60950 (Pending)

Environmental Specifications -40 to +100°C 100°C typ. -40 to +105°C * Free Air Convection 1,005,677 Hrs. MIL-HDBK-217F Ground Benign, 25°C

Physical Specifications Case Material Construction Weight Dimensions

Aluminum Fully Encapsulated 3.53 oz (100g) 2.28” x 2.4” x 0.5

Remote On/Off Control Logic Logic Compatibility Module-On Module-Off Shutdown Idle Current

Open Collector Referenced to - Input Open Circuit <0.8VDC 10mA

Input Voltage Range (48V Nom): Input Current FL Input Current NL Undervoltage Lockout Input Filter PI Type

Output Specifications Voltage and Current See Selection Chart Load Regulation (0% to FL) +/-0.2%, max. Line Regulation (HL-LL) +/-0.2%, max. Temperature Coefficient +/-0.03%/°C Ripple/Noise 2.5, 3.3 & 5Vout 40mV RMS, max. 100mVp-p max. 12 & 15Vout 60mV RMS, max. 150mVp-p max. 24Vout 100mV RMS, max. 240mVp-p max. Voltage Accuracy +/-1%, max Transient Response 25% Change <500uS Trim Adjustment Range +/-10% Short Circuit Protection Continuous Over Voltage Protection 115-140% of Output Current Limit 110-140% of Rated Load Efficiency See Selection Chart

Model Number Input Range Iin ADC VDC (Min/Max) TYP

ASD100-24S3.3W ASD100-24S5W ASD100-24S12W ASD100-24S15W ASD100-24S24W ASD100-48S3.3W ASD100-48S5W ASD100-48S12W ASD100-48S15W ASD100-48S24W

9/36 9/36 9/36 9/36 9/36 18/75 18/75 18/75 18/75 18/75

36-75 VDC See Selection Chart 25Ma 48Vin Power Up 34V 48Vin Power Down 32.5V

4.24 4.91 4.85 4.79 4.79 2.10 2.42 2.39 2.37 2.37

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Vout VDC 3.3 5 12 15 24 3.3 5 12 15 24

High Reliability/COTS

Input-Output Isolation I/P-O/P, I/P-Case, O/P-Case Isolation Resistance Switching Frequency Safety

Oper. Case Temperature Thermal Shutdown, Case Temp. Storage Temperature Cooling MTBF

(PENDING)

Iout ADC

25 20 8.33 6.67 4.13 25 20 .33 6.67 4.13

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ASD100W series 100 Watt Single Output DC/DC Converters

Remote On/Off Control Logic Logic Compatibility Module-On Module-Off Shutdown Idle Current

External Output Trimming

Open Collector Referenced to - Input Open Circuit <0.8VDC 10mA

All specifications are typical at nominal input, full load, and 25DegC unless otherwise noted

Mechanical Dimensions

High Reliability/COTS Pin

Name

Pin Dia.

-INPUT

0.08”

0.04”

CASE

0.04”

ON/OFF

0.04”

0.04” 0.04”

+INPUT

0.08”

-OUTPUT

0.08”

-SENSE

0.04”

TRIM

0.04”

+ SENSE

0.04”

+ OUTPUT

0.08”

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NV300 NanoVerter® series 63-120 Watt 300VDC Input 1/2 Brick Redundancy

Miniature Size - Low Profile .42”-.32” with Recessed Mounting

Hot Plug-in Capabiity

Constant Frequency Operation

Secondary Referenced Controls

High Density - Up to 52 W/in.3 High Efficiency

Auxiliary (housekeeping) Supply Output (pv pin)

Extrememly Low Thermal Resistance

Logic ON/OFF

100°C Baseplate Operation

Non-shutdown Over Voltage Protection

Parallelable with Current Sharing

Safety Agency Approved

Fault Tolerant - True n+1...n+m

Output

Min

Typical

Max

220VDC

300VDC

400VDC

Conditions

Input Reflected Ripple

10%

Full load, nominal line

Input Ripple Rejection

60dB

@120Hz

No Load Power Dissipation

1.5W

nominal line

Logic Disabled Power In

0.8W

Set Point Accuracy

±0.5%

±1%

Full load

Load Regulation

0.1%

0.2%

0-Full load

Line Regulation

0.1%

0.2%

36-72VDC

Ripple

0-20MHz<5V Outputs

Trim Range

±10%

*±5% for 2V, +5%, -10% for 3V

Remote Sense Compensation

0.5V Total

OVP (Non-shutdown auto. recovery)

105%

110%

120%

< 5V outputs

110%

115%

130%

≥ 5V outputs

outputs ≥ 5V

Short Circuit Current

130%

Current Sharting (automatic)

±1%

High Reliability/COTS

Input

Input Voltage

Full load ±5%

Full Load

Transient Response: Excursion

Recovery Time

50 µs

Temperature Drift

Efficiency Control

PV Output

(20-80% Full load, 1/2 A/µs) 200µs

Vout 1%

.02%/°C 80-86%

Full Load, nominal line

Turn on Time (Power Applied)

150ms

Full Load, nominal line

Logic Turn on Time

2ms

Full Load, nominal line

Logic Disable Current

20µA

2mA PV Load

10.3V

Main Output @ Full Load

10mA PV Load

9.3V

Main Output @ Full Load

2mA PV Load

10.3V

Main Output Logic Disabled or Shorted

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NV300 NanoVerter® series 63-120 Watt 300VDC Input 1/2 Brick

Isolation

Input to Output

Min

Typical

Max

220VDC

300VDC

400VDC

Input to Case

Conditions

10%

Full load, nominal line

Output to Case Input to Output Capacity

Thermal

Operating Temperature

±0.5%

±1%

Full load

Automatic Shutdown Temperature

0.1%

0.2%

0-Full load

Thermal Resistance Case to Ambient

0.1%

0.2%

220-400VDC

Storage Temperature

Weight Size

±10%

3.4oz (96 grams) 0.42” x 2.40” x 2.30” (1.07cm x 6.10cm x 5.84cm)

Model Input Number (220-400V)

High Reliability/COTS

Mechanical Dimensions

www.astrodyne.com 512

Output Output Voltage Current

NV300-2

300VDC

2.1V

30A

NV300-3

300VDC

3.3V

25A

NV300-5

300VDC

20A

NV300-12

300VDC

12V

10A

NV300-15

300VDC

15V

NV300-24

300VDC

24V

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ASD150QB series 150 Watt, High Efficiency, Quarter Brick DC/DC Converter Industry Standard Quarter Brick Package

Output Over Voltage Protection

High Power Density up to 90W/ Inch ³

Current Limit/Short Circuit Protection

High Typical Efficiency of 91%

Adjustable Output Voltage 90-110% of Vo

Low Output Noise

Remote Sense

Metal Baseplate

Positive Remote ON/OFF Control (Negative Logic is Optional)

Thermal Protection Input Under Voltage Protection

RoHS Compliant

MTBF Weight Dimensions

1.8Mhrs Tb=40°C, 80%FL 2.29 oz (65g) 2.28” x 1.45” x 0.5” (57.91 x 36.83 x 12.7mm)

Control Specifications Logic ON/OFF Remote Positive Logic: Off State Voltage: 0.8V max. On State Voltage: 2V min. Negative Logic (optional): Off State Voltage: 2V min. On State Voltage: 0.8V max. Turn-On Time 40mS, Vo=90% of Vo, set Trim Adjustment Range 90-110% See TRIM CIRCUITS Figs 1 & 2

Isolation Specifications Input-Output, Input-Case Output-Case Input-Output Capacitance Isolation Resistance

1500VDC, 60S 500VDC, 60S 2000pF 100MΩ @ Tb=25°C & 70%RH Output to Baseplate-500VDC

Input Operation Voltage: See Model Selection Chart below Input Current FL @ Nom Vin, FL See Model Selection Chart below Inrush Transient 1A²s Input Reflected Ripple Current 40mAp-p, typ. (60mA max.) Input Ripple Rejection 60dB@120Hz Input Under Voltage Protection (24Vin/48Vin) Turn-on Threshold: 17.5-18V/34-36V max. Turn-off Threshold: 15.5-16V/30-32V typ. Hysteresis: 1-1.5V/2.0V typ.

Output Specifications Output Voltage & Current Output Set Point (Vo,set; Note 6) Output Voltage Tolerance Band Load/Load Regulation Temperature Coefficient Ripple/Noise p-p max. (Note 1) Dynamic Response (Vo, Set): Peak Deviation Settling Time Over Voltage Protection Over Temperature Protection External Capacitance Short Circuit Protection (ISC) Current Limit (Note 2) Efficiency (Nom. Vin, 80% Load)

See Model Selection Chart See Model Selection Chart +/-3% 20mV max. +/-0.02%/°C, -40 to 100°C 3.3, 5Vo: 70mV; 12Vo: 120mV 6% max., Nom. Vin, Tb=25°C (Note 3) 300uS duration outside of Vo set +/-1% error band 112-140% of Output, Io=0.5A 100-115°C, auto recover @ 90°C See Fig. 3 for location definition 660 to 5000uF max. See Model Selection Chart 105-145% of Rated Load See Model Selection Chart

Model Number Output Voltage Output Amps Input Range Max. Iin FL Efficiency (Tb=25°C)

ASD150-24S3.3QB ASD150-48S3.3QB ASD150-24S5QB ASD150-48S5QB ASD150-24S12QB ASD150-48S12QB

3.3 VDC 3.3 VDC 5 VDC 5 VDC 12 VDC 12 VDC

45 45.45 30 30 12.5 12.5

18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC 18-36 VDC 36-75 VDC

www.astrodyne.com

10A 5A 10A 5A 10A 5A

91% 91% 91% 92.5% 91.5% 92.5%

High Reliability/COTS

Input Specifications

General Specifications

O/P Set Point 3.267-3.333V 3.25-3.35V 4.95-5.05V 4.95-5.05V 11.88-12.12V 11.88-12.12V

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ASD150QB series 150 Watt, High Efficiency, Quarter Brick DC/DC Converter

Derating Curve

High Reliability/COTS

Mechanical Dimensions

www.astrodyne.com 514

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SV28 SuperVerter® series Direct Replacement for Industry Standard

High Power Density

High Efficiency

Low Noise

High MTBF (1.8 million hours)

-40 ° to +100 ° C Baseplate Operation

Constant Frequency

Choice of On/Off Logic

Clamp Over Voltage Protection

Safety Agency Approved

Remote Sense

Threaded or Thru Mounting Holes

Trim Range: 60% to 110%

Optional Pin lengths

Encapsulated

Over Temperature Protection

Min Parameter

Input

Typical Max

Units

Conditions

Input Voltage*

VDC

Continuous

Transient Input Voltage*

VDC

100 msec max.

Input/output Isolation*

1500

VDC

Operating Case Temperature*

-40

100

°C

Storage Temperature*

-40

110

°C

Input Voltage

VDC

Maximum Input Current

see www.astrodyne.com

Input Ripple Rejection

Output

Voltage Set Point

48V In, Full Load 25°C

0.05

0.2

0 to Full Load

Line Regulation

0.01

0.1

Over Vin Range

Ripple

see www.astrodyne.com

Current

see model selection chart 115

Short Circuit Current

130

Iout max. Vout = 90% Vout nominal

170

Iout max Vout = 250 mV

Transient Response Peak Deviation

out 50 to 75% or 50 to 25% (0.1A/μsec slew rate) Load Change

Transient Response Settling Time

300

μsec

Vout within 1% Vout nominal

External Load Capacitance

Input to Output Capacitance

10,000 2000

Input to Output Resistance

Mechanical

@120 Hz

Load Regulation

Current Limit Inception

Isolation

μF pF M ohms

Input to Output

1500

VDC

Input to Case

1500

VDC

Output to Case

500

VDC

Weight

118g (4.2oz.)

Size

0.5” x 2.4” x 2.28”

Thermal Resistance Case to Ambient

High Reliability/COTS

150-200 Watts 28VDC Input 1/2 Brick Industry Standard

6.6

°C/W

Case Temperature = 100 °C

*Absolute Maximum Ratings

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SV28 SuperVerter® series 150-200 Watts 28VDC Input 1/2 Brick Industry Standard Min Features

Trim Range

Typical

Remote Sense Compaensation

Max

Units

110

%Vout

0.5

Over Voltage Clamp

see www.astrodyne.com

Over Temperature Shutdown

Logic ON/OFF

105

°C

Case Temperature

1.2

@ Ion/off = 1 mA

Logic Low: Ion/off

1.0

@ Von/off = 0V

Logic High: Von/off

@ Ion/off = 1 mA

Logic High: Ion/off

μA

@ Von/off = 15V

msec

80% load, Vout within 1% Vout nominal

Logic Low: Von/off

Turn-on Time

High Reliability/COTS

Model Number

Output

Voltage Current

SV28-2.5-150-1

2.5V

30A

SV28-3.3-150-1

3.3V

30A

SV28-3.3-200-1

3.3V

40A

SV28-5-150-1

30A

SV28-5-175-1

35A

SV28-5-200-1

40A

SV28-12-150-1

12V

12.5A

SV28-12-200-1

12V

20.0A

SV28-24-150-1

24V

6.3A

SV28-24-200-1

24V

10A

SV28-28-150-1

28V

5.35A

SV28-28-200-1

28V

8.60A

www.astrodyne.com 516

Conditions

For the optional features listed below, simply list the appropriate digit(s) for the features you want in ascending order in the suffix following -150 or -200 in the part number. * Minimum order quantities apply. Feature Options

Suffix

Negative Logic On/O_ is standard

include “1” in the suffix

Positive Logic On/O_ is optional

delete “1” from the suffix

Threaded mounting holes, as shown in the outline drawing are standard

no suffix digit required

Optional thru mounting holes (without threads) of 0.130” inside diameter*

include “4” in the suffix

Pin length of 0.20” (5.1mm) is standard

no suffix digit required

Pin length of 0.145” (3.68mm)*

include “6” in the suffix

Pin length of 0.110” (2.79mm)*

include “8” in the suffix

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SV28 SuperVerter® series 150-200 Watts 28VDC Input 1/2 Brick Industry Standard

High Reliability/COTS

Mechanical Dimensions - Single

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SV48 SuperVerter® series 150-200Watts 48VDC Input 1/2 Brick Industry Standard Direct Replacement for Industry Standard

High Power Density: up to 87 W/cu.in.

High Efficiency

Low Noise

High MTBF (1.8 million hours)

-40° to +100°C Baseplate Operation

Constant Frequency

Choice of On/Off Logic

Clamp Over Voltage Protection

Safety Agency Approved

Remote Sense

Threaded or Thru Mounting Holes

Trim Range: 60% to 110%

Optional Pin lengths

Encapsulated

Over Temperature Protection

Min Parameter

High Reliability/COTS

Input

Typical Max

Units

Conditions

Input Voltage*

VDC

Continuous

Transient Input Voltage*

100

VDC

100 msec max.

Input/output Isolation*

1500

VDC

Operating Case Temperature*

-40

100

°C

Storage Temperature*

-40

110

°C

Input Voltage

VDC

SV48-2.5-150

3.5

SV48-2.5-200

6.0

SV48-3-150

4.5

SV48-3-200

6.5

SV48-5-150

6.5

SV48-5-200

8.7

SV48-12-150

6.5

SV48-12-200

10.5

SV48-15-150

6.5

SV48-15-200

10.5

SV48-24-150

6.5

SV48-24-200

SV48-28-150

5.6

SV48-28-200

9.0

Max. Input Current:

Input Ripple Rejection

@120 Hz

*Absolute Maximum Ratings

www.astrodyne.com 518

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SV48 SuperVerter® series 150-200 Watts 48VDC Input 1/2 Brick Industry Standard Typical

Voltage Set Point

48V In, Full Load 25°C

0.2

0 to Full Load

Line Regulation

0.01

0.1

Over Vin Range

Ripple

see www.astrodyne.com

Current

see model selection chart 115

130

Iout max. Vout = 90% Vout nominal

170

Iout max Vout = 250 mV

Transient Response Peak Deviation

Vout 50 to 75% or 50 to 25% (0.1A/μsec slew rate)

Transient Response Settling Time

100

μsec

Vout within 1% Vout nominal (0.1A/μsec slew rate)

External Load Capacitance

Input to Output Capacitance

10,000

Input to Output Resistance

Weight

118g (4.2oz.)

Size

0.5” x 2.4” x 2.28”

Trim Range

pF M ohms

6.6 60

Remote Sense Compaensation

°C/W 110

%Vout

0.5

Over Voltage Clamp

Case Temperature = 100 °C

see www.astrodyne.com

Over Temperature Shutdown

Logic ON/OFF

2000

Thermal Resistance Case to Ambient

Features

Conditions

0.05

Current Limit Inception

Mechanical

Units

Load Regulation

Short Circuit Current

Isolation

Max

105

°C

Case Temperature

1.2

@ Ion/off = 1 mA

Logic Low: Ion/off

1.0

@ Von/off = 0V

Logic High: Von/off

@ Ion/off = 1 mA

Logic High: Ion/off

μA

@ Von/off = 15V

msec

80% load, Vout within 1% Vout nominal

Logic Low: Von/off

Turn-on Time

Model Number

Output

Voltage Current

SV48-2.5-150-1

2.5Vdc

30A

SV48-2.5-200-1

2.5Vdc

50A

SV48-3-150-1

3.3Vdc

30A

SV48-3-200-1

3.3Vdc

45A

SV48-5-150-1

5Vdc

30A

SV48-5-200-1

5Vdc

40A

SV48-12-150-1 1

2Vdc

12.5A

SV48-12-200-1

12Vdc

20A

SV48-15-150-1

15Vdc

10A

SV48-15-200-1

15Vdc

16A

SV48-24-150-1

24Vdc

6.2A

SV48-24-200-1

24Vdc

10A

SV48-28-150-1

28Vdc

5.35A

SV48-28-200-1

28Vdc

8.6A

www.astrodyne.com

High Reliability/COTS

Min Output

Suffix

Negative Logic On/O_ is standard

include “1” in the suffix

Positive Logic On/O_ is optional

delete “1” from the suffix

Threaded mounting holes, as shown in the outline drawing are standard

no suffix digit required

Optional thru mounting holes (without threads) of 0.130” inside diameter*

include “4” in the suffix

Pin length of 0.20” (5.1mm) is standard

no suffix digit required

Pin length of 0.145” (3.68mm)*

include “6” in the suffix

Pin length of 0.110” (2.79mm)*

include “8” in the suffix

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SV48 SuperVerter® series 150-200 Watts 48VDC Input 1/2 Brick Industry Standard

Mechanical Dimensions - Single

High Reliability/COTS www.astrodyne.com 520

USA: 1-800-823-8082 • Asia Paci fic: 886-2-26983458

UV28 MicroVerter® series 126-252 Watts 28VDC Input 3/4 Brick Singles / Full Brick Triples Output Good Signal

High Density – Up to 58 W/in.3

Optional Sync Pin

Constant Frequency – 370KHZ

Non-Shutdown OVP

Parallelable with Current Sharing

Logic On-O.

Fault Tolerant – n+m Redundancy

Thermal Protection

Extremely Low Thermal Resistance

Current Limit/Short Circuit Protection

Input

Min

Typical Max

Units

Input Voltage

VDC

Brownout

VDC

Conditions 75% full output

Inrush Charge

2.6x10-4

Coulombs

Input Reflected Ripple

Full load, nominal line

No Load Power Dissipation

1.5

Watts

Singles

7.5

Watts

Triples

Logic Disabled Power In

.35

Watts

Input Ripple Rejection

@120 Hz

VDC

No damage to units

±1

No load

Input Over Voltage

Output

Set Point Accuracy

(Singles and Main Output of Triple)

Load Regulation

.02

0 to full load

Line Regulation

.02

Over range

Ripple

%p-p

0 to 20MHz

Consult factory for extended range

Total

Trim Range

±10

Remote Sense Compensation

0.5

OVP (Non-shutdown auto. recovery)

120*

* or Vout +.5V whichever is greater

Current Limit (auto recovery)

110-120

full load

Current Sharing (automatic)

±5

full load

Transient Response Singles

μs

20-80% load,.5A/μs, Vout 1%

Transient Response Main Output Triples

200

μs

10-20A, aux. loads 2.5A, .25A/μs, Vout 1%

Transient Response

see www.astrodyne.com

Temp Drift

%/°C

Output

Set Point Accuracy

±0.5

±1

10A on Main, No Load Auxiliaries

(Auxiliary Outputs of Triples)

Load Regulation

0 to Full Load

Line Regulation

.01

Over Range

Ripple

.25

%p-p

0 to 20 MHz

Current Limit (Auto Recovery)

110-120

Full Load

Transient Response

200

μs

20-80% Load, Vout within 1%

200

μs

Low Line to High Line, Vout 1%

200

μs

50-100% Load, Vout 1%

.06

%/°C

Temp Drift

High Reliability/COTS

Miniature Size

www.astrodyne.com

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UV28 MicroVerter® series 126-252 Watts 28VDC Input 3/4 Brick Singles / Full Brick Triples Min Control

Conditions

Input power applied, Vout 1%

Logic Turn on Time

Vout within 1%

Sink

Input to Output

1000

VDC

Consult factory for procedure

Input to Case

1000

VDC

Output to Case

200

VDC 2200

Operating Temperature

-40

Automatic Shutdown Temperature

+100

Thermal Resistance Case to Ambient

Weight Size

Units

2.5

Input to Output Capacity

Thermal

Max

Turn on Time Logic Disabled Current

Isolation

Typical

pF +100

°C

Case

+110

°C

Case

4.2

°C/w

Single @ Tc=100 °C

3.3

°C/w

Triple @ Tc=100 °C

+105

7oz. (Singles), 9oz. (Triples) 0.5” x 2.4” x 3.6” (Singles), 0.5” x 2.4” x 4.6” (Triples)

High Reliability/COTS

Model Number

Output Voltage

Output Current

UV28-2

2.1V

60A

UV28-3

3.3V

50A

UV28-5

40A

UV28-8

30A

UV28-12

12V

20A

UV28-15

15V

16A

UV28-24

24V

10A

UV28-28

28V

UV28-T512

35A*

12V

3A*

-12V

3A*

UV28-T515

35A*

15V

3A*

-15V

3A*

*Maximum Total Output Power 185 W. Option: –A Output Good Deleted – S Sync. Pin Option

www.astrodyne.com 522

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UV28 MicroVerter® series 126-252 Watts 28VDC Input 3/4 Brick Singles / Full Brick Triples

High Reliability/COTS

Mechanical Dimensions - Single

Mechanical Dimensions - Triple

www.astrodyne.com

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UV48 MicroVerter® series 126-252 Watts 48VDC Input 3/4 Brick Singles / Full Brick Triples Miniature Size

Optional Sync Pin

High Density – Up to 58 W/in.3

UL/CSA/TUV APPROVALS

Constant Frequency – 370KHZ

Non-Shutdown OVP

Parallelable with Current Sharing

Logic On-Off

Fault Tolerant – n+m Redundancy

Thermal Protection

Extremely Low Thermal Resistance

Current Limit/Short Circuit Protection

Output Good Signal

Input

Min

Typical Max

Units

Input Voltage

VDC

Brownout

VDC

75% full output

High Reliability/COTS

Inrush Charge

2.6x10-4

Coulombs

Input Reflected Ripple

full load, nominal line

No Load Power Dissipation

2.5

Watts

Singles

7.5

Watts

Triples

Logic Disabled Power In

Watts

Input Ripple Rejection

@120 Hz

100

VDC

No damage to units

±1

No load

Input Over Voltage

Output

Set Point Accuracy

(Singles and Main Output of Triple)

Load Regulation

.02

0 to full load

Line Regulation

.02

Over range

Ripple

%p-p

0 to 20MHz

Consult factory for extended range

Total

Trim Range

±10

Remote Sense Compensation

0.5

OVP (Non-shutdown auto. recovery)

120*

* or Vout +.5V whichever is greater

Current Limit (auto recovery)

110-120

Ful load

Current Sharing (automatic)

±5

Full load

Transient Response Singles

μs

20-80% load,.5A/μs, Vout 1%

Transient Response Main Output Triples

200

μs

10-20A, aux. loads 2.5A, .25A/μs, Vout 1%

Transient Response Waveforms

see www.astrodyne.com

Temp Drift

%/°C

Output

Set Point Accuracy

±0.5

±1

10A on Main, No Load Auxiliaries

(Auxiliary Outputs of Triples)

Load Regulation

0 to Full Load

Line Regulation

.01

Over Range

Ripple

.25

%p-p

0 to 20 MHz

Current Limit (Auto Recovery)

110-120

Full Load

Transient Response

200

μs

20-80% Load, Vout within 1%

200

μs

Low Line to High Line, Vout 1%

200

μs

50-100% Load, Vout 1%

Temp Drift

.06

www.astrodyne.com 524

Conditions

%/°C

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UV48 MicroVerter® series 126-252 Watts 48VDC Input 3/4 Brick Singles / Full Brick Triples Min

Input power applied, Vout 1%

Logic Turn on Time

Vout within 1%

Sink

Input to Output

3000

VDC

Consult factory for procedure

Input to Case

1500

VDC

Output to Case

500

VDC 2200

Operating Temperature

-40

Automatic Shutdown Temperature

+100

Thermal Resistance Case to Ambient

Weight Size

Conditions

2.5

Input to Output Capacity

Thermal

Units

Turn on Time Logic Disabled Current

Isolation

Max

pF +100

°C

Case

+110

°C

Case

4.2

°C/w

Single @ Tc=100 °C

3.3

°C/w

Triple @ Tc=100 °C

+105

7oz. (Singles), 9oz. (Triples) 0.5” x 2.4” x 3.6” (Singles), 0.5” x 2.4” x 4.6” (Triples)

Model Number

Output Voltage

Output Current

UV48-2

2.1V

60A

UV48-3

3.3V

50A

UV48-5

40A

UV48-8

30A

UV48-12

12V

20A

UV48-15

15V

16A

UV48-24

24V

10A

UV48-28

28V

UV48-T512

35A*

12V

3A*

-12V

3A*

UV48-T515

35A*

15V

3A*

-15V

3A*

High Reliability/COTS

Control

Typical

*Maximum Total Output Power 185 W. Option: –A Output Good Deleted – S Sync. Pin Option

www.astrodyne.com

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UV48 MicroVerter® series 126-252 Watts 48VDC Input 3/4 Brick Singles / Full Brick Triples

Mechanical Dimensions - Single

High Reliability/COTS

Mechanical Dimensions - Triple

www.astrodyne.com 526

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UV24-164 MicroVerter® series 250-312 Watt 24VDC Input 3/4 Brick Singles Encapsulated & Environmentally Rugged Package Extremely Low Thermal Resistance

Remote On/Off, Parallel and Remote Sense Functions Auto-Recovery from OTP / OCP / OVP Circuits

-40 ~ 100°C Baseplate Operation (Standard)

Trimable Output Voltage Synchronizable from 330-400kHz (Optional)

-55 ~ 125°C Baseplate Operation (Optional)

Option Min Parameter

Units

Conditions

Input Voltage (+ In to -In)*

-0.3

VDC

Continuous

Transient Input Voltage (+ In to -In)

-0.3

VDC

100 msec. Max.

Parallel Pin Voltage (Parallel-On/O_ to -In)*

-0.3

6.0

VDC

Input-to-Output Voltage*

1500

VDC

Full load, nominal line

Input-to-Case Voltage*

1500

VDC

Singles

Output-to-Case Voltage*

500

VDC

Triples

Storage Temperature *

Operating Temperature*

Standard

-40

+110

°C

-55

+110

°C

-55

+125

°C

Standard

-40

+100

°C

Baseplate

-55

+100

°C

Baseplate

-55

+125

°C

Baseplate

260

°C

< 5 sec

Conditions

Soldering Temperature (Wave Solder)*

Input

Max

Input Voltage Range

Min

Typical Max

Units

24 / 28

VDC

Maximum Input Current UV24-4-164 UV24-5-164

19.8

ADC

Vin= 18V, Tc= 25°C

UV24-8-164

20.2

ADC

Vin=18V, Tc=100°C

f= 120Hz 24Vin, 25°C, Full Load

High Reliability/COTS

2 Year Warranty

Constant Frequency Operation for Reduced Noise

UV24-12-164 UV24-15-164 UV24-24-164 UV24-28-164 Input Ripple Rejection

Output

Voltage Set Point UV24-4-164

3.95

4.00

4.05

VDC

11.88

12.01

12.12

VDC

27.72

28.01

28.28

VDC

UV24-5-164 UV24-8-164 UV24-12-164 UV24-15-164 UV24-24-164 UV24-28-164

*Absolute Maximum Ratings

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UV24-164 MicroVerter® series 250-312 Watt 24VDC Input 3/4 Brick Singles Min Output

(continued)

Typical Max

Units

Conditions

Load Regulation

0.05

0.2

0 to Full Load

Line Regulation

0.05

0.2

Vin min to Vin max

Voltage Drift w/Temperature

0.02

% / °C

Tc min to Tc max

150

mV p-p

5 Hz to 20 MHz

240

mV p-p

Vin= 28V, Tc= 25°C

360

mV p-p

18V≤ Vin≤ 36V, -40°C≤ Tc≤+100°C

300

mV p-p

Vin= 28V, Tc= 25°C

450

mV p-p

18V≤ Vin≤ 36V, -40°C≤ Tc≤+100°C

130

Rated Vout = 95% Vout nominal

170

Rated 18V≤Vin≤ 36V, Rshort=15mOhm

Ripple (PARD) UV24-4-164 UV24-5-164 UV24-8-164 UV24-12-164

120

UV24-15-164 UV24-24-164

170

UV24-28-164 Input Voltage Range Overcurrent Inception Pt.

105

115

High Reliability/COTS

Short Circuit Current Transient Response Settling Time

Isolation

μs

20-80% Rated Current, 0.5A/μs

Input-to-Output

1500

200

VDC

Consult factory for procedure

Input-to-Case

1500

VDC

Output-to-Case

500

VDC

Input-to-Output Capacitance

2500

Input-to-Output Resistance

M Ohm

Option Control

Min

Typical Max

Over Temperature Shutdown Temp (Tc)

Standard and T

105 °C

130

Over Temperature Restart Temp (Tc)

Standard and T

85 °C

Units

Conditions

105

Start-up Voltage

16.5

17.0

17.5

VDC

Input Under Voltage Lock Out

15.0

15.5

16.0

VDC

msec

18V≤Vin≤36V, Tc=25°C

msec

18V≤Vin≤36V, -40°C<Tc< +100°C

VDC

Positive Logic, open collector enables. Do not pull up.

0.6

VDC

I On/Off = 1mA

msec

Turn-on Time

Logic On/Off Enable Signal

Open

Logic On/Off Disable Signal Logic On/Off Turn-on Time

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500V

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UV24-164 MicroVerter® series 250-312 Watt 24VDC Input 3/4 Brick Singles Min Control

(continued)

Typical Max

Units

Conditions

3.3

4.0

30.8

VDC

4.0

35.0

VDC

Non-shutdown, Auto Recovery, Iout = 50% Rated

0.5

VDC

Trim Range UV24-4-164 UV24-5-164 UV24-8-164 UV24-12-164 UV24-15-164 UV24-24-164 UV24-28-164

25.2

OVP Trip Point UV24-4-164

3.3

UV24-5-164 UV24-8-164 UV24-12-164 UV24-15-164 UV24-28-164

31.2

32.9

Remote Sense Compensation Current Sharing (Parallel Operation)

Using Parallel Pin Connection or PDM

Switching Frequency

370

Khz

Standard Model

300

Khz

S Sync Option Model

Khz

Using Optional Sync Pin and External Sync Signal

ºC/W

Free Air, No Heatsink, Tc=100ºC

Synchronization Frequency Range

Thermal / Mechanical Parameters

Thermal Resistance, Case to Ambient

330

440 4.2

Size, HxWxL

0.5 x 2.4 x 3.6 in., (12.7 x 61.0 x 91.4mm), 3/4 Brick, See Outline Drawing

Weight

5.7 oz., (161 g)

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High Reliability/COTS

UV24-24-164

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UV24-164 MicroVerter® series 250-312 Watt 24VDC Input 3/4 Brick Singles

Mechanical Dimensions

High Reliability/COTS

Model Number Output Voltage Current

Efficiency

(Vin = 18V, Tc=100°C)

UV24-4-164

4.0V

15A

UV24-5-164

5.0V

20A

UV24-8-164

8.0V

36A

UV24-12-164

12V

25A

UV24-15-164

15V

20A

UV24-24-164

24V

12.5A

UV24-28-164

28V

11A

www.astrodyne.com 530

Max. Input Current

83%

19.8 Adc

88%

20.2 Adc

88.5%

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UV48-164 MicroVerter® series 300 Watt 48VDC Input 3/4 Brick Singles Remote On/Off, Parallel and Remote Sense Functions

5/6 RoHS Compliant Design Encapsulated & Environmentally Rugged Package

Auto-Recovery from OTP / OCP / OVP Circuits

Extremely Low Thermal Resistance

Trimable Output Voltage

-40 ~ 100°C Baseplate Operation

Synchronizable from 330-400kHz (Optional)

Constant Frequency Operation for Reduced Noise

Min

Typical Max

Units

Conditions

Input Voltage (+ In to -In)*

-0.3

VDC

Continuous

Transient Input Voltage (+In to –In)*

-0.3

100

VDC

100 msec. Max.

Parallel Pin Voltage (Parallel-On/O_ Pin to -In)*

-0.3

6.0

VDC

Input-to-Output Voltage*

2000

VDC

full load, nominal line

Input-to-Case Voltage*

1500

VDC

Singles Triples

Output-to-Case Voltage*

500

VDC

Storage Temperature*

-40

+ 110

ºC

Operating Temperature*

-40

+ 100

ºC

Baseplate

260

ºC

< 5 sec.

VDC

No load

Soldering Temperature (Wave Solder)*

Input

Output

Input Voltage

Maximum Input Current

.9.8

ADC

Tc= 25ºC, Vin= 36V

Input Ripple Rejection

f= 120Hz

Voltage Set Point

12.01

12.12

VDC

Load Regulation

11.88

0.05

0.2

0 to Full Load

Line Regulation

0.05

0.2

Vin min to Vin max

Voltage Drift w/Temperature

0.02

% / ºC

Tc min to Tc max

Ripple (PARD)

120

240

mV p-p

Vin= 48V, Tc= 25ºC

360

mV p-p

36V<Vin<75V, -40ºC<Tc<+100ºC

130

Rated Vout=95% of Vout nominal

170

Rated 36V<Vin<75V, Rshort=15mOhm

Rated Current Overcurrent Inception Point

105

115

Short Circuit Current Transient Response Deviation

400

20-80% Rated Current, 0.5A/μs

Transient Response Settling Time

250

μs

20-80% Rated Current, 0.5Aμ/s

Efficiency

88.5

Vin= 48V, Iout= 75% Rated

External Load Capacitance

Isolation

750

μF

Input-to-Output Isolation

2000

VDC

Input-to-Case Isolation

1500

VDC

Output-to-Case Isolation

500

VDC

Input-to-Output Capacitance Input-to-Output Resistance

*Absolute Maximum Ratings

2250 10

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High Reliability/COTS

Parameter

2 Year Warranty

Special Test Method Required

pF M Ohm

500VSoldering Temperature 260 < 5 sec

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UV48-164 MicroVerter® series 300 Watt 48VDC Input 3/4 Brick Singles

Mechanical Dimensions

High Reliability/COTS

Model Number

Output Voltage

Output Current

UV48-5-164

5 (4.0-5.5 VDC)

50A

UV48-12-164

12 (10.8-13.2 VDC)

25A

UV48-15-164

15 (13.5-16.5 VDC)

20A

*Note: Add ‘S’ to part number to designated SYNC option. (ex. UV48-12S-164)

www.astrodyne.com 532

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UV300-164 MicroVerter® series Encapsulated & Environmentally Rugged Package

Remote On/Off, Parallel and Remote Sense Functions

Extremely Low Thermal Resistance

Auto-Recovery from OTP / OCP / OVP Circuits

-40 ~ 100°C Baseplate Operation – Standard

Trimable Output

-55 ~ 125°C Baseplate Operation (Optional)

Synchronizable from 330-400KHz (Optional)

Constant Frequency Operation for Reduced Noise

2-Year Warranty

Option Min Parameter

Units

Conditions

Input Voltage (+In to -In)*

-0.3

400

VDC

Continuous

Transient Input Voltage (+ In to -In)*

-0.3

VDC

100 msec. Max.

Transient Input Voltage (+In to -In)*

-0.3

450

VDC

100 msec. Max.

Input/Output Isolation*

4500

VDC

Full load, nominal line

Input/Case Isolation*

2500

VDC

Singles

Output/Case Isolation*

500

VDC

Triples

Storage Temperature*

Operating Temperature*

Standard

-40

+110

ºC

-55

+110

°C

-55

+130

°C

Standard

-40

+110

ºC

Baseplate

-55

+100

°C

Baseplate

-55

+125

°C

Baseplate

260

ºC

< 5 sec.

Conditions

Soldering Temperature (Wave Solder)*

Input

Max

Input Voltage

Min

Typical Max

Units

220

300

VDC

400

Maximum Input Current UV300-5-164

1.4 1.5

UV300-8-164

1.5 1.6

UV300-12-164

1.6 1.9

UV300-15-164

1.56 1.64

UV300-24-164

1.6 1.9

UV300-28-164

1.8

Input Ripple Rejection

2.0

ADC

Vin=220V, Tc=25ºC

ADC

Vin=220V, Tc=100ºC

ADC

Vin=220V, Tc=25ºC

ADC

Vin=220V, Tc=100ºC

ADC

Vin=220V, Tc=25ºC

ADC

Vin=220V, Tc=100ºC

ADC

Vin=220V, Tc=25ºC

ADC

Vin=220V, Tc=100ºC

ADC

Vin=220V, Tc=25ºC

ADC

Vin=220V, Tc=100ºC

ADC

Vin=220V, Tc=25ºC

ADC

Vin=220V, Tc=100ºC

f=120Hz, Vin ripple=15V p-p

High Reliability/COTS

126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples

*Absolute Maximum Ratings

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UV300-164 MicroVerter® series 126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples

Output

Min

Typical Max

Units

Conditions

4.95

5.00

VDC

5 Hz to 20 MHz

Voltage Set Point UV300-5-164

5.05

UV300-8-164

7.92

8.00

8.08

VDC

UV300-12-164

11.88

12.01

12.12

VDC

UV300-15-164

14.85

15.00

15.15

VDC

Vin= 28V, Tc= 25°C

UV300-24-164

23.76

24.01

24.24

VDC

18V≤ Vin≤ 36V, -40°C≤ Tc≤+100°C

UV300-28-164

27.72

28.01

28.28

VDC

Load Regulation

0.05

0.2

0 to Full Load

Line Regulation

0.05

0.2

Vin min to Vin max

0.02

% / ºC

Tc min to Tc max

100

mV p-p

Vin=300V, Tc=25ºC

150

mV p-p

220V<Vin<400V, -40ºC<Tc<+100ºC

160

mV p-p

Vin=300V, Tc=25ºC

240

mV p-p

220V<Vin<400V, -40ºC<Tc<+100ºC

240

mV p-p

Vin=300V, Tc=25ºC

360

mV p-p

220V<Vin<400V, -40ºC<Tc<+100ºC

300

mV p-p

Vin=300V, Tc=25ºC

450

mV p-p

220V<Vin<400V, -40ºC<Tc<+100ºC

300

mV p-p

Vin=300V, Tc=25ºC

450

mV p-p

220V<Vin<400V, -40ºC<Tc<+100ºC

300

mV p-p

Vin=300V, Tc=25ºC

450

mV p-p

220V<Vin<400V, -40ºC<Tc<+100ºC

130

% Rated

Vout=95% Vout nominal

170

% Rated

220V<Vin<400V, Rshort=15 mohm

Voltage Drift w/Temperature Ripple (PARD) UV300-5-164

UV300-8-164

UV300-12-164

130

High Reliability/COTS

UV300-15-164

100

UV300-24-164

170

UV300-28-164 Overcurrent Inception Point

170 105

115

Short Circuit Current Ripple (PARD) UV300-5-164

100

20-80% Rated Current, 0.5A/μs

UV300-8-164

240

20-80% Rated Current, 0.5A/μs

UV300-12-164

800

20-80% Rated Current, 0.5A/μs

UV300-15-164

800

20-80% Rated Current, 0.5A/μs

UV300-24-164

1600

20-80% Rated Current, 0.5A/μs

UV300-28-164

1600

20-80% Rated Current, 0.5A/μs

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UV300-164 MicroVerter® series 126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples Typical Max

Units

Conditions

Output

Transient Response Settling Time

(Continued)

UV300-5-164

100

μs

20-80% Rated Current, 0.5A/μs, ±1%Vo

UV300-8-164

100

μs

20-80% Rated Current, 0.5A/μs, ±1%Vo

UV300-12-164

200

μs

20-80% Rated Current, 0.5A/μs, ±1%Vo

UV300-15-164

200

μs

20-80% Rated Current, 0.5A/μs, ±1%Vo

UV300-24-164

200

μs

20-80% Rated Current, 0.5A/μs, ±1%Vo

UV300-28-164

200

μs

20-80% Rated Current, 0.5A/μs, ±1%Vo Special Test Method Required

Isolation

Input-to-Output

4500

VDC

Input-to-Case

2500

VDC

Output-to-Case

500

VDC

Input-to-Output Capacitance Input-to-Output Resistance

5600 10

M Ohm

Option Control

Over Temperature Shutdown Temp (Tc) Over Temperature Restart Temp (Tc)

Min

500V

Typical Max

Units

Standard & T

105

ºC

130

°C

Standard & T

ºC

105

°C

Start-up Voltage

175

Input Under Voltage Lock Out

130

Turn-on Time

Logic On/Off Enable Signal

200

Logic On/Off Turn-on Time

VDC VDC

msec

220<Vin<400V, Tc=25ºC

msec

220<Vin<400V, -40ºC<Tc<+100ºC

VDC

Positive Logic, open. Collector enables. Do not pull up.

0.6

VDC

I On/Off=1mA

msec

Open

Logic On/Off Disable Signal

Conditions

High Reliability/COTS

Min

Trim Range UV300-5-164

5.5

VDC

UV300-8-164

6.4

8.8

VDC

UV300-12-164

10.8

13.2

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-15-164

16.5

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-24-164

21.6

26.4

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-28-164

25.2

30.8

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

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See Trim Formula and Diagrams

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UV300-164 MicroVerter® series 126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples

Option

Min

Typical Max

Units

Conditions

Control

OVP Trip Point

(Continued)

UV300-5-164

5.9

6.2

6.6

VDC

Non-shutdown, Auto

UV300-8-164

9.2

9.6

10.4

VDC

Recovery, Iout=50% Rated

UV300-12-164

14.7

14.9

15.8

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-15-164

17.6

18.6

19.75

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-24-164

28.3

29.8

31.7

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-28-164

31.2

32.9

35.0

VDC

20-80% Rated Current, 0.5A/ μs, ±1%Vo

Transient Response Settling Time

High Reliability/COTS

UV300-5-164

100

μs

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-8-164

100

μs

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-12-164

200

μs

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-15-164

200

μs

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-24-164

200

μs

20-80% Rated Current, 0.5A/ μs, ±1%Vo

UV300-28-164

200

μs

20-80% Rated Current, 0.5A/ μs, ±1%Vo

VDC

May be OVP limited

Remote Sense Compensation

0.5

Current Sharing (Parallel Operation)

Using Parallel Pin Connection or PDM

Switching Frequency

370

KHz

Standard Model

300

KHz

-S Sync Option Model

Khz

Using Optional Sync Pin and External Sync Signal

ºC/W

Free Air, No Heatsink, Tc=100ºC

Switching Frequency Range

Thermal / Mechanical Parameters

330

Thermal Resistance, Case to Ambient

4.2

Size, HxWxL

0.5” x 2.4” x 3.6”., (12.7 x 61.0 x 91.4 mm), 3/4 Brick, See Outline Drawing

Weight

5.7 (161) oz. (g)

www.astrodyne.com 536

440

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UV300-164 MicroVerter® series 126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples

Model Output

Output Voltage

Output Current

Efficiency

UV300-5-164

50A

82%

UV300-8-164

36A

86%

UV300-12-164

12V

25A

85%

UV300-15-164

15V

20A

86%

UV300-24-164

24V

12.5A

88%

UV300-28-164

28V

11A

88%

www.astrodyne.com

High Reliability/COTS

Mechanical Dimensions

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UV300 MicroVerter® series 126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples Miniature Size

Optional Sync Pin

High Density – Up to 58 W/in.3

Non-Shutdown OVP

Constant Frequency – 370KHZ

Logic On-Off

Parallelable with Current Sharing

Thermal Protection

Fault Tolerant – n+m Redundancy

Current Limit/Short Circuit Protection

Extremely Low Thermal Resistance

UL/CSA/TUV/CE MARK Approvals

Output Good Signal

Input

Min

Typical Max

Units

Input Voltage

220

300

VDC

Brownout

180

400

VDC

75% full output

High Reliability/COTS

Inrush Charge

4.5 x 10-5

Coulombs

Input Reflected Ripple

Full load, nominal line

No Load Power Dissipation

2.5

Watts

Singles

7.5

Watts

Triples

Logic Disabled Power In

Watts

Input Ripple Rejection

@120 Hz

Output

Set Point Accuracy

±1

No load

(Singles and Main Output of Triple)

Load Regulation

.02

0 to full load

Line Regulation

.02

Over range

Ripple

%p-p

0 to 20MHz

Consult factory for extended range

Total

Trim Range

±10

Remote Sense Compensation

0.5

OVP (Non-shutdown auto. recovery)

120*

* or Vout +.5V whichever is greater

Current Limit (auto recovery)

110-120

Full load

Current Sharing (automatic)

±5

Full load

Transient Response Singles

μs

20-80% load,.5A/μs, Vout 1%

μs

0-20A, aux. loads 2.5A, .25A/μs, Vout 1%

Transient Response Main Output Triples

200

Transient Response

see www.astrodyne.com

Temp Drift

.02

%/°C

±1

10A on Main, No Load Auxiliaries

0 to Full Load

Output

Set Point Accuracy

±0.5

(Auxiliary Outputs of Triples)

Load Regulation

2.5

Line Regulation

.01

Over Range

Ripple

.25

%p-p

0 to 20 MHz

Current Limit (Auto Recovery)

110-120

Full Load

Transient Response

200

μs

20-80% Load, Vout within 1%

200

μs

Low Line to High Line, Vout 1%

200

μs

50-100% Load, Vout 1%

.06

%/°C

Temp Drift

www.astrodyne.com 538

Conditions

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UV300 MicroVerter® series 126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples Min

Thermal

Conditions

250

Input power applied, Vout 1%

Logic Turn on Time

Vout within 1%

Sink

Input to Output

4500

VDC

Consult factory for procedure

Input to Case

2500

VDC

Output to Case

500

VDC

Input to Output Capacity

5700

Operating Temperature

-40

Automatic Shutdown Temperature

+100

Thermal Resistance Case to Ambient

Weight Size

Units

Turn on Time Logic Disabled Current

Isolation

Max

+100

°C

Case

+110

°C

Case

4.2

°C/w

Single @ Tc=100 °C

3.3

°C/w

Triple @ Tc=100 °C

+105

7oz. (Singles), 9oz. (Triples) 0.5” x 2.4” x 3.6” (Singles), 0.5” x 2.4” x 4.6” (Triples)

Model Number

Output Voltage

Output Current

UV300-2

2.1V

60A

UV300-3

3.3V

50A

UV300-5

40A

UV300-8

30A

UV300-12

12V

20A

UV300-15

15V

16A

UV300-24

24V

10A

UV300-28

28V

UV300-T512

35A*

12V

3A*

-12V

3A*

UV300-T515

35A*

15V

3A*

-15V

3A*

High Reliability/COTS

Control

Typical

*Maximum Total Output Power 185 W. Option: –A Output Good Deleted – S Sync. Pin Option

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UV300 MicroVerter® series 126-252 Watts 300VDC Input 3/4 Brick Singles / Full Brick Triples

Mechanical Dimensions - Single

High Reliability/COTS

Mechanical Dimensions - Triple

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MV380 MegaVerter® series 500-600 WATTS 380VDC Input Full Brick High Power

Universal AC input Protections: Short circuit / Overload / Over voltage

Suitable for LED lighting and moving sign applications High reliability, low cost Fully isolated plastic case

Epoxy encapsulated with IP67 level

Small and compact size

Cooling by free air convection

UL1310 Class 2 power unit, pass LPS

Min Parameter

Input

Typical Max

-0.3

420

VDC

Enable Voltage (Enable to -In)*

-0.3

6.0

VDC

Parallel Pin Voltage (ref to -In)*

-0.3

5.0

VDC

Storage Temperature*

-55

+125

°C

Operating Temperature*

-40

+100

°C

Wave Soldering Temperature*

260

°C

Hand Soldering Temperature*

390

°C

400

VDC

2.5

Input Voltage

360

380

Maximum Input Current Input Ripple Rejection

Output

Units

Input Voltage (+In to -In)*

Conditions

@120Hz

Voltage Set Point MV380-26

25.75

26.0

26.25

VDC

380Vin, 25°C, Full load

MV380-48

47.50

48.0

48.50

VDC

380Vin, 25°C, Full load

MV380-56

55.50

56.0

56.50

VDC

380Vin, 25°C, Full load

Load Regulation

0.3

0.6

0 to Full load

Line Regulation

0.02

0.2

Over Vin Range

0.02

%/°C

-40 to +100°C

%V p-p

5Hz to 20Mz

Voltage Drift w/Temperature Ripple

High Reliability/COTS

Constant voltage design

Rated Current MV380-26

20.0

MV380-48

12.5

MV380-56

10.7

520

600

130

% FL

Vout = 95% Vout nominal

150

% FL

Vout = 250 mV

Output Power MV380-26 MV380-48 and MV380-56 Current Limit Inception

115

120

Short Circuit Current Transient Response Peak Deviation (1.0A/μsec slew rate) MV380-26

% Vout

25% to 75% Load Change

MV380-48 and MV380-56

% Vout

25% to 75% Load Change

Time (1.0A/μsec slew rate)

100

μsec

Vout within 1% Vout nominal

*Absolute Maximum Ratings

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MV380 MegaVerter® series 500-600 WATTS 380VDC Input Full Brick High Power Min

Typical Max

Units

Output

External Load Capacitance

(Continued)

MV380-26

3,300

MV380-48 and MV380-56

1,000

Input/Output Isolation

4500

VDC

Sense/Output Isolation

500

VDC

Input/Baseplate Isolation

2500

VDC

Output/Baseplate Isolation

500

VDC

Sense Baseplate Isolation

500

VDC

Isolation

Input to Output Capacitance

Mechanical

4300

Input to Output Resistance

Weight

230g (7.4oz)

Size

0.5” x 2.4” x 4.6”

Conditions

Case Floating

Mohms

Thermal Resistance, Case to Ambient (Radiation plus natural convection)

Feature

3.3

Power Sharing Accuracy

°C/W

Case Temp. = 100°C

±5

%FL

10 to 100% Full load **200mA Minimum load required for VDC <20V

Trim Range

High Reliability/COTS

MV380-26

18**

VDC

MV380-48

VDC

MV380-56

VDC

0.5

VDC

Remote Sense Compensation Over Voltage Protection MV380-26

VDC

25°C Case Temperature

MV380-48

VDC

25°C Case Temperature

MV380-56

VDC

25°C Case Temperature

Over Temperature Shutdown

+100

+110

°C

Case Temperature

msec

FL, Vout within 1% Vout Nominal

Vout = 0 @ V enable = 0V

Turn On Time Logic Off Threshold

+105 600

0.8

Enable* Enable Current (Logic Off)

1.0

Logic On Threshold

2.4

Logic Turn on Time

msec

FL, Vout within 1% Vout Nominal

*An open collector connection or equivalent is recommended for ON/OFF control.

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MV380 MegaVerter® series 500-600 WATTS 380VDC Input Full Brick High Power

High Reliability/COTS

Mechanical Dimensions

Model Number

Output Output Voltage Current

MV380-26 MV380-48 MV380-56 MV24-28-600 MV380-28-700

26V 48V 56V 28V 28V

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20.0A 12.5A 10.7A 21.5A 25A

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MV24-28-600S series High Output Power, High Efficiency DC/DC Converter Industry Standard 4.59” x 2.4” x 0.5” Package

Output Under Voltage Protection

High Power Density up to 109.29W/Inch3

Adjustable Output Voltage

High Typical Efficiency of 91%

Remote Sense

Low Output Noise

Auxiliary Voltage of 8V, +/-1V

Metal Baseplate

I.O.G. (DC Good): Open Collector Output

Thermal Protection

Remote ON/OFF Control

Over Voltage and Over Current Protection

Absolute Maximum Ratings (Min to Max)

Isolation Specifications

Input Voltage (+In to -In) Storage Temperature Operating Temperature Operating Humidity

Input-Output, Input-Case Output-Case Input-Output Capacitance Isolation Resistance

-0.3 to 50VDC (<100mS) -0.3 to 36VDC (Continuous) -55 to +125°C -40 to 100°C Temperature measurement shall be taken from baseplate (Tb). 30 to 95%

High Reliability/COTS

Input Specifications Input Voltage Range Input Current FL Inrush Transient Input Ripple Rejection

18-36VDC 28.9A max. @ 24Vin, Full Load (FL) 2A2s 60dB@120Hz

General Specifications MTBF Weight Size

Control Specifications

28VDC 27.95-28.05V @ Tb=25°C, 24Vin, FL 27.72-28.28 @ 24Vin, FL +/-0.02%/, max. +/-0.02%/, max. +/-0.02%/°C, -40 to 100°C 250mV p-p max. (Note 2)

200mS @ 80% FL, max. Vo with +/- 1%Vo Set 60-100% with Cap, 440µF/35V Tb=25°C

Notes

3%Vo, set (Note 4) 300µS 115-135% of Output, o=0.5A 12V, Output Overload & Short Circuit 105-115°C, Auto Recover @ 100°C 105-140% of Rate Load (Note 3) 91% @ 24 Vin, 28Vo, 80%L Tb=25°C

1. At Vo = 28V. If Vo > 28V, Output Power (Po) should be ≤ 602W. 2. Bandwidth 5Hz to 20MHz and with filter 0.1≤ F MLCC series 100Ω min. Output Capacitor: 220µF *2, Tc ≥ 20°C, 220µF*4, Tc ≤ 20°C. 3. Current Limit Inception Point Vo=90% of Vo, set @ Tb=25°C,. 4. 25%-50%-75% load, 0.1A/ ≤S; with Cap. 440µF/35V Tb=25°C, 24Vin. 5. Sine Wave, 10-55Hz (Sweep for 1 min.), Amplitude 0.825mm Constant (Max. 0.5g) X, Y, Z at 1 hour each, at No operation.

Model Output

Output Voltage

Output Amps

Input Range

Max. lin FL

Efficiency

Max. Output Power

MV24-28-600S

28VDC

21.5

18-36VDC

28.9A

91%

600 Watts

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1.2Mhrs Tb=40°C, 80%FL, 24Vin 7.94oz (225g) 4.59” x 2.4” x 0.5” (116.59mm x 60.96mm x 12.7mm)

Turn-On Time Trim Adjustment Range

Output Specifications Output Voltage Output Current (lo, max.) Output Voltage Accuracy Load Regulation (0% to FL) Line Regulation (HL-LL) Temperature Coefficient Ripple/Noise Dynamic Response Peak Deviation Setting Time Over Voltage Protection Output Under Voltage Protection Over Temperature Protection Current Limit Efficiency

1500VDC, 60S 500VDC, 60S 2000pF 100MΩ @ Tb=25°C & 70%RH Output to Baseplate-500VDC

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MV24-28-600S series High Output Power, High Efficiency DC/DC Converter

High Reliability/COTS

Trim Circuit

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MV24-28-600S series High Output Power, High Efficiency DC/DC Converter

Baseplate Measure Point

High Reliability/COTS

Derating Curve

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MV24-28-600S series High Output Power, High Efficiency DC/DC Converter

High Reliability/COTS

Mechanical Dimensions

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OTHER PRODUCTS

available for sale

For complete specifications please visit www.astrodyne.com

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CUSTOM PRODUCTS capabilities Astrodyne provides many of our customers with a customized product design to meet their specific needs. Whether a standard or custom-tailored design, we will provide you with a timely and cost-effective power supply solution. Custom Product Definition Our experienced Technical Support Engineers are power supply specialists with the power design experience and in-depth product knowledge to help you define the exact custom design to meet your specific application needs. They will review your design requirements and work with you through every step of the process from initial definition, through prototype delivery, to final production stages to assure you get the right product – on time to meet your schedule.

ISO-9001/ISO14001 approved and can provide high capacity and low cost production for virtually any power supply product. Unlike many companies, Astrodyne’s flexible manufacturing can support small, medium, and high volume requirements while maintainingthe lowest costs possible. We can support your product quantity requirements from initial market introduction through large volume growth as your product market develops.

100% Test and Burn In

Volume Manufacturing Our worldwide manufacturing facilities are

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Astrodyne warranties all products for a minimum of 2 years from date of shipment. Extended warranties are available at time of product release. Should any product require service, we will repair or replace any warranted product at no charge.

• Modified Output Voltages • Specialty I/O Connectors • Cable/Connector Assemblies • Full Custom Electrical Design • Mechanical and Packaging Design • Label and Package Customization

Design Service and Support

to take your product requirements from concept to prototype samples. They can effectively complete the design, test qualifications, and associated documentation to complete the design process. They remain involved after customer prototype approval to assure full production integration.

Warranty and Service

Custom Capabilities

Design Services

Our Design Engineering staff utilizes the latest in computer-based design tools coupled with their power design experience

from UL, TUV, to full CB certification. With our standard products having all associated commercial and medical safety agency approvals, we are highly experienced in both the design and certification process flow.

We functionally test all key parameters and perform powered burn-in on all products prior to shipment to assure full functionality upon receipt by our customers. Internal tracking by lot code, date code, and serialization assures complete quality management throughout the entire manufacturing process to provide you with the highest quality power supply you can trust in your product.

Submit Your Custom Product Request By: • Contacting Technical Support at 1-800-823-8082 • Submit the Custom Product Request available on our Website

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Safety Testing & Certification Our Engineering staff will provide the required testing and documentation to obtain any required safety approvals,

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Custom Product Request

______________________________________________________

Astrodyne can customize a power supply product to meet your specific need. Please complete the specification for below and submit to us for review. Be as detailed as possible and include any notes regarding your application that may help us specify the exact product match. We will contact you regarding the best product solution to match your requirements in a short time.

Contact Information First Name:

Last Name:

Company: Address Line 1: Address Line 2: City:

State:

Phone:

Fax:

Zip:

Country:

Email:

General Information Prototype Quantity:

Annual Quantity:

Expected Delivery:

Input Voltage Range Min:

Max:

Multiple:

Outputs Output 1

Output 2

Output 3

Output 4

Min Current: Max Current: Nominal Volts: Tolerance/Adj: Current Limit: Over Voltage Protection:

Safety Standards Notes:

Environment Standards Dimensions:

Input Connector: Output Connector: Package Style:

Additional Notes Notes:

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Custom Order Notes

559

GLOSSARY of terms Terms From Principles of Power Conversions Section (Pages 4 - 27) AC LINE VOLTAGE: The voltage commonly delivered by the commercial power line to consumers. In the United States, the two standards are 117V and 234V (+/- approx. 5%). The lower voltage is used by most appliances; the higher voltage is intended for appliances and equipment that draws high power, such as electric ovens, cooking ranges, clothes dryers, and similar appliances. In Europe, 220V is the common AC voltage standard. AC NOISE: Electromagnetic interference originating in the AC power lines or electrical noise of a rapidly alternating or pulsating nature. AMBIENT TEMPERATURE: The temperature of the environment, usually the still air in the immediate proximity of the power supply. BREAKDOWN VOLTAGE: A voltage level at which dielectric insulation fails by excessive leakage current or arcing. For power supplies the breakdown voltage is the maximum AC or DC voltage that can be applied from input to output and/or chassis. BRIDGE RECTIFIER: A full wave rectifier circuit employing four rectifiers in a bridge configuration. BROWNOUT: the condition created during peak usage periods when electric utility companies intentionally reduce their line voltage by approximately 10 - 15% to counter excessive demand. BROWNOUT PROTECTION: The ability of a power supply to continue operating within specification through the duration of a brownout. BURN-IN: Operating a newly manufactured power supply, usually at rated load, for a period of time in order to force component infant mortality failures or other latent defects before the unit is delivered to a customer. CAPACITIVE COUPLING: Coupling of a signal between two circuits, due to discrete or parasitic capacitance between the circuits, often via the PC Board. CFM: (Cubic Feet per Minute) indicates the volume of air that a fan will move in one minute at 0 (zero) STATIC PRESSURE. It is important to note that CFM specifications are stated at zero static pressure because this is the point at which airflow is highest.As static pressure increases airflow decreases. As a general guideline there should be a vent hole area that is equal to approximately 1.5x the area of the fan venturi (hole) to prevent excessively high static pressure. CFM is sometimes stated as “m3” (cubic meters per minute) or as “liters per second”. Both of these alternate airflow expressions can be translated into CFM by the application of simple equations. COMMON MODE NOISE: Noise present equally on two conductors with respect to some reference point; often used specifically to refer to noise present on both the hot and neutral AC lines with respect to ground. CONSTANT CURRENT POWER SUPPLY: A power supply designed to regulate the output current for changes in line, load, ambient temperature, and drift over time. CONTROL CIRCUIT: A circuit in a closed-loop system, typically containing an error amplifier, which controls the operation of the system to achieve regulation. CONVECTION: The transfer of thermal energy by normally occuring air currents resulting from unequal temperatures.

560

CROSS REGULATION: The effect of a load change on one output to the regulation of another output. It usually only applies to non-postregulated (quasi) outputs. CROWBAR: An overvoltage protection method which shorts the power supply output to ground in order to protect the load when an overvoltage fault is detected, Clamp. CURRENT LIMITING: An overload protection circuit that limits the maximum out put current of a power supply in order to protect the load and/or the power supply. CURRENT MODE: A control method for switch-mode converters where the converter adjusts its regulating pulse width in response to measured current. DERATING: A reduction in an operating specification to improve reliability. For power supplies it is usually a specified reduction in output power to permit operation at higher ambient temperatures. DIFFERENTIAL MODE NOISE: Noise that is measured between two lines with respect to a common reference point excluding common-mode noise. The resultant measurement is the difference of the noise components of the two lines. The noise between the DC output and DC return is usually measured in power supplies. DIRECT CURRENT: A mode of output related to current that has either a positive or negative fixed polarity and flows in one direction. A DC charge can be stored more easily and is used for all batteries. DRIFT: The change in an output voltage, after a warm-up period, as a function of time when all other variables such as line, load, and operating temperature are constant. DROPOUT: The lower limit of the AC input voltage where the power supply begins to experience insufficient input to maintain regulation. The dropout voltage for linears is quite load dependent. For most switchers it is largely design dependent, and to a smaller degree load dependent. DUTY CYCLE: The duty ratio D is the ratio of the on-time (ton) to the period (T). The on-time(ton) is the time that the energy transfer inductor is taking energy from the source and is usually controlled by the on-time of a power transistor switch. The off-time (toff) is the time that the energy transfer inductor is idle or delivering energy to the load which is usually controlled by the off-time of a power transistor switch. The sum of the on-time and off-time is the period (T), which is also the reciprocal of the switching frequency (f). The dimensions of ton, toff, and T is seconds. D is a dimensionless ratio that can have values between zero and one. Frequency (f) has the dimensions Hertz (preferred) or cycles-per-second. EFFICIENCY: The ratio of total output power to input power expressed as a percentage. Normally specified at full load and nominal input voltage. EMI: Abbreviation for Electromagnetic Interference, which is the generation of unwanted noise during the operation of a power supply or other electronic equipment. ESR: Equivalent Series Resistance. The value of resistance in series with an ideal capacitor which duplicates the performance characteristics of a real capacitor.

FAULT MODE INPUT CURRENT: The input current to a power supply with a short circuit on the output. www.astrodyne.com USA: 1-800-823-8082 • Asia Pacific: 886-2-26983458

GLOSSARY of terms FLOATING OUTPUT: An output of a power supply that is not connected or referenced to any other output, usually denotes full galvanic isolation. They generally can be used as either positive or negative outputs. Non-floating outputs share a common return line, and are hence DC referenced to one another. FLYBACK CONVERTER: The flyback converter is the simplest type of switcher. In most cases, it uses one switch and only needs one magnetic element - the transformer. Flybacks are limited to outputs of generally lower than 200 Watts. FOLDBACK CURRENT LIMITING: A type of protection circuit where the output current decreases as the overload increases. The output current reaches a minimum as the load approaches a short-circuit condition. FORWARD CONVERTER: Similar to flyback converter but the forward converter stores energy in the output inductor instead of the transformer. FULL BRIDGE FORWARD CONVERTER: It has the capability for very high performance and can produce high power with four switches and requires only two magnetic elements. GROUND: An electrical connection to earth or some other conductor that is connected to earth. Sometimes the term “ground” is used in place of “common,” but such usage is not correct unless the connection is also connected to earth. GROUND LOOP: An unintentionally induced feedback loop caused by two or more circuits sharing a common electrical ground. HEATSINK: Device used to conduct away and disperse the heat generated by electronic components. HICCUP MODE: As the name implies, if a current limit is sensed, the power supply will reduce its output voltage to zero and then, after a short time, it will attempt to “restart” or provide its normal voltage. These On-Off attempts at operation are referred to as a hiccup-mode. Should the overload condition be removed, the supply will again operate normally at the next restart cycle. HIGH LINE: Highest specified input operating voltage for a power supply; ie: 85-265VAC input range specification, with 265VAC being the high line condition. HIPOT: Abbreviation for High Potential, and generally refers to the high voltages used to test dielectric withstand capability for regulatory agency electrical safety requirements.

INPUT LINE FILTER: An internally or externally mounted low-pass or band-reject filter at the power supply input which reduces the noise fed into the power supply. INRUSH CURRENT: The peak current flowing into a power supply the instant AC power is applied. This peak is usually much higher than the steady state input current due to the initial charging of the input filter capacitors. ISOLATION: Two circuits that are completely electrically separated with respect to DC potentials, and almost always also AC potentials. In power supplies, it is defined as the electrical separation of the input and output via the transformer. ISOLATION VOLTAGE: The maximum AC or DC voltage which maybe continuously applied from input to output and/or chassis of a power supply. LEAKAGE CURRENT: A term relating to current flowing between the AC supply wires and earth ground. The term does not necessarily denote a fault condition. In power supplies, leakage current refers to the current which flows through the EMI filter capacitors which are connected between the AC lines and ground. LFM: Airflow of a fan, specified an Linear Feet per Minute at static opening input pressure. LFM is related to CFM (Cubic Feet per Minute) by the equation: LFM=CFM/Orifice opening Area in Ft². LINE REGULATION: The change in output voltage when the input voltage is changed from minimum to maximum specified. LINEAR REGULATOR: A regulating technique where an active device such as a transistor is placed in series with a power supply output to regulate the output voltage. LOAD REGULATION: The change in output voltage when the load on the output is changed, expressed in percent of output voltage. LOCAL SENSING: Using the voltage output terminals of the power supply as sense points for voltage regulation. LOGIC ENABLE: The ability to turn a power supply on and off with a TTL signal. A logic low generally turns the supply off; a logic high turns it on. LONG TERM STABILITY: Power supply output voltage change due to time with all other factors held constant. This is expressed in percent and is a function of component aging.

HOLD-UP TIME: The length of time a power supply can operate in regulation after failure of the AC input. Linears have very short hold-up times due to the energy storage product of their low voltage secondary side output capacitors. Switchers have longer times due to their higher voltage primary side energy storage capacitors.

LOW LINE: Lowest specified input operating voltage for a power supply; ie: 85-265VAC input range specification, with 85VAC being the low line condition.

INHIBIT: The ability to electrically turn off the output of a power supply from a remote location. On/Off control.

MARGINING: Adjusting a power supply output voltage up or down from its minimal setting in order to verify system performance margin with respect to supply voltage. This is usually done electrically by a system-generated control signal.

INPUT CURRENT: The amount of current, expressed in amperes, drawn from the AC line (for AC/DC power supplies) or DC input (for DC/DC converters) by the power converter when operated at specified nominal input voltage and rated maximum output static load.

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MAXIMUM LOAD: The maximum load current/power that may be drawn from the power supply without tripping output overload protection circuitry or blowing the input fuse. Input line levels and ambient temperatures can affect maximum load capability.

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561

GLOSSARY of terms MINIMUM LOAD: The minimum load current/power that must be drawn from the power supply in order for the supply to meet its performance specifications. Less frequently, a minimum load is required to prevent the power from failing.

PEAK POWER: The absolute maximum output power that a power supply can produce without immediate damage. Peak power capability is typically well beyond the continuous reliable output power capability and should only be used infrequently.

MODULAR: A physically descriptive term used to describe a power supply made up of a number of separate subsections, such as an input module, power module, or filter module.

POST REGULATOR: A secondary regulating circuit on an auxiliary output of a power supply to provide full regulation on that output.

MTBF: (Mean Time Between Failures) may be calculated or demonstrated. The usual calculation is per Mil-Std 217 rev E. Demonstrated reliability is usually determined by temperature accelerated life testing. NOISE: Noise is the periodic and/or random component of undesired deviations in output voltage. Usually specified in combination with ripple. NORMAL VALUE: A usual, average, normal, or expected operating condition. This stated value will probably not be equal to the value actually measured. OFF LINE: A power supply which receives its input power from the AC line, without using a 50/60 Hz power transformer prior to rectification and filtering, hence the term “off line” power supply. OPEN FRAME: A power supply where there is no external metal chassis; the power supply is provided to the end user essentially as a printed circuit board which provides mechanical support as well as supporting the components and making electrical connections. OPTOISOLATOR: An electro-optical device which transmits a signal across a DC isolation boundary. Usually used in a closed loop control circuit. OUTPUT NOISE: The AC component that may be present on the DC output of a power supply. Switch-mode power supply output noise has two components: a lower frequency component at the switching frequency of the converter and a high frequency component due to fast edges of the converter switching transitions. Noise should always be measured directly at the output terminals with a scope probe having an extremely short grounding lead. Measurement bandwith is typically 20Mhz. OUTPUT VOLTAGE RANGE: The minimum and maximum adjustable voltage range of the power supply allowed to maintain regulated operation, usually specified as a +/-% of nominal rated output voltage of the power supply. OVERLOAD PROTECTION: A power supply protection circuit that limits the output current under overload conditions. OVERSHOOT: A transient output voltage change which exceeds the high limit of the voltage accuracy specification and is caused by turning the power supply on or off, or abruptly changing line or load conditions. OVERVOLTAGE PROTECTION: A circuit which either shuts down the power supply or crowbars the output in the event of an overvoltage condition. PARALLEL OPERATION: Connecting the outputs of two or more power supplies with the same output voltage for the purpose of obtaining a higher output current. This requires power supplies specially designed for load sharing.

POWER DISSIPATION: The active thermodynamic action of removing heat from an object to the surrounding free ambient air. In power supplies, this is normally accomplished by heat sinking or with forced airflow by use of a fan. POWER FACTOR: The ratio of true power to apparent power in an AC circuit. In power conversion technology, power factor is used in conjunction with describing the AC input current to the power supply. POWER FAIL: A power supply interface signal which gives a warning that the input voltage will no longer sustain full power regulated output. PRELOAD: A small amount of current drawn from a power supply to stabilize its operation. Preloads are usually provided by a bleeder resistor. PULSE WIDTH MODULATION (PWM): A switching power conversion technique where the on-line (or width) of a duty cycle is modulated to control power transfer for regulating power supply outputs. PUSH-PULL CONVERTER: A switch mode power supply topology which utilizes a center-tapped transformer and two power switches. The two switches are alternately driven on and off. QUASI REGULATED OUTPUT: The regulation of an auxiliary output that is accomplished by regulation of the main output. A transformer turns ratio, commensurate with the desired auxiliary output voltage, is used in conjunction with the output around which the main control loop is closed. Quasi regulated outputs can be reasonably well regulated, but are significantly affected by second order effects in the converter. RATED OUTPUT CURRENT: The maximum load current that a power supply can provide at a specified ambient temperature. REFLECTED RIPPLE CURRENT: The RMS or peak-to-peak AC current present at the input of the power supply which is a result of the switching frequency of the converter. REGULATION: The ability of a power supply to maintain an output voltage within a specified tolerance as referenced to changing conditions of input voltage and/or load. REMOTE SENSE: Wires connected in parallel with power supply output cables such that the power supply can sense the actual voltage at the load to compensate for voltage drops in the output cables and/or isolation devices. RETURN: The designation of the common terminal for the power supply outputs. It carries the return current for the outputs. REVERSE VOLTAGE PROTECTION: A protection circuit that prevents the power supply from being damaged in the event that a reverse voltage is applied at the input or output terminals.

PARD: Periodic And Random Deviation, referring to the sum of all ripple and noise components on the DC output of a power supply, regardless of nature or source. 562

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GLOSSARY of terms RFI: An abbreviation for Radio Frequency Interference, which is undesirable noise produced by a power supply or other electrical or electronic device during its operation.

TRANSIENT RECOVERY TIME: The time required for an output voltage to be within specified accuracy limits after a step change in line or load conditions.

RIPPLE AND NOISE: The amplitude of the AC component on the DC output of a power supply usually expressed in millivolts peak-to-peak or RMS. For a switching power supply, it is usually the switching frequency of the converter stage.

UNDERSHOOT: A transient output voltage change which does not meet the low limit of the voltage accuracy specification and is caused by turning the power supply on or off, or abruptly changing line or load conditions.

SAFETY GROUND: A conductive path to earth that is designed to protect persons from electrical shock by shunting away any dangerous currents that might occur due to malfunction or accident.

UNDERVOLTAGE PROTECTION: Input monitoring and control circuitry used to prevent power supply shutdown or damage during brief or extended reduced input voltage conditions below that of the rated low line specification.

SECONDARY: The output section of an isolated power supply which is isolated from the AC mains and specially designed for safety of personnel who might be working with power on the system.

UNIVERSAL INPUT: Refers to power supplies that can actively adapt to an AC main input supply voltage that varies across a wide range of input voltages (typically: 85â&#x20AC;&#x201C;264V AC) without manual selection.

SELV: An abbreviation for Safety Extra Low Voltage, a term generally defined by the regulatory agencies as the highest voltage that can be contacted by a person and not cause injury.

UPS: (Uninterruptible Power Supply). A power supply which continues to supply power during a loss of input power, by use of a battery/power inverter combination.

SEQUENCING: The technique of establishing a desired order of activating the outputs of a multiple output power supply.

VOLTAGE MODE: Closed loop control of a switching converter where the pulse width is varied in response to changes in voltage to regulate the output.

SOFT LINE: A condition where there is substantial impedance present in the AC mains feeding input power to a power supply. The input voltage to the power supply drops significantly with increasing load. SOFT START: A technique for gradually activating a power supply circuit when the power supply is first turned on. This technique is generally used to provide a gradual rise in output voltages and inrush current limiting.

WARM-UP DRIFT: The initial change in the output voltage of a power supply in the time period between turn-on and when the power supply reaches thermal equilibrium at 25 degrees Centigrade, full load and nominal line. WARM-UP TIME: The time required after initial turn on for a power supply to achieve compliance to its performance specifications.

STANDBY or IDLE CURRENT: The input current drawn by a power supply when shut down by a control input (remote inhibit) or under no load. STORAGE TEMPERATURE: The range of ambient temperatures through which an inoperative power supply can remain in storage without degrading its subsequent operation. SWITCHING FREQUENCY: The rate at which the DC voltage is switched on and off during the pulse width modulation process in a switching power supply. TEMPERATURE COEFFICIENT: The average output voltage change expressed as a percent per degree centigrade of ambient temperature change. This is usually specified for a pre-determined temperature range. TEMPERATURE DERATING: Reducing the output power of a power supply with increasing temperature to maintain reliable operation. THERMAL PROTECTION: A power supply protection circuit which shuts the power supply down in the event of unacceptably high internal temperatures. TOPOLOGY: The design type of a converter, indicative of the configuration of switching transistors, utilization of the transformer, and type of filtering. Examples of topologies are the Flyback, Forward, Half-Bridge, Full Bridge, and Resonant. TRACKING: A characteristic in a multiple output power supply where any changes in the output voltage of one output caused by line, load, and/or temperature are proportional to similar changes in accompanying outputs.

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429

563

PRICE LIST 28

Series

Output Power

Price (1)

Price (10)

TS700 TS200 TS400 TS700 TS1000 TS1500 TN1500

700 200 400 700 1000 1500 1500

$475 $201.60 $259.35 $498.75 $576.45 $779.10 $866.25

$441 $186.90 $241.50 $463.05 $536.55 $724.50 $788.55

Price (1) $31.50 $31.50 $40.95 $41 $44.10 $44.10 $52 $43.05 $57.75 $141 $55.65 $109.20 $54.60 $54.60 $57.75 $138.60 $107.10 $153.30 $215.25 $227.85

Price (10) $28.35 $28.35 $37.80 $38 $40.95 $40.95 $48 $39.90 $51.45 $131 $51.45 $89.25 $50.40 $50.40 $53.55 $110.25 $86.10 $121.80 $197.40 $206.85

Lighting Power Series LPC20 LPV20 ELN30 PLN30 LPC35 LPV35 LPC60 PLN30 ALD120 OLP48 ELN60 CLG60 LPC60 LPV60 PLN60 CLG100 PLN100 CLG150 HLG240 HLG240H

Output Power 20 20 30 30 35 35 50 30 48 120 60 60 60 60 60 100 100 150 240 240

Open Frame Supplies

Series Output Power EFM5 (Single Output) 5 EFM5 (Dual Output) 5 EFM5 (Single Output) 5 (Triple Output) EFM10 (Single Output) 10 EFM10 (Single Output) (Dual Output) 10 EFM10 (Triple Output) 10 EFM15 15 EFM15 (Single (Single Output) Output) EFM15 (Dual Output) 15 EFM15 (Single (Triple Output) 15 EFM30 Output) 30 EFM30 (Single Output) 30 EFM30 (Triple Output) 30 (Dual Output) 30 EFM30 (Triple Output) 30 ASL15 15 ASL10 10 ASL15 15 OFM20 20 OFM20 (Dual (SingleOutput) Output) 20 20 OFM20 (Dual Output) PD25 25 PS25 25 PD25 25 LPS75 75 LPS50 50 LPS75 75 PS45 45 LPS100 100 45 PS45 PT45 45 PD45 45 45 PT45 PD65 65 PS65 65 PD65 65 PT65 65

Price (1) $35.70 $39.90 $34 $42.00 $42.00 $40 $45.15 $46.20 $45 $47.25 $50.40 $52.50 $72 $75.60 $80.85 $81 $85.05 $42.00 $45 $47.25 $54.60 $55 $57.75 $34 $30.45 $35.70 $43.05 $47 $49.35 $59.85 $33 $34.65 $40 $39.90 $42.00 $40 $37.80 $42.00 $44.10

Price (10) $33.60 $37.80 $32 $39.90 $39.90 $38 $42.00 $43.05 $42 $44.10 $47.25 $49.35 $69 $72.45 $77.70 $77 $80.85 $39.90 $42 $44.10 $51.45 $52 $54.60 $32 $28.35 $33.60 $31.50 $37 $38.85 $56.70 $30 $31.50 $38 $37.80 $39.90 $38 $35.70 $39.90 $42.00

(continued next column)

564

Series Output Power ASL40 (Single Output) 40 ASL40 (Dual Output) 40 ASL60 (Single Output) 60 ASL60 (Dual Output) 60 ASL150 150 ASL150 150 ASL365 365 BSL40 (Single Output) 40 BSL60 (Single Output) 60 PQ100 100 LPP100 100 LPP150 150 PD110 110 PD110 110 PPS125 125 PPT125 125 PMK130 - Open (Single Output) 130 (Triple Output) 130 PMK130 - U-Channel (Single Output) 130 (Triple Output) 130 PWC 5 PWC (SIP) 5 12 PWC12 12 PWC12 (SIP)

Alternative Energy

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167

Price (1) $42.00 $46.20 $57.75 $63.00 $138.60 $132 $313.95 $46.20 $63.00 $77.70 $72.45 $79.80 $69 $72.45 $109.20 $119.70

Price (10) $38.85 $43.05 $53.55 $58.80 $129.15 $123 $282.45 $43.05 $58.80 $72.45 $68.25 $74.55 $65 $68.25 $97.65 $109.20

$73.50 $78.75

$68.25 $73.50

$77.70 $81.90 $33.60 $35.70 $35.70 $37.80

$72.45 $76.65 $31.50 $33.60 $33.60 $35.70

Encapsulated Supplies Output Power Series ECA (PCB Mount) ECA5 (Single Output) 5 ECA5 (Dual Output) 5 ECA5 (Triple Output) 5 ECA10 (Single Output) 10 10 ECA10 (Dual Output) 10 ECA10 (Triple Output) 15 ECA15 (Single Output) 15 ECA15 (Dual Output) ECA15 (Triple Output) 15 30 ECA30 (Single Output) ECA30 (Dual Output) 30 ECA30 (Triple Output) 30 ECA (Chassis Mount) ECA5 (Single Output) 5 ECA5 (Dual Output) 5 ECA5 (Triple Output) 5 ECA10 (Single Output) 10 10 ECA10 (Dual Output) ECA10 (Triple Output) 10 ECA15 (Single Output) 15 ECA15 (Dual Output) 15 ECA15 (Triple Output) 15 ECA30 (Single Output) 30 ECA30 (Dual Output) 30 ECA30 (Triple Output) 30 MCA (PCB Mount)

Price (1) Price (10)

MCA5 (Single Output) MCA5 (Dual Output) MCA5 (Triple Output) MCA10 (Single Output) MCA10 (Dual Output) MCA10 (Triple Output)

5 5 5 10 10 10

$44.10 $49.35 $53.55 $52.50 $56.70 $59.85 $58.80 $63.00 $66.15 $94.50 $103.95 $114.45

$42.00 $47.25 $51.45 $49.35 $52.50 $56.70 $54.60 $58.80 $64.05 $90.30 $99.75 $109.20

$48.30 $54.60 $57.75 $57.75 $61.95 $65.10 $65.10 $69.30 $70.35 $103.95 $114.45 $126.00

$46.20 $51.45 $55.65 $54.60 $57.75 $61.95 $59.85 $65.10 $67.20 $99.75 $110.25 $119.70

$71.40 $77.70 $84.00 $84.00 $90.30 $95.55

$69.30 $73.50 $81.90 $81.90 $85.05 $92.40

(continued next page)

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

PRICE LIST Series

Output Power

MCA (PCB Mount contâ&#x20AC;&#x2122;d) MCA15 (Single Output) 15 MCA15 (Dual Output) 15 MCA15 (Triple Output) 15 MCA30 (Single Output) 30 MCA30 (Dual Output) 30 MCA30 (Triple Output) 30 MCA (Chassis Mount) MCA5 (Single Output) 5 MCA5 (Dual Output) 5 MCA5 (Triple Output) 5 MCA10 (Single Output) 10 MCA10 (Dual Output) 10 MCA10 (Triple Output) 10 MCA15 (Single Output) 15 MCA15 (Dual Output) 15 MCA15 (Triple Output) 15 MCA30 (Single Output) 30 MCA30 (Dual Output) 30 MCA30 (Triple Output) 30 PWC (Encapsulated) 5 PWC12 (Encapsulated) 12

180

Price (1)

Price (10)

$95.55 $101.85 $107.10 $131.25 $138.60 $144.90

$92.40 $95.55 $103.95 $128.10 $131.25 $140.70

$84.00 $90.30 $95.55 $95.55 $101.85 $107.10 $108.15 $114.45 $119.70 $144.90 $150.15 $153.30

$81.90 $85.05 $92.40 $92.40 $95.55 $103.95 $106.05 $108.15 $116.55 $140.70 $141.75 $150.15

$35.70 $37.80

$33.60 $35.70

Price (1)

Price (10)

$48.30 $54.60 $58.80 $57.75 $61.95 $66.15 $65.10 $69.30 $72.45 $103.95 $114.45 $126.00

$46.20 $51.45 $56.70 $54.60 $57.75 $61.95 $59.85 $65.10 $70.35 $99.75 $110.25 $119.70

$53.55 $59.85 $63.00 $63.00 $68.25 $71.40 $71.40 $76.65 $77.70 $114.45 $126.00 $138.60

$50.40 $56.70 $60.90 $59.85 $63.00 $68.25 $66.15 $71.40 $73.50 $110.25 $121.80 $131.25

$81.90 $90.30 $95.55 $94.50 $101.85 $107.10 $108.15 $115.50 $122.85 $150.15 $157.50 $163.80

$78.75 $85.05 $92.40 $91.35 $95.55 $103.95 $106.05 $109.20 $118.65 $145.95 $149.10 $157.50

Medically Approved Output Power Series EMA (PCB Mount) EMA5 (Single Output) 5 EMA5 (Dual Output) 5 EMA5 (Triple Output) 5 EMA10 (Single Output) 10 EMA10 (Dual Output) 10 EMA10 (Triple Output) 10 EMA15 (Single Output) 15 EMA15 (Dual Output) 15 EMA15 (Triple Output) 15 EMA30 (Single Output) 30 EMA30 (Dual Output) 30 EMA30 (Triple Output) 30 EMA (Chassis Mount) EMA5 (Single Output) 5 EMA5 (Dual Output) 5 EMA5 (Triple Output) 5 EMA10 (Single Output) 10 EMA10 (Dual Output) 10 EMA10 (Triple Output) 10 EMA15 (Single Output) 15 EMA15 (Dual Output) 15 EMA15 (Triple Output) 15 EMA30 (Single Output) 30 EMA30 (Dual Output) 30 EMA30 (Triple Output) 30 MMA (PCB Mount) MMA5 (Single Output) 5 MMA5 (Dual Output) 5 MMA5 (Triple Output) 5 MMA10 (Single Output) 10 MMA10 (Dual Output) 10 MMA10 (Triple Output) 10 MMA15 (Single Output) 15 MMA15 (Dual Output) 15 MMA15 (Triple Output) 15 MMA30 (Single Output) 30 MMA30 (Dual Output) 30 MMA30 (Triple Output) 30

(continued next column)

Series

Output Power

Price (1) Price (10)

MMA (Chassis Mount) MMA5 (Single Output) MMA5 (Dual Output) MMA5 (Triple Output) MMA10 (Single Output) MMA10 (Dual Output) MMA10 (Triple Output) MMA15 (Single Output) MMA15 (Dual Output) MMA15 (Triple Output) MMA30 (Single Output) MMA30 (Dual Output) MMA30 (Triple Output) MMA10 Mount) EFM5/M(PCB (Single Output) EFM5/M (Dual Output) EFM5/M (Triple Output) EFM10/M (Single Output) EFM10/M (Dual Output) MMA30 (PCB Mount) EFM10/M (Triple Output) EFM15/M(Single (SingleOutput) Output) EFM5/M EFM15/M (Dual Output) EFM15/M (Triple Output) EFM30/M (Single Output) EFM30/M (Single (Dual Output) EFM15/M Output) EFM30/M (Triple Output) EFM30/M ASM10 (Single Output) ASM15 ASM10 MPS30 MPS45 (Single Output) MPD45 (Dual Output) MPS30 MPT45 (Triple Output) ASM10 MPS65 (Single Output) MPD65 (Dual Output) MPT65 (Triple Output) ASM40 (Single Output) ASM40 (Dual Output) ASM60 (Single Output) ASM60 (Dual Output) ASM150 ASM365 BSM40 BSM60 MMK40 MMK75 MMK150 MMK320 PMMK130 - Open (Single Output) (Triple Output) PMMK130 - U-Channel (Single Output) (Triple Output) PMMK150 - Open (Single Output) (Dual Output) PMMK150 - U-Channel (Single Output) (Dual Output) PMMK150 - Enclosed (Single Output) (Dual Output)

5 5 5 10 10 10 15 15 15 30 30 30 105 5 5 10 3010 10 5 15 15 15 30 1530 30 3010 15 1030 45 3045 45 1065 65 65 40 40 60 60 150 365 40 60 40 75 150 320

$ 94.50 $101.85 $107.10 $107.10 $114.45 $119.70 $119.70 $127.05 $134.40 $162.75 $170.10 $175.35 $42.00 $90 $45.15 $47.25 $46.20 $143 $49.35 $50.40 $40 $52.50 $56.70 $58.80 $82.95 $89.25 $50 $93.45 $48.30 $79 $52.50 $39.90 $46 $42.00 $45.15 $38 $50.40 $44.10 $46 $48.30 $53.55 $46.20 $51.45 $63.00 $69.30 $143.85 $344.40 $50.40 $69.30 $50.40 $61.95 $91.35 $112.35

$91.35 $97.65 $103.95 $101.85 $108.15 $115.50 $116.55 $119.70 $129.15 $154.35 $160.65 $169.05 $39.90 $87 $42.00 $44.10 $44.10 $139 $46.20 $47.25 $38 $49.35 $52.50 $54.60 $79.80 $85.05 $47 $89.25 $45.15 $76 $49.35 $37.80 $43 $39.90 $42.00 $36 $47.25 $42.00 $43 $45.15 $50.40 $43.05 $48.30 $58.80 $64.05 $133.35 $310.80 $47.25 $65.10 $48.30 $58.80 $85.05 $103.95

130 130

$80.85 $75.60 $86.10 $80.85

130 130

$85.05 $79.80 $90.30 $84.00

150 150

$87.15 $80.85 $90.30 $82.95

150 150

$91.35 $94.50

$84.00 $88.20

150 150

$94.50 $96.60

$87.15 $90.30

(continued next page)

565

PRICE LIST Series

Output Power

Price (1)

Price (10)

$95.55 $97.65 $121.80 $123.90 $124.95 $132.30 $133.35 $174.30 $186.90 $187.95 $38.50 $51.70 $71.50 $72.60 $75.90 $54.60 $96.80 $75.90 $82.50 $86.90 $148.50 $154.00 $165.00 $120.75 $129.15 $136.50 $142.80

$88.20 $91.35 $113.40 $115.50 $116.55 $123.90 $124.95 $162.75 $174.30 $175.35 $33.00 $44.00 $66.00 $67.10 $70.40 $50.40 $94.60 $68.20 $74.80 $81.40 $145.20 $149.60 $161.70 $114.45 $120.75 $129.15 $136.50

Output Power

Price (1)

Price (10)

20 40 60 30 45 60 75 120 240 480 480

$45.15 $51.45 $70.35 $48.30 $53.55 $72.45 $91.35 $103.95 $204.75 $241.50 $344.40

$42.00 $48.30 $65.10 $45.15 $49.35 $67.20 $86.10 $97.65 $184.80 $229.95 $277.20

PMMK150 - DIN Rail (Single Output) (Dual Output) PMMK225 - U-Channel PMMK225 - Enclosed PMMK225 - DIN Rail PMMK320 - Enclosed PMMK320 - DIN Rail PMMK450 - U-Channel PMMK450 - Enclosed PMMK450 - DIN Rail AMP1201 AMP1501 AMP300x (Single Output) AMP300x (Dual Output) AMP300x (Triple Output) ASA30M AMP6301 AMP500x (Single Output) AMP500x (Dual Output) AMP500x ( Triple Output) AMP101x (Single Output) AMP101x (Dual Output) AMP101x ( Triple Output) MPS200 (Single Output) MPD200 (Dual Output) MPT200 (Triple Output) MPQ200 (Quad Output)

278

DIN Rail Mount Series MDR20 MDR40 MDR60 DR30 DR45 DR60 DR75 DR120 SDR240 DRP480 SDR480

297

150 150 225 225 225 320 320 450 450 450 12 15 30 30 30 30 63 50 50 50 100 100 100 200 200 200 200

External Supplies Series SPU10 SPU12A SPU16A/B/C SPU16D/E SPU20A SPU25A ASA30 SPU31 SPU46

Output Power 10 12 16 16 20 25 30 30 46

Price (1) Price (10) $27.50 $31.90 $36.30 $37.40 $41.80 $42.90 $45.15 $49.50 $63.80

$22.00 $28.60 $34.10 $35.20 $38.50 $39.60 $42.00 $46.20 $57.20

(continued next column)

Series Output Power SPU63 63 SPU68 68 SPU80 80 SPU131 130 VPU10/11/15/26/40/60 10

334

Price (1) Price (10) $74.80 $69.30 $84.70 $78.10 $91.30 $86.90 $103.40 $101.20 (Call for pricing)

Enclosed Supplies Series PV15 RS25 RS35 RD35 RID50 RS50 (Single Output) RD50 (Dual Output) RT50 (Triple Output) RQ50 (Quad Output) RID65 RD65 (Dual Output) RT65 (Triple Output) RQ65 (Quad Output) RS75 RID85 RD85 (Dual Output) RT85 (Triple Output) RQ85 (Quad Output) RS100 RID125 RD125 (Dual Output) RT125 (Triple Output) RQ125 (Quad Output) RS150 MK40 MK75 MK150 MK320 PMK150 - Open (Single Output) (Dual Output) PMK150 - U-Channel (Single Output) (Dual Output) PMK150 - Enclosed (Single Output) (Dual Output) PMMK150 - DIN Rail (Single Output) (Dual Output) PMK225 - U-Channel PMK225 - Enclosed PMK225 - DIN Rail PMK320 - Enclosed PMK320 - DIN Rail PMK450 - U-Channel PMK450 - Enclosed PMK450 - DIN Rail

Output Power

Price (1) Price (10)

15 25 35 35 50 50 50 50 50 65 65 65 65 75 85 85 85 85 100 125 125 125 125 150 40 75 150 320

$31.50 $33.60 $39.90 $43.05 $50.40 $43.05 $46.20 $48.30 $50.40 $56.70 $50.40 $54.60 $56.70 $48.30 $79.80 $71.40 $77.70 $79.80 $67.20 $80.85 $74.55 $81.90 $84.00 $71.40 $44.10 $53.55 $82.95 $101.85

$30.45 $32.55 $33.60 $37.80 $43.05 $36.75 $39.90 $42.00 $43.05 $47.25 $43.05 $46.20 $47.25 $40.95 $67.20 $60.90 $66.15 $67.20 $57.75 $68.25 $64.05 $70.35 $72.45 $61.95 $42.00 $50.40 $77.70 $94.50

150 150

$78.75 $81.90

$73.50 $75.60

150 150

$82.95 $76.65 $86.10 $79.80

150 150

$86.10 $78.75 $88.20 $81.90

150 150 225 225 225 320 320 450 450 450

$87.15 $89.25 $110.25 $112.35 $113.40 $120.75 $121.80 $158.55 $169.05 $170.10

$79.80 $82.95 $102.90 $105.00 $106.05 $112.35 $113.40 $149.10 $158.55 $159.60

(continued next page)

8 566

PRICE LIST Series

Output Power

SP75 TP75 SP100 TP100 QP100 SP150 TP150 QP150 SP200 QP200 SP240 SP320 SP480 SP500 SP750 PSP600 RSP1000 RSP1500 SCP600 SCP800 SCP1K2 SCP2K4

433

75 75 100 100 100 150 150 150 200 200 240 320 480 500 750 600 1000 1500 600 800 1K2 2K4

Price (1)

Price (10)

Series

$84.00 $91.35 $96.60 $131.25 $148.05 $108.15 $ 150.15 $160.65 $121.80 $173.25 $114.45 $163.80 $263.55 $286.65 $484.05 $329.70 $535.50 $847.35 $395.85 $484.05 $836.85 $1939.35

$79.80 $86.10 $91.35 $124.95 $139.65 $102.90 $141.75 $152.25 $114.45 $163.80 $103.95 $141.75 $229.95 $271.95 $462.00 $296.10 $512.40 $814.80 $329.70 $417.90 $704.55 $1652.70

LED15 LCD15 (Single Output) LCD15 (Dual Output) FED20 (Single Output) FED20 (Dual Output) ASD20 (Single Output) ASD20 (Dual Output) ASD30 (Single Output) ASD30 (Dual Output) ASD30 (Triple Output) FEC40 (Single Output) FEC40 (Dual Output) FEC40 (Triple Output) ASD50 ASD75EB ASD150QV

Price (1)

Price (10)

$12.60 $13.65 $12.60 $13.65 $18.90 $19.95 $21.00 $22.05 $37.80 $38.85 $48.30 $51.45 $43.05 $48.30 $19.95 $21.00 $57.75 $ 64.05 $49.35 $54.60 $19.95 $21.00 $21.00 $22.05 $59.85 $66.15 $54.60 $61.95 $84.00 $90.30 $77.70 $82.95

$11.55 $12.60 $10.50 $12.60 $17.85 $18.90 $19.95 $21.00 $33.60 $34.65 $45.15 $48.30 $40.95 $45.15 $18.90 $19.95 $53.55 $60.90 $46.20 $51.45 $18.90 $19.95 $19.95 $21.00 $56.70 $63.00 $51.45 $58.80 $79.80 $85.05 $72.45 $78.75

481

Output Power

DU1PO (Single Output) DU1PO (Dual Output) ASD105 (Single Output) ASD105 (Dual Output) ASD03 (Single Output) ASD03 (Dual Output) ASD35 (Single Output) ASD35 (Dual Output) VKC03 (Single Output) VKC03 (Dual Output) ASD05 (Single Output) ASD05 (Dual Output) ASD05H (Single Output) ASD05H (Dual Output) ASD06 (Single Output) ASD06 (Dual Output) ASD07 (Single Output) ASD07 (Dual Output) ASD07H (Single Output) ASD07H (Dual Output) ASD705 (Single Output) ASD705 (Dual Output) ASD08 (Single Output) ASD08 (Dual Output) ASD10 (Single Output) ASD10 (Dual Output) ASD10H (Single Output) ASD10H(Dual Output) ASD15 (Single Output) ASD15 (Dual Output) ASD15H (Single Output) ASD15H (Dual Output)

1 1 1.5 1.5 3 3 3 3 3 3 5 5 5 5 6 6 7 7 7 7 7.5 7.5 8 8 10 10 10 10 15 15 15 15

(continued next column)

15 15 15 20 20 20 20 30 30 30 40 40 40 50 75 150

Output Power

SMV-28-500 PFC-600 PFC-650 PFC-1000

504

Price (1) Price (10) $68.25 $74.55 $75.60 $76.65 $80.85 $59.85 $61.95 $61.95 $64.05 $66.15 $110.25 $132.30 $137.55 $74.55 $98.00 $108.62

$63.00 $69.30 $70.35 $71.40 $75.60 $57.75 $59.85 $59.85 $61.95 $64.05 $93.45 $110.25 $115.50 $72.45 $73.50 $87.50

High Reliability/COTS AC/DC (continued) Series

High Density DC/DC Series

Output Power

500 600 650 1000

Price (1) Price (10) $297.50 $364.16 $397.58 $327.90

$223.13 $273.12 $298.18 $245.93

High Reliability/COTS DC/DC Series

Output Power

PV300 ASD75-Q ASD100-W NV300 ASD150-QB SV28-x-50-1 SV28-x-150-1 SV28-x-200-1 SV48-x-150-1 SV48-x-200-1 UV28 UV48 UV300 UV24-x-164 UV28-x-164 UV48-x-164 UV300-x-164 UV28-T (Triple Output) UV48-T (Triple Output) UV300-T (Triple Output) MV380 MV24-28-600 MV380-28-700

50-60 75 80-100 100-120 150 50 150 200 150 200 250-350 250-350 250-350 250-350 250-350 250-350 250-350 185 185 185 400-700 600 700

Price (1) Price (10) $266.04 $253.93 $286.37 $295.52 $129.50 $161.00 $307.03 $301.17 $ 330.46 $ 295.59 $388.72 $362.12 $325.79 $269.78 $ $308.42 $309.96 $450.82 $424.27 $411.23 $500.59 $500.59 $545.71

$199.53 $190.45 $214.78 $221.64 $97.13 $120.75 $230.28 $225.88 $247.84 $221.69 $291.54 $271.59 $244.34 $202.33 $ $231.32 $232.47 $338.12 $318.21 $308.43 $375.44 $375.44 $409.29

For items in quantities exceeding 100, please contact the Astrodyne team at 1-800-823-8082 or (508) 964-6300; or E- Mail: sales@astrodyne.com

567

Product Index Product

568

Page

Product

Page

AMP101

270

DR75/120

286

AMP1201

258

DRP480

292

AMP1501

260

DU1P0

434

AMP300

262

ECA

168

AMP500

268

EFM

AMP6301

266

EFM/M

193

ASA30

308

ELN30

ASA30M

264

ELN60

ASD

446

EMA

181

ASD03

438

FEC40

471

ASD05

452

FED20

464

ASD06

444

HLG240/H

ASD08

454

LED/LCD15

458

ASD100W

509

LPC20

ASD105

436

LPC35

ASD15/15H

456

LPC60

ASD150QB

513

LPP

124

ASD150QV

479

LPS

ASD20

466

LPV20

ASD30

468

LPV35

ASD35

440

LPV60

ASD50

474

MCA

172

ASD75EB

476

MDR

279

ASD75Q

506

367

ASDH

449

MMA

184

ASL10/15

MMK

221

ASL150

106

MP200

272

ASL365

114

MP45

207

ASL40/60

106

MPS30

204

ASM10/15

201

MV24-28-600S

544

ASM150

214

MV380 MegaVerter速

541

ASM365

215

NV300 NanoVerter速

511

ASM40/60

211

OFM20

BSL40

116

OLP48

BSL60

118

PD110

128

BSM40

217

PFC

503

BSM60

219

PLN100

CLG100

PLN30

CLG150

PMK130

137

CLG60

PMK150

152

283

PMK150E/D

372

Product Index Product

Page

Product

Page

PMK225E/D

375

SPU10

298

PMK225U

155

SPU12A

300

PMK320E/D

378

SPU131

320

PMK450E/D

381

SPU16

302

PMK450U

158

SPU20

304

PMMK130

226

SPU25A

306

PMMK150

242

SPU31

310

PMMK225

246

SPU46

312

PMMK320

249

SPU63

314

PMMK450

252

SPU68

316

PPS125

131

SPU80

318

PPT125

134

SV28 SuperVerter®

515

PQ100/PPQ1003

120

SV48 SuperVerter®

518

PS/PD/PT45

101

TS1000/1500

PS/PD/PT65

109

TS200

PS/PD25

TS400

PSP

415

TS700

PV15

335

UV24-164 MicroVerter®

527

PV300 PicoVerter®

504

UV28 MicroVerter®

521

PWC

161

UV300 MicroVerter®

538

PWC12

164

UV300-164 MicroVerter®

533

R125

360

UV48 MicroVerter®

524

R50

344

UV48-164 MicroVerter®

531

R65

348

VKC03

442

R85

354

VPU10

322

RS/RD35

340

VPU11

324

RS100

358

VPU15

326

RS150

365

VPU26

328

RS25

337

VPU40

330

RS75

352

VPU60

332

RSP1000

419

RSP1500

421

SCP

426

SDR240

289

SDR480

294

SMV-28-500

501

408

SP/QP200

401

SP/TP/QP100

389

SP/TP/QP150

396

SP/TP75

385

SP240

406

Service and Support: • Experienced Engineers ready to talk • From Stock to Distribution - JIT Shipping Schedules • Over 3,000 Models and Over 150,000 Stock Items Technical Capabilities: • Standard and Custom Product Engineering • High Volume Production and Testing • Full Ratings and Compliance – including RoHS 2002/95/AC

569

570

571

Notes

572

www.astrodyne.com

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

Notes

www.astrodyne.com

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

573

Notes

574

www.astrodyne.com

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

Notes

www.astrodyne.com

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

575

Notes

576

www.astrodyne.com

USA: 1-800-823-8082 â&#x20AC;˘ Asia Pacific: 886-2-26983458

577