SEMISTACK SEMIKRON SKS 22F

SEMISTACK - IGBT Circuit B6CI

Irms 22

Vac (Vdc) 380 750 -

Symbol Irms max Tamb = 35 °C

SEMITOP Stack

1)

Three-phase inverter SKS 22F B6U+E1CIF+B6CI 13 V12

SK 30 GB 128 SK 30 GAL 123 SK 95 D 12 P 35/260F

Vcemax fswmax fswmaxCsl C Ceqvl Tds% VDCmax Rectifier Vnetmax Tvj Tstg Tamb Visol w Cooling

SKHI 20opA Preliminary Data

Features • • • • •

Compact design Hall Effect Current Sensor Circuit for soft charge the capacitors IGBT Braking chopper Vce monitoring

Typical Applications • AC Motor Control • Elevator • Industrial

Losses Current sensor Thermal trip Others components

Types SKS 22F B6U+E1CIF+B6CI 13 V12

-

Conditions No overload; 10 kHz 150% overload, 60s every 10min (Iov/IN) 200% overload, 10s every 10min (Iov/IN) Absolute maximum switching frequency Advise maximum switching frequency Type EPCOS B43303A0687 Equivalent capacitor bank Discharge time of the capacitor bank Max DC voltage applied to capacitor bank

Values 22 27/18 30/15 1200 15 6 680/400 1360/800 240 750 380

-20%/+15% Max network voltage (line side) Junction temperature for continous operation -40…+125 without requirement of reforming of capacitors -20…+40

normally closed Relay Metaltex J1NAC3

A A A V kHz kHz µF/V µF/V s V Vac

2500 5.5 24 0.11 42.5 300 97

ºC ºC ºC V Kg V A 3 m /h W %

71

ºC

-20…+55

60Hz/1min Aprox. total weight Fan, DC power supply Current Consumption (per fan) Required air flow (per fan) B6CI , Converter at Pmax, Tamb= 35 ºC Efficiency Hall-type LEM LAH 25-NP

Units

Options

Tests

Functional Test Short Circuit Test Visual Inspection -

1) Photo non- contractual

B6U+E1CIF+B6CI

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Power Electronics Systems - SEMISTACK

10/7/2007

© by SEMIKRON

SEMISTACK - IGBT Dimensions in mm

Stack design may vary depending upon the version. Please contact SEMIKRON for further details

Electrical Data

2

Power Electronics Systems - SEMISTACK

10/7/2007

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SEMISTACK - IGBT Connectors Connector Pin

Symbol

Description

Values min.

CN1:1 CN1:2 CN1:3 CN1:4 CN1:5 CN1:6 CN1:7 CN1:8 CN1:9 CN1:10

TOP W ER W BOT W GND Vin(BRK) ER BRK +Vs +Vs GND GND

Top phase W input signal Vce phase W error output signal Bot phase W input signal Ground Break input signal Vce Break error output signal Supply voltage Supply voltage Ground Ground

CN2:1 CN2:2 CN2:3 CN2:4 CN2:5 CN2:6 CN2:7 CN2:8 CN2:9 CN2:10 CN2:11 CN2:12 CN2:13 CN2:14

TOP U ER U BOT U GND TOP V ER V BOT V GND +Vs +Vs GND GND

Top phase U input signal Vce phase U error output signal Bot phase U input signal Ground Top phase V input signal Vce phase V error output signal Bot phase V input signal Ground Supply voltage Supply voltage Ground Ground NC NC

CN3:1 CN3:2 CN3:3 CN3:4 CN3:5 CN3:6 CN3:7 CN3:8 CN3:9 CN3:10

+15V -15V GND HALL U HALL V

Supply Voltage (positive) Supply Voltage (negative) Ground Output Hall phase U Output Hall phase V NC Ground Supply Voltage (positive) Supply Voltage (negative)

14,5 -14,5

CN4:1 CN4:2 CN4:3 CN4:4 CN4:5 CN4:6 CN4:7 CN4:8 CN4:9 CN4:10 CN4:11 CN4:12

R S T (+) (-)

Input Phase R Input Phase S Input Phase T Positive FAN Power Supply Reference FAN Power Supply NC Output U Inverter Phase Output V Inverter Phase Output W Inverter Phase DC Link Negative Break Resistor Input DC Link Positive Reference and Break Resistor Input

176 176 176

K1:1 K1:2 K1:3 K1:4

GND +15V -15V

U V W -UD BR +UD/BR

CIS GND

NC Charge Input Signal Ground NC

typical

Units max.

0/15 (CMOS) 0/15 (CMOS) 0/15 (CMOS) 0 0/15 (CMOS) 0/15 (CMOS) 14,0 14,0

15,6 15,6 0 0

14,0 14,0

0/15 (CMOS) 0/15 (CMOS) 0/15 (CMOS) 0 0/15 (CMOS) 0/15 (CMOS) 0/15 (CMOS) 0 15 15 0 0

15 -15 0

0 15 -15

14,5 -14,5

0

15,6 15,6

15,5 -15,5

15,5 -15,5

V V V V V V V V V V V V V V V V V V V V V V

V V V

V V V

220 220 220 24

253 253 253

V V V V

220 220 220

253 253 253

V V V

0/18 0

26,5

V V

This technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee expressed or implied is made regarding delivery, performance or suitability.

3

Power Electronics Systems - SEMISTACK

10/7/2007

Š by SEMIKRON