Powerex CM600DXL-24S Data Sheet

CM600DXL-24S

A

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

B

Es2
(47)G2(46)

D

AM

C

E

F

AL

X(4 PLACES)

DETAIL "A"

Cs2
(42)

C2E1 (33)

C2E1 (32)

M

40

39

38

37

36

S

35

T

34

33

U

PQRNC

32

31

30

H

29

28

AW

Tolerance Otherwise Specified (mm)

Division of Dimension Tolerance

0.5 to 3 ±0.2
over 3 to 6 ±0.3
over 6 to 30 ±0.5
over 30 to 120 ±0.8
over 120 to 400 ±1.2

The tolerance of size between
terminals is assumed to ±0.4

AM

AK

AG

AF

AC

G

J

K

K

L

Y

Z

AAFED

Z

AB

AD

H

AC

C1(1)

C1(2)

E2(3)

E2(4)

L

Es1

TH2

(62)G1(61)

(57)

Tr1Tr2

Di1Di2

AM AM

AT

AU AU AV AU

63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41

AE

1

2

V

3

W(6 PLACES)

4

56789101112131415161718192021222324252627

DETAIL "B"

TH1

Cs1

Th

(56)

(52)

NTC

Outline Drawing and Circuit Diagram

Dimensions Inches Millimeters

A 5.98 152.0

B 5.39 137.0

C 4.79 121.7

D 4.61 117.2

E 4.33±0.02 110.0±0.5

F 3.72 94.5

G 0.6 1

H 0.26 6.5

J 0.53 13.5

K 0.14 3.6

L 0.3 7

M

0.016 4.05

N 1.53 39.0

P 0.86 22.0

Q 1.95 49.72

R 1.62 41

S

0.83 21.1

T 0.23 6.0

U 0.47 1

V

W M6 Metric M6

0.41 10.53

X 0.22 Dia. 5.5 Dia.

Y 0.75 1

4

5.1

.75

.22

4

2.0

9.24

Dimensions Inches Millimeters

Z 0.86 22.0

AA 1.08 27.53

AB

AC 0.51 1

AD

AE 0.42 1

AF 0.67+0.04/-0.02 17.0+1.0/-0.5

AG 0.81 20.5

AH 0.29 7

AJ

AK

AL 0.04 1

AM 0.15 3.81

AN 0.5 1

AP

AQ 0.088 Dia. 2.25 Dia.

AR 0.102 Dia. 2.6 Dia.

AS 0.16 Dia. 4.3 Dia.

AT 0.67 1

A

U 0.6 15.24

A

V 0.75 19.05

A

W 0.27 7.0

0.14 3.5

0.19 3.0

0.05 1.2

0.02 0.65

0.12 3.0

AH

DETAIL "A"

AP

AN

DETAIL "B"

AS
AR

AJ

3.0

0.7

2.5

6.9

Dual IGBT
NX-Series Module

600 Amperes/1200 Volts

AQ

4

.4

5

.1

Description:

Powerex IGBT Modules are
designed for use in switching
applications. Each module
consists of two IGBT Transistors
in a half-bridge configuration with
each transistor having a reverse­connected super-fast recovery
free-wheel diode. All components
and interconnects are isolated from
the heat sinking baseplate, offering
simplified system assembly and
thermal management.

Features:

£ Low Drive Power
£ Low V

CE(sat)

£ Discrete Super-Fast Recovery

Free-Wheel Diode

£ Isolated Baseplate for Easy

Heat Sinking

Applications:

£ AC Motor Control
£ Motion/Servo Control
£ Photovoltaic/Fuel Cell

Ordering Information:

Example: Select the complete
module number you desire from
the table below -i.e.
CM600DXL-24S is a 1200V
(V

), 600 Ampere Dual

CES

IGBT Power Module.

Type Current Rating
Amperes Volts (x 50)

CM 600 24

V

CES

105/13 Rev. 6

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

Absolute Maximum Ratings, Tj = 25°C unless otherwise specied

Inverter Part IGBT/FWDi

Characteristics Symbol Rating Units

Collector-Emitter Voltage (VGE = 0V) V

Gate-Emitter Voltage (VCE = 0V) V

Collector Current (DC, TC = 119°C)

*2,*4

IC 600 Amperes

Collector Current (Pulse)*3 I

Total Power Dissipation (TC = 25°C)

*2,*4

P

Emitter Current (TC = 25°C)*2 I

Emitter Current (Pulse)*3 I

1200 Volts

CES

±20 Volts

GES

1200 Amperes

CRM

4545 Watts

tot

*1

600 Amperes

E

*1

1200 Amperes

ERM

Module

Characteristics Symbol Rating Units

Isolation Voltage (Terminals to Baseplate, RMS, f = 60Hz, AC 1 minute) V

Maximum Junction Temperature, Instantaneous Event (Overload) T

Maximum Case Temperature*4 T

Operating Junction Temperature, Continuous Operation (Under Switching) T

Storage Temperature T

*1 Represent ratings and characteristics of the anti-parallel, emitter-to-collector free wheeling
diode (FWDi).
*2 Case temperature (TC) and heatsink temperature (Ts) is measured on the surface
(mounting side) of the baseplate and the heatsink side just under the chips.
Refer to the figure to the right for chip location.
The heatsink thermal resistance should be measured just under the chips.
*3 Pulse width and repetition rate should be such that device junction temperature (Tj)
does not exceed T
*4 Junction temperature (Tj) should not increase beyond maximum junction
temperature (T

j(max)

j(max)

) rating.

rating.

20.9

32.6

46.0

72.6

86.0

2500 Volts

ISO

175 °C

j(max)

125 °C

C(max)

-40 to +150 °C

j(op)

-40 to +125 °C

stg

27.257.681.898.6

0

Th

Tr1

Tr1

Di1

Tr2

Di2

Tr1

Di1

Di1

Tr2

Tr2

Di2

Di2

0

0

26.4

40.0

72.2

85.8

LABEL SIDE

93.9 53.2 22.9

Tr1 / Tr2: IGBT, Di1 / Di2: FWDi, Th: NTC Thermistor
Each mark points to the center position of each chip.

0

2 05/13 Rev. 6

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

Electrical Characteristics, Tj = 25°C unless otherwise specied

Inverter Part IGBT/FWDi

Characteristics Symbol Test Conditions Min. Typ. Max. Units

Collector-Emitter Cutoff Current I

Gate-Emitter Leakage Current I

Gate-Emitter Threshold Voltage V

Collector-Emitter Saturation Voltage V

(Terminal) IC = 600A, VGE = 15V, Tj = 125°C*5 — 2.05 — Volts

IC = 600A, VGE = 15V, Tj = 150°C*5 — 2.10 — Volts

Collector-Emitter Saturation Voltage V

(Chip) IC = 600A, VGE = 15V, Tj = 125°C*5 — 1.90 — Volts

IC = 600A, VGE = 15V, Tj = 150°C*5 — 1.95 — Volts

Input Capacitance C

Output Capacitance C

Reverse Transfer Capacitance C

Gate Charge QG VCC = 600V, IC = 600A, VGE = 15V — 1400 — nC

Turn-on Delay Time t

Rise Time tr VCC = 600V, IC = 600A, VGE = ±15V, — — 200 ns

Turn-off Delay Time t

Fall Time tf — — 300 ns

Emitter-Collector Voltage V

(Terminal) IE = 600A, VGE = 0V, Tj = 125°C*5 — 1.85 — Volts

IE = 600A, VGE = 0V, Tj = 150°C*5 — 1.85 — Volts

Emitter-Collector Voltage V

(Chip) IE = 600A, VGE = 0V, Tj = 125°C*5 — 1.70 — Volts

IE = 600A, VGE = 0V, Tj = 150°C*5 — 1.70 — Volts

Reverse Recovery Time t

Reverse Recovery Charge Q

Turn-on Switching Energy per Pulse Eon VCC = 600V, IC = IE = 600A, VGE = ±15V — 20.3 — mJ

Turn-off Switching Energy per Pulse E

Reverse Recovery Energy per Pulse E

Internal Lead Resistance R

Per Switch,TC = 25°C

Internal Gate Resistance rg Per Switch — 3.3 — Ω

*1 Represent ratings and characteristics of the anti-parallel, emitter-to-collector free wheeling
diode (FWDi).
*2 Case temperature (TC) and heatsink temperature (Ts) is measured on the surface
(mounting side) of the baseplate and the heatsink side just under the chips.
Refer to the figure to the right for chip location.
The heatsink thermal resistance should be measured just under the chips.
*5 Pulse width and repetition rate should be such as to cause negligible temperature rise.

VCE = V

CES

VGE = V

GES

IC = 60mA, VCE = 10V 5.4 6.0 6.6 Volts

GE(th)

IC = 600A, VGE = 15V, Tj = 25°C*5 — 1.85 2.30 Volts

CE(sat)

IC = 600A, VGE = 15V, Tj = 25°C*5 — 1.70 2.15 Volts

CE(sat)

— — 60 nF

ies

VCE = 10V, VGE = 0V — — 12 nF

oes

— — 1.0 nF

res

— — 800 ns

d(on)

RG = 0Ω, Inductive Load — — 600 ns

d(off)

*1

IE = 600A, VGE = 0V, Tj = 25°C*5 — 1.85 2.30 Volts

EC

*1

IE = 600A, VGE = 0V, Tj = 25°C*5 — 1.70 2.15 Volts

EC

*1

VCC = 600V, IE = 600A, VGE = ±15V — — 300 ns

rr

*1

RG = 0Ω, Inductive Load — 32 — µC

rr

RG = 0Ω, Tj = 150°C — 60.1 — mJ

off

*1

Inductive Load — 69.2 — mJ

rr

CC' + EE'

Main Terminals-Chip, — — 0.8 mΩ

, VGE = 0V — — 1.0 mA

CES

, VCE = 0V — — 0.5 µA

GES

*2

27.257.681.898.6
0

Tr1

Di1

20.9

32.6

46.0

0

Th

Tr1

Di1

Tr1

Di1

0

26.4

40.0

72.6

86.0

Tr2

Di2

LABEL SIDE

93.9 53.2 22.9

Tr1 / Tr2: IGBT, Di1 / Di2: FWDi, Th: NTC Thermistor
Each mark points to the center position of each chip.

Tr2

Di2

Tr2

Di2

72.2

85.8

0

305/13 Rev. 6

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

Electrical Characteristics, Tj = 25°C unless otherwise specied (continued)

NTC Thermistor Part

Characteristics Symbol Test Conditions Min. Typ. Max. Units

Zero Power Resistance R25 TC = 25°C*2 4.85 5.00 5.15 kΩ

Deviation of Resistance ∆R/R TC = 100°C*2, R

B Constant B

Approximate by Equation*6 — 3375 — K

(25/50)

= 493Ω -7.3 — +7.8 %

100

Power Dissipation P25 TC = 25°C*4 — — 10 mW

Thermal Resistance Characteristics

Thermal Resistance, Junction to Case*2 R

Thermal Resistance, Junction to Case*2 R

Contact Thermal Resistance, R

Case to Heatsink*2 Per 1 Module

Q Per Inverter IGBT — — 33 K/kW

th(j-c)

D Per Inverter FWDi — — 63 K/kW

th(j-c)

Thermal Grease Applied, — 7 — K/kW

th(c-f)

*7

Mechanical Characteristics

Mounting Torque Mt Main Terminals, M6 Screw 31 35 40 in-lb

Mounting Torque Ms Mounting to Heatsink, M5 Screw 22 27 31 in-lb

Creepage Distance ds Terminal to Terminal 13.2 — — mm

Terminal to Baseplate 15.3 — — mm

Clearance da Terminal to Terminal 13.2 — — mm

Terminal to Baseplate 14.8 — — mm

Weight m — 690 — Grams

Flatness of Baseplate ec On Centerline X, Y*8 ±0 — ±100 µm

Recommended Operating Conditons, Ta = 25°C

DC Supply Voltage VCC Applied Across C1-E2 Terminals — 600 850 Volts

Gate-Emitter Drive Voltage V

G1-Es1/G2-Es2 Terminals

External Gate Resistance RG Per Switch 0 — 6.8 Ω

*2 Case temperature (TC) and heatsink temperature (Ts) is measured on the surface
(mounting side) of the baseplate and the heatsink side just under the chips.
Refer to the figure to the right for chip location.
The heatsink thermal resistance should be measured just under the chips.

*6 B

(25/50)

R

R25; Resistance at Absolute Temperature T25 [K]; T25 = 25 [°C] + 273.15 = 298.15 [K]
R50; Resistance at Absolute Temperature T50 [K]; T50 = 50 [°C] + 273.15 = 323.15 [K]
*7 Typical value is measured by using thermally conductive grease of λ = 0.9 [W/(m • K)].
*8 Baseplate (mounting side) flatness measurement points (X, Y) are shown in the figure below.

4 05/13 Rev. 6

= In(

R

25

)/( 1 –

50 T25 T50

MOUNTING SIDE

LABEL SIDE

1

)

+ : CONVEX

– : CONCAVE

X

Y

MOUNTING SIDE

– : CONCAVE

+ : CONVEX

Applied Across 13.5 15.0 16.5 Volts

GE(on)

27.257.681.898.6
0

Tr1

Di1

Tr2

Di2

0

20.9

32.6

46.0

72.6

86.0

0

Th

Tr1

Di1

Di2

LABEL SIDE

93.9 53.2 22.9

Tr1 / Tr2: IGBT, Di1 / Di2: FWDi, Th: NTC Thermistor
Each mark points to the center position of each chip.

Tr1

Di1

Tr2

Tr2

Di2

0

26.4

40.0

72.2

85.8

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

OUTPUT CHARACTERISTICS

(TYPICAL)

1200

VGE = 20V

15

1000

800

, (AMPERES)

C

13.5

600

400

200

COLLECTOR CURRENT, I

0

0 2 4 6 8 10

COLLECTOR-EMITTER VOLTAGE, VCE, (VOLTS)

COLLECTOR-EMITTER

SATURATION VOLTAGE CHARACTERISTICS

(TYPICAL)

10

8

, (VOLTS)

CE(sat)

6

IC = 1200A

IC = 600A

Tj = 25°C

12

11

10

9

Tj = 25°C

SATURATION VOLTAGE CHARACTERISTICS

3.5

VGE = 15V

3.0

Tj = 25°C
T

, (VOLTS)

CE(sat)

2.5

T

2.0

1.5

1.0

COLLECTOR-EMITTER

0.5

SATURATION VOLTAGE, V

0

0

COLLECTOR-CURRENT, IC, (AMPERES)

FORWARD CHARACTERISTICS

4

10

VGE = 15V

Tj = 25°C
T

3

10

, (AMPERES)

E

T

COLLECTOR-EMITTER

(TYPICAL)

= 125°C

j

= 150°C

j

FREE-WHEEL DIODE

(TYPICAL)

= 125°C

j

= 150°C

j

12001000800600400200

4

COLLECTOR-EMITTER

2

SATURATION VOLTAGE, V

0

6 8 10 1412 16 18 20

GATE-EMITTER VOLTAGE, V

IC = 240A

, (VOLTS)

GE

2

10

EMITTER CURRENT, I

1

10

0 0.5 1.0 1.5 2.0 2.5 3.0

EMITTER-COLLECTOR VOLTAGE, V

, (VOLTS)

EC

505/13 Rev. 6

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

3

10

, (nF)

10

res

, C

oes

, C

ies

10

10

CAPACITANCE, C

10

VGE = 0V

2

1

0

-1

-1

10

COLLECTOR-EMITTER VOLTAGE, VCE, (VOLTS)

SWITCHING CHARACTERISTICS

3

10

2

10

CAPACITANCE VS. V

(TYPICAL)

0

10

10

HALF-BRIDGE

(TYPICAL)

t

d(off)

t

d(on)

t

f

1

CE

C

C

C

ies

oes

res

10

SWITCHING CHARACTERISTICS

HALF-BRIDGE

(TYPICAL)

3

10

t

d(off)

t

d(on)

t

f

2

10

10

1

10

VCC = 600V
V

= ±15V

GE

R

= 0Ω

G

T

= 125°C

j

Inductive Load

1

COLLECTOR CURRENT, I

SWITCHING TIME, (ns)

2

10

t

r

2

C

, (AMPERES)

10

3

SWITCHING TIME VS.

GATE RESISTANCE

(TYPICAL)

10

10

4

, (ns)

d(on)

3

, (ns)

d(off)

, t

f

, t

r

10

10

3

t

d(off)

t

f

t

2

t

d(on)

r

VCC = 600V
V

= ±15V

GE

I

= 600A

C

T

= 125°C

j

Inductive Load

1

10

10

10

2

SWITCHING TIME, t

2

10

1

10

VCC = 600V
V

= ±15V

GE

R

= 0Ω

G

T

= 150°C

j

Inductive Load

1

COLLECTOR CURRENT, I

SWITCHING TIME, (ns)

6 05/13 Rev. 6

10

t

r

2

, (AMPERES)

C

10

SWITCHING TIME, t

1

10

3

-1

10

EXTERNAL GATE RESISTANCE, RG, (Ω)

10

0

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

SWITCHING TIME VS.

3

10

, (ns)

d(off)

, t

f

, t

r

2

10

SWITCHING TIME, t

1

10

-1

10

EXTERNAL GATE RESISTANCE, RG, (Ω)

REVERSE RECOVERY CHARACTERISTICS

3

10

(ns)

rr

(A), t

rr

2

10

REVERSE RECOVERY, I

1

10

1

10

EMITTER CURRENT, I

GATE RESISTANCE

(TYPICAL)

t

d(off)

t

f

t

r

t

d(on)

VCC = 600V
V

GE

I

C

T

= 150°C

j

Inductive Load

10

0

10

1

(TYPICAL)

VCC = 600V
V

GE

R

G

T

= 150°C

j

Inductive Load

2

10

, (AMPERES)

E

= ±15V

= 600A

= ±15V

= 0Ω

I

rr

t

rr

10

10

10

10

10

2

3

4

(ns)

rr

, (ns)

(A), t

rr

d(on)

3

SWITCHING TIME, t

REVERSE RECOVERY, I

2

, (VOLTS)

GE

GATE-EMITTER VOLTAGE, V

REVERSE RECOVERY CHARACTERISTICS

(TYPICAL)

3

10

2

10

VCC = 600V
V

= ±15V

GE

R

= 0Ω

G

T

= 125°C

j

Inductive Load

1

10

10

1

EMITTER CURRENT, IE, (AMPERES)

GATE CHARGE VS. V

10

2

GE

20

IC = 600A
V

= 600V

CC

16

12

8

4

0

0

500 1000 1500 2000

GATE CHARGE, QG, (nC)

I

rr

t

rr

3

10

705/13 Rev. 6

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

HALF-BRIDGE SWITCHING

CHARACTERISTICS (TYPICAL)

2

10

, (mJ)

rr

, (mJ)

off

, E

on

10

SWITCHING ENERGY, E

REVERSE RECOVERY ENERGY, E

10

1

0

V

= 600V

CC

V

= ±15V

GE

R

= 0Ω

G

T

= 125°C

j

E

on

E

off

E

rr

1

10

COLLECTOR CURRENT, IC, (AMPERES)

EMITTER CURRENT, IE, (AMPERES)

HALF-BRIDGE SWITCHING

CHARACTERISTICS (TYPICAL)

3

10

10

HALF-BRIDGE SWITCHING

CHARACTERISTICS (TYPICAL)

2

10

VCC = 600V
V

= ±15V

GE

R

, (mJ)

rr

, (mJ)

off

, E

on

1

10

SWITCHING ENERGY, E

REVERSE RECOVERY ENERGY, E

0

2

10

3

10

= 0Ω

G

T

= 150°C

j

E

on

E

off

E

rr

1

10

COLLECTOR CURRENT, IC, (AMPERES)

EMITTER CURRENT, IE, (AMPERES)

10

2

10

3

HALF-BRIDGE SWITCHING

CHARACTERISTICS (TYPICAL)

10

2

10

3

10

2

, (mJ)

off

2

, E

10

on

1

10

SWITCHING ENERGY, E

0

10

-1

10

GATE RESISTANCE, RG, (Ω)

10

, (mJ)

rr

, (mJ)

off

1

10

V

= 600V

CC

V

= ±15V

GE

I

= 600A

C/IE

T

= 125°C

j

E

on

E

off

E

rr

0

10

1

10

10

10

2

0

REVERSE RECOVERY ENERGY, E

-1

2

, E

10

on

1

10

SWITCHING ENERGY, E

0

10

-1

10

GATE RESISTANCE, RG, (Ω)

10

= 600V

V

CC

V

= ±15V

GE

I

= 600A

C/IE

T

= 150°C

j

E

on

E

off

E

rr

0

10

1

10

, (mJ)

rr

1

10

0

10

REVERSE RECOVERY ENERGY, E

-1

10

2

8 05/13 Rev. 6

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272

CM600DXL-24S
Dual IGBT NX-Series Module

600 Amperes/1200 Volts

TRANSIENT THERMAL

IMPEDANCE CHARACTERISTICS

(MAXIMUM)

0

th(j-c')

10

-1

10

Single Pulse
T

= 25°C

C

Per Unit Base =
R

=

• (NORMALIZED VALUE)

-2

10

th

= R

th

Z

th(j-c)

33°K/kW
(IGBT)
R

=

th(j-c)

63°K/kW
(FWDi)

-3

10

NORMALIZED TRANSIENT THERMAL IMPEDANCE, Z

10

-5

10

-3

-4

10

10-210-110010

TIME, (s)

1

905/13 Rev. 6