IKCM15L60GDXKMA1_技术文档

Control Integrated POwer System

(CIPOS™)

IKCM15L60GD

Datasheet

Please read the Important Notice and Warnings at the end of this document

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V 2.3

www.infineon.com

2017-09-06

Control Integrated POwer System (CIPOS™)

IKCM15L60GD

Table of contents

Table of contents...................................................................................................................................................2

CIPOS™ Control Integrated POwer System............................................................................................................3

Features

..................................................................................................................................................................3

Target Applications......................................................................................................................................................3

Description ..................................................................................................................................................................3

System Configuration..................................................................................................................................................3

Pin Configuration...................................................................................................................................................4

Internal Electrical Schematic.................................................................................................................................4

Pin Assignment ......................................................................................................................................................5

Pin Description ......................................................................................................................................................5

HIN(U, V, W) and LIN(U, V, W) (Low side and high side control pins, Pin 7 - 12).........................................................5

VFO (Fault-output and NTC, Pin 14) ............................................................................................................................6

ITRIP (Over current detection function, Pin 15)..........................................................................................................6

VDD, VSS (Low side control supply and reference, Pin 13, 16)...................................................................................6

VB(U, V, W) and VS(U, V, W) (High side supplies, Pin 1 - 6)..........................................................................................6

NW, NV, NU (Low side emitter, Pin 17 - 19) .................................................................................................................6

W, V, U (High side emitter and low side collector, Pin 20 - 22) ...................................................................................6

P (Positive bus input voltage, Pin 23)..........................................................................................................................6

Absolute Maximum Ratings ...................................................................................................................................7

Module Section ............................................................................................................................................................7

Inverter Section............................................................................................................................................................7

Control Section ............................................................................................................................................................7

Recommended Operation Conditions ...................................................................................................................8

Static Parameters ..................................................................................................................................................9

Dynamic Parameters ...........................................................................................................................................10

Bootstrap Parameters .........................................................................................................................................10

Thermistor...........................................................................................................................................................11

Mechanical Characteristics and Ratings ..............................................................................................................11

Circuit of a Typical Application ............................................................................................................................12

Switching Times Definition ..................................................................................................................................13

Electrical characteristic .......................................................................................................................................14

Package Outline...................................................................................................................................................15

Revision history ...................................................................................................................................................16

Datasheet

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Control Integrated POwer System (CIPOS™)

IKCM15L60GD

CIPOS™

Control Integrated POwer System

Dual In-Line Intelligent Power Module

3Φ -bridge 600V / 15A

Description

Features

Fully isolated Dual In-Line molded module

The CIPOS™ module family offers the chance for

integrating various power and control components

to increase reliability, optimize PCB size and system

costs.



TRENCHSTOP™ IGBTs

Rugged SOI gate driver technology with stability

against transient and negative voltage

Allowable negative VS potential up to -11V for

signal transmission at VBS=15V

Integrated bootstrap functionality

Over current shutdown

It is designed to control three phase AC motors and

permanent magnet motors in variable speed drives



for applications like an air conditioning,

a



refrigerator and a washing machine. The package

concept is specially adapted to power applications,

which need good thermal conduction and electrical

isolation, but also EMI-save control and overload

protection.

Temperature monitor

Under-voltage lockout at all channels

Low side emitter pins accessible for all phase

current monitoring (open emitter)

Cross-conduction prevention

All of 6 switches turn off during protection

Lead-free terminal plating; RoHS compliant

Very low thermal resistance due to DCB

TRENCHSTOP™ IGBTs and anti parallel diodes are

combined with an optimized SOI gate driver for

excellent electrical performance.



System Configuration

Target Applications



3 half bridges with TRENCHSTOP™ IGBTs and



Home appliances

anti parallel diodes



Low power motor drives



3Φ SOI gate driver

Thermistor

Pin-to-heatsink clearance distance typ. 1.6mm

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IKCM15L60GD

Pin Configuration

Bottom View

(24) NC

(1) VS(U)

(2) VB(U)

(23) P

(22) U

(21) V

(20) W

(19) NU

(3) VS(V)

(4) VB(V)

(5) VS(W)

(6) VB(W)

(7) HIN(U)

(8) HIN(V)

(9) HIN(W)

(10) LIN(U)

(11) LIN(V)

(12) LIN(W)

(13) VDD

(14) VFO

(18) NV

(17) NW

(15) ITRIP

(16) VSS

Figure 1

Pin configuration

Internal Electrical Schematic

NC (24)

P (23)

U (22)

(1) VS(U)

(2) VB(U)

VB1

VB2

HO1

VS1

RBS1

(3) VS(V)

(4) VB(V)

HO2

VS2

RBS2

V (21)

(5) VS(W)

(6) VB(W)

HO3

VS3

VB3

W (20)

RBS3

LO1

LO2

LO3

(7) HIN(U)

(8) HIN(V)

HIN1

HIN2

NU (19)

NV (18)

NW (17)

(9) HIN(W)

(10) LIN(U)

HIN3

LIN1

(11) LIN(V)

(12) LIN(W)

(13) VDD

LIN2

LIN3

VDD

VFO

(14) VFO

(15) ITRIP

ITRIP

VSS

(16) VSS

Thermistor

Figure 2

Internal schematic

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Control Integrated POwer System (CIPOS™)

IKCM15L60GD

Pin Assignment

Pin Number

Pin Name

VS(U)

Pin Description

1

2

U-phase high side floating IC supply offset voltage

U-phase high side floating IC supply voltage

V-phase high side floating IC supply offset voltage

V-phase high side floating IC supply voltage

W-phase high side floating IC supply offset voltage

W-phase high side floating IC supply voltage

U-phase high side gate driver input

V-phase high side gate driver input

W-phase high side gate driver input

U-phase low side gate driver input

V-phase low side gate driver input

W-phase low side gate driver input

Low side control supply

VB(U)

VS(V)

VB(V)

VS(W)

VB(W)

HIN(U)

HIN(V)

HIN(W)

LIN(U)

LIN(V)

LIN(W)

VDD

VFO

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

Fault output / Temperature monitor

Over current shutdown input

ITRIP

VSS

Low side control negative supply

W-phase low side emitter

NW

NV

V-phase low side emitter

NU

U-phase low side emitter

W

Motor W-phase output

V

Motor V-phase output

U

Motor U-phase output

P

Positive bus input voltage

NC

No Connection

Pin Description

HIN(U, V, W) and LIN(U, V, W) (Low side and high

side control pins, Pin 7 - 12)

CIPOS^TM

These pins are positive logic and they are

responsible for the control of the integrated IGBT.

The Schmitt-trigger input thresholds of them are

such to guarantee LSTTL and CMOS compatibility

down to 3.3V controller outputs. Pull-down resistor

of about 5k is internally provided to pre-bias

inputs during supply start-up and a zener clamp is

provided for pin protection purposes. Input

Schmitt-trigger and noise filter provide beneficial

noise rejection to short input pulses.

Schmitt-Trigger

HINx

LINx

INPUT NOISE

FILTER

U_Z=10.5V

 5k

SWITCH LEVEL

V_IH; V_IL

VSS

Figure 3

a)

Input pin structure

b)

t_FILIN

HIN

LIN

HIN

LIN

high

The noise filter suppresses control pulses which are

below the filter time t_FILIN. The filter acts according

HO

LO

HO

LO

low

Figure 4

Input filter timing diagram

to Figure 4.

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IKCM15L60GD

It is not recommended for proper work to provide

input pulse-width lower than 1µs.

VDD, VSS (Low side control supply and reference,

Pin 13, 16)

The integrated gate drive provides additionally a

shoot through prevention capability which avoids

the simultaneous on-state of two gate drivers of the

same leg (i.e. HO1 and LO1, HO2 and LO2, HO3 and

LO3). When two inputs of a same leg are activated,

only former activated one is activated so that the

leg is kept steadily in a safe state.

VDD is the control supply and it provides power

both to input logic and to output power stage.

Input logic is referenced to VSS ground.

The under-voltage circuit enables the device to

operate at power on when a supply voltage of at

least a typical voltage of V_DDUV+= 12.1V is present.

The IC shuts down all the gate drivers power

outputs, when the VDD supply voltage is below

V_DDUV-= 10.4V. This prevents the external power

switches from critically low gate voltage levels

during on-state and therefore from excessive power

dissipation.

A minimum deadtime insertion of typically 380ns is

also provided by driver IC, in order to reduce cross-

conduction of the external power switches.

VFO (Fault-output and NTC, Pin 14)

The VFO pin indicates a module failure in case of

under voltage at pin VDD or in case of triggered

over current detection at ITRIP. A pull-up resistor is

externally required.

VB(U, V, W) and VS(U, V, W) (High side supplies, Pin

1 - 6)

VB to VS is the high side supply voltage. The high

side circuit can float with respect to VSS following

the external high side power device emitter voltage.

CIPOS^TM

VDD

VFO

R_ON,FLT

From ITRIP - Latch

Due to the low power consumption, the floating

driver stage is supplied by integrated bootstrap

circuit.

1

VSS

From UV detection

Thermistor

Figure 5

Internal circuit at pin VFO

The under-voltage detection operates with a rising

supply threshold of typical V_BSUV+= 12.1V and a

falling threshold of V_BSUV-= 10.4V.

The same pin provides direct access to the NTC,

which is referenced to VSS. An external pull-up

resistor connected to +5V ensures that the resulting

voltage can be directly connected to the

microcontroller.

VS(U, V, W) provide a high robustness against

negative voltage in respect of VSS of -50V

transiently. This ensures very stable designs even

under rough conditions.

ITRIP (Over current detection function, Pin 15)

NW, NV, NU (Low side emitter, Pin 17 - 19)

CIPOS™ provides an over current detection

The low side emitters are available for current

measurements of each phase leg. It is

recommended to keep the connection to pin VSS as

short as possible in order to avoid unnecessary

inductive voltage drops.

function by connecting the ITRIP input with the

IGBT collector current feedback. The ITRIP

comparator threshold (typ. 0.47V) is referenced to

VSS ground. An input noise filter (typ.: t_ITRIPMIN

530ns) prevents the driver to detect false over-

current events.

=

W, V, U (High side emitter and low side collector,

Pin 20 - 22)

Over current detection generates a shutdown of all

outputs of the gate driver after the shutdown

propagation delay of typically 1000ns.

These pins are motor U, V, W input pins.

P (Positive bus input voltage, Pin 23)

The fault-clear time is set to minimum 40µs.

The high side IGBTs are connected to the bus

voltage. It is noted that the bus voltage does not

exceed 450V.

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Absolute Maximum Ratings

(V_DD= 15V and T_J= 25°C, if not stated otherwise)

Module Section

Value

Description

Condition

Symbol

Unit

min

-40

max

125

Storage temperature range

Isolation test voltage

T_stg

V_ISOL

T_C

°C

V

RMS, f = 60Hz, t = 1min

Refer to Figure 6

2000

-40

-

Operating case temperature range

125

°C

Inverter Section

Description

Value

Condition

Symbol

Unit

min

600

max

-

Max. blocking voltage

I_C= 250µA

V_CES

V_PN

V

A

DC link supply voltage of P-N

DC link supply voltage (surge) of P-N

Output current

Applied between P-N

T_C= 25°C , T_J< 150°C

-

450

500

15

V_PN(surge)

I_C

-15

T_C= 25°C ,

Maximum peak output current

I_C(peak)

-30

30

A

less than 1ms

Short circuit withstand time¹

Power dissipation per IGBT

V_DC≤ 400V, T_J= 150°C

t_SC

P_tot

T_J

-

5

µs

W

58.6

150

Operating junction temperature range

-40

°C

Single IGBT thermal resistance,

junction-case

R_thJC

-

2.13

3.42

K/W

Single diode thermal resistance,

junction-case

R_thJCD

Control Section

Value

Description

Condition

Symbol

V_DD

Unit

V

min

-1

max

20

Module supply voltage

High side floating supply voltage

(VB vs. VS)

V_BS

-1

20

V

V_IN

V_ITRIP

-1

10

Input voltage

LIN, HIN, ITRIP

V

Switching frequency

f_PWM

-

20

kHz

¹Allowed number of short circuits: <1000; time between short circuits: >1s.

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IKCM15L60GD

Recommended Operation Conditions

All voltages are absolute voltages referenced to V_SS-potential unless otherwise specified.

Value

Description

Symbol

Unit

min

0

typ

-

max

400

DC link supply voltage of P-N

V_PN

V_BS

V_DD

V

High side floating supply voltage (V_Bvs. V_S)

Low side supply voltage

13.5

14.5

-

18.5

16

ΔV_BS,

ΔV_DD

-1

-

1

Control supply variation

V/µs

V_IN

V_ITRIP

0

-

5

Logic input voltages LIN, HIN, ITRIP

Between VSS - N (including surge)

V

V_SS

-5

-

5

Figure 6

T_Cmeasurement point¹

¹Any measurement except for the specified point in figure 6 is not relevant for the temperature verification and

brings wrong or different information.

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IKCM15L60GD

Static Parameters

(V_DD= 15V and T_J= 25°C, if not stated otherwise)

Value

typ

Description

Condition

Symbol

V_CE(sat)

Unit

V

min

max

I_C= 10A

Collector-Emitter saturation voltage

-

1.55

1.85

2.1

-

T_J= 25°C

150°C

I_F= 10A

Diode forward voltage

V_F

-

1.75

1.8

2.45

-

V

T_J= 25°C

150°C

Collector-Emitter leakage current

Logic "1" input voltage (LIN, HIN)

Logic "0" input voltage (LIN, HIN)

ITRIP positive going threshold

ITRIP input hysteresis

V_CE= 600V

I_CES

V_IH

-

1

2.5

-

mA

V

-

2.1

0.9

470

70

V_IL

0.7

400

40

V

V_IT,TH+

V_IT,HYS

540

-

mV

VDD and VBS supply under voltage

positive going threshold

V_DDUV+

V_BSUV+

10.8

9.5

1.0

-

12.1

10.4

1.7

13.0

11.2

-

V

VDD and VBS supply under voltage

negative going threshold

V_DDUV-

V_BSUV-

VDD and VBS supply under voltage

lockout hysteresis

V_DDUVH

V_BSUVH

V

Quiescent VB_xsupply current

(VB_xonly)

H_IN= 0V

I_QBS

300

370

500

900

µA

Quiescent VDD supply current

(VDD only)

L_IN= 0V, H_INX= 5V

I_QDD

-

Input bias current

V_IN= 5V

I_IN+

I_IN-

I_ITRIP+

I_FO

-

1

2

1.5

mA

µA

V

Input bias current

V_IN= 0V

-

ITRIP input bias current

VFO input bias current

VFO output voltage

V_ITRIP= 5V

65

60

0.5

150

VFO = 5V, V_ITRIP= 0V

I_FO= 10mA, V_ITRIP= 1V

-

V_FO

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Dynamic Parameters

(V_DD= 15V and T_J= 25°C, if not stated otherwise)

Value

typ

680

30

220

60

950

55

120

1250

530

Description

Condition

Symbol

Unit

min

max

Turn-on propagation delay time

Turn-on rise time

Turn-on switching time

Reverse recovery time

Turn-off propagation delay time

Turn-off fall time

Turn-off switching time

Short circuit propagation delay time

Input filter time ITRIP

t_on

t_r

t_c(on)

t_rr

t_off

t_f

t_c(off)

t_SCP

t_ITRIPmin

-

ns

V_{LIN, HIN}= 5V,

I_C= 10A,

V_DC= 300V

V_{LIN, HIN}= 0V,

I_C= 10A,

V_DC= 300V

From V_IT,TH+to 10% I_SC

V_ITRIP= 1V

Input filter time at LIN, HIN for turn

on and off

Fault clear time after ITRIP-fault

Deadtime between low side and high

side

Deadtime of gate drive circuit

V_{LIN, HIN}= 0V & 5V

V_ITRIP= 1V

t_FILIN

t_FLTCLR

DT_PWM

DT_IC

-

40

1.5

-

290

-

ns

µs

ns

-

380

V_DC= 300V, I_C= 10A

T_J= 25°C

150°C

V_DC= 300V, I_C= 10A

T_J= 25°C

150°C

V_DC= 300V, I_C= 10A

T_J= 25°C

IGBT turn-on energy (includes reverse

recovery of diode)

E_on

E_off

E_rec

-

400

490

-

µJ

IGBT turn-off energy

-

190

290

-

Diode recovery energy

-

55

70

-

150°C

Bootstrap Parameters

(T_J= 25°C, if not stated otherwise)

Value

typ

-

Description

Condition

Symbol

V_RRM

Unit

V

min

600

max

-

Repetitive peak reverse voltage

VS2 or VS3 = 300V, T_J= 25°C

VS2 and VS3 = 0V, T_J= 25°C

VS2 or VS3 = 300V, T_J= 125°C

VS2 and VS3 = 0V, T_J= 125°C

I_F= 0.6A, di/dt = 80A/µs

35

40

50

65

Bootstrap diode resistance of

U-phase¹

R_BS1

-

Ω

Reverse recovery time

Forward voltage drop

t_{rr_BS}

V_{F_BS}

-

50

2.6

-

ns

V

I_F= 20mA, VS2 and VS3 = 0V

¹R_BS2and R_BS3have same values to R_BS1

Datasheet

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Thermistor

Value

typ

Description

Condition

T_NTC= 25°C

Symbol

R_NTC

Unit

k

K

min

-

max

-

Resistor

85

B-constant of NTC

(Negative Temperature Coefficient)

B(25/100)

-

4092

-

3500

35

Min.

Typ.

3000

30

Max.

25

2500

20

15

2000

10

1500

5

0

50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130

1000

500

0

Thermistor temperature [℃]

-40 -30 -20 -10

0

10 20 30 40 50 60 70 80 90 100 110 120 130

Thermistor temperature [℃]

Figure 7

Thermistor resistance – temperature curve and table

(For more information, please refer to the application note ‘AN2016-10 CIPOS Mini Technical description’)

Mechanical Characteristics and Ratings

Value

typ

Description

Condition

Unit

min

0.49

-50

-

max

Mounting torque

M3 screw and washer

Refer to Figure 8

-

0.78

100

-

Nm

µm

g

Flatness

Weight

6.58

Figure 8

Flatness measurement position

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Circuit of a Typical Application

NC (24)

P (23)

(1) VS(U)

(2) VB(U)

HO1

VS1

VB1

RBS1

U (22)

(3) VS(V)

(4) VB(V)

#4

HO2

VS2

VB2

V (21)

RBS2

3-ph AC

Motor

(5) VS(W)

(6) VB(W)

HO3

VS3

VB3

W (20)

RBS3

#5

#1

(7) HIN(U)

(8) HIN(V)

HIN1

LO1

LO2

LO3

HIN2

NU (19)

(9) HIN(W)

(10) LIN(U)

HIN3

LIN1

(11) LIN(V)

(12) LIN(W)

LIN2

LIN3

Micro

Controller

#7

#6

NV (18)

(13) VDD

(14) VFO

Power

GND line

VDD

VFO

VDD line

(15) ITRIP

(16) VSS

ITRIP

VSS

5 or 3.3V line

NW (17)

Thermistor

#3

U-phase current sensing

V-phase current sensing

Temperature monitor

#2

W-phase current sensing

Figure 9

Typical application circuit

1. Input circuit

-

To reduce input signal noise by high speed switching, the R_INand C_INfilter circuit should be mounted. (100Ω, 1nF)

C_INshould be placed as close to V_SSpin as possible.

2. Itrip circuit

-

To prevent protection function errors, C_ITRIPshould be placed as close to Itrip and V_SSpins as possible.

3. VFO circuit

-

VFO output is an open drain output. This signal line should be pulled up to the positive side of the 5V/3.3V logic

power supply with a proper resistor R_PU

It is recommended that RC filter be placed as close to the controller as possible.

.

-

4. VB-VS circuit

-

Capacitor for high side floating supply voltage should be placed as close to VB and VS pins as possible.

5. Snubber capacitor

-

The wiring between CIPOS™ Mini and snubber capacitor including shunt resistor should be as short as possible.

6. Shunt resistor

-

The shunt resistor of SMD type should be used for reducing its stray inductance.

7. Ground pattern

-

Ground pattern should be separated at only one point of shunt resistor as short as possible.

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Switching Times Definition

HINx

2.1V

LINx

0.9V

t_rr

t_off

t_on

10%

i_Cx

90%

t_f

t_r

10%

v_CEx

t_c(on)

t_c(off)

Figure 10 Switching times definition

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Electrical characteristic

30

27

24

21

18

15

12

9

30

27

24

21

18

15

12

9

30

27

24

21

18

15

12

9

VDD=15V

T_J=25℃

VDD=15V

VDD=20V

T_J=25℃

T_J=150℃

T_J=25℃

T_J=150℃

6

3

0

0.0

0

0.0

0

0.0

0.5

1.0

1.5

2.0

2.5

3.0

3.5

4.0

0.5

1.0

1.5

2.0

2.5

3.0

3.5

4.0

0.5

1.0

1.5

2.0

2.5

3.0

3.5

VCE(sat), Collector - Emitter voltage [V]

V , Emitter - Collector voltage [V]

F

Typ. Collector – Emitter saturation

Typ. Diode forward voltage

voltage

200

180

160

140

120

100

80

4.5

1.0

VDC=300V

VDD=15V

VDC=300V

VDD=15V

High side @T_J=25℃

0.9

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0.0

High side @T_J=150℃

0.8

High side @T_J=25℃

High side @T_J=150℃

Low side @T_J=25℃

Low side @T_J=150℃

Low side @T_J=25℃

Low side @T_J=150℃

0.7

High side @T_J=25℃

High side @T_J=150℃

Low side @T_J=25℃

Low side @T_J=150℃

0.6

0.5

0.4

0.3

0.2

60

40

20

0.1

0.0

VDC=300V

VDD=15V

0

3

6

9

12

15

18

21

Ic, Collector current [A]

24

27

30

0

3

6

9

Ic, Collector current [A]

12

15

18

21

24

27

30

0

3

6

9

Ic, Collector current [A]

12

15

18

21

24

27

30

Typ. Reverse recovery energy loss

Typ. Turn on switching energy loss

Typ. Turn off switching energy loss

1500

900

800

VDC=300V

VDD=15V

VDC=300V

VDD=15V

VDC=300V

VDD=15V

870

840

810

780

750

720

690

660

630

600

1400

1300

1200

1100

1000

900

700

High side @T_J=25℃

High side @T_J=150℃

Low side @T_J=25℃

Low side @T_J=150℃

High side @T_J=25℃

High side @T_J=150℃

Low side @T_J=25℃

Low side @T_J=150℃

600

High side @T_J=150℃

Low side @T_J=25℃

500

Low side @T_J=150℃

400

300

200

100

0

800

700

0

3

6

9

12

15

18

21

Ic, Collector current [A]

24

27

30

0

3

6

9

Ic, Collector current [A]

12

15

18

21

24

27

0

3

6

9

Ic, Collector current [A]

12

15

18

21

24

27

Typ. Turn off propagation delay time

Typ. Turn on propagation delay time

Typ. Turn on switching time

10

450

500

450

400

350

300

250

200

150

100

50

VDC=300V

VDD=15V

VDC=300V

VDD=15V

400

1

High side @T_J=25℃

High side @T_J=150℃

Low side @T_J=25℃

Low side @T_J=150℃

350

300

High side @T_J=25℃

D : duty ratio

0.1

D=50%

D=20%

D=10%

High side @T_J=150℃

250

Low side @T_J=25℃

Low side @T_J=150℃

0.01

D=5%

D=2%

Single pulse

200

150

100

50

1E-3

0

1E-4

0

3

6

9

Ic, Collector current [A]

12

15

18

21

24

27

0

3

6

9

Ic, Collector current [A]

12

15

18

21

24

27

1E-7 1E-6 1E-5 1E-4 1E-3 0.01 0.1

t_P, Pulse width [sec.]

1

10 100

Typ. Turn off switching time

Typ. Reverse recovery time

IGBT transient thermal resistance at

all six IGBTs operation

Datasheet

14 of 17

V 2.3

2017-09-06

Control Integrated POwer System (CIPOS™)

IKCM15L60GD

Package Outline

Datasheet

15 of 17

V 2.3

2017-09-06

Control Integrated POwer System (CIPOS™)

IKCM15L60GD

Revision history

Document

version

Date of release

Description of changes

Maximum operating case temperature, Tc= 125°C

V 2.3

Sep. 2017

Package outline update

Datasheet

16 of 17

V 2.3

2017-09-06

Trademarks

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IMPORTANT NOTICE

The information given in this document shall in no For further information on the product, technology,

Edition 2017-09-06

event be regarded as a guarantee of conditions or delivery terms and conditions and prices please

Published by

characteristics (“Beschaffenheitsgarantie”) .

contact your nearest Infineon Technologies office

(www.infineon.com).

Infineon Technologies AG

81726 München, Germany

With respect to any examples, hints or any typical

values stated herein and/or any information Please note that this product is not qualified

regarding the application of the product, Infineon according to the AEC Q100 or AEC Q101 documents

Technologies hereby disclaims any and all of the Automotive Electronics Council.

warranties and liabilities of any kind, including

without limitation warranties of non-infringement

of intellectual property rights of any third party.

WARNINGS

Due to technical requirements products may

contain dangerous substances. For information on

the types in question please contact your nearest

Infineon Technologies office.

Do you have a question about this

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In addition, any information given in this document

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applicable legal requirements, norms and

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use of the product of Infineon Technologies in

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Email: erratum@infineon.com

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Technologies, Infineon Technologies’ products may

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型号：	IKCM15L60GDXKMA1
厂家：	Infineon
描述：	AC Motor Controller, 40A, PDMA24, DIP-24 电动机控制光电二极管
文件：	总17页 (文件大小：1271K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

IKCM15L60GDXKMA1 [INFINEON]

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