C&H Technology CM150DX-24A User Manual

CM150DX-24A
Dual IGBTMOD™ NX-Series Module
150 Amperes/1200 Volts

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

3

Rev. 3/09

Electrical and Mechanical Characteristics,

T

j

= 25°C unless otherwise specified

Inverter Sector

Characteristics

Symbol

Test Conditions

Min.

Typ.

Max.

Units

Collector Cutoff Current

I

CES

V

CE

= V

CES

, V

GE

= 0V

—

—

1.0

mA

Gate-Emitter Threshold Voltage

V

GE(th)

I

C

= 15mA, V

CE

= 10V

6

7

8

Volts

Gate Leakage Current

I

GES

V

GE

= V

GES

, V

CE

= 0V

—

—

0.5

µA

Collector-Emitter Saturation Voltage

V

CE(sat)

I

C

= 150A, V

GE

= 15V, T

j

= 25°C

*5

—

2.0

2.6

Volts

I

C

= 150A, V

GE

= 15V, T

j

= 125°C

*5

—

2.2

—

Volts

I

C

= 150A, V

GE

= 15V, Chip

—

1.9

—

Volts

Input Capacitance

C

ies

—

—

23.0

nF

Output Capacitance

C

oes

V

CE

= 10V, V

GE

= 0V

—

—

2.0

nF

Reverse Transfer Capacitance

C

res

—

—

0.45

nF

Total Gate Charge

Q

G

V

CC

= 600V, I

C

= 150A, V

GE

= 15V

—

675

—

nC

Inductive

Turn-on Delay Time

t

d(on)

—

—

130

ns

Load

Turn-on Rise Time

t

r

V

CC

= 600V, I

C

= 150A,

—

—

100

ns

Switch

Turn-off Delay Time

t

d(off)

V

GE

= ±15V,

—

—

450

ns

Time

Turn-off Fall Time

t

f

R

G

= 2.2Ω, I

E

= 150A,

—

—

600

ns

Reverse Recovery Time

t

rr

*2

Inductive Load Switching Operation

—

—

150

ns

Reverse Recovery Charge

Qrr

*2

—

6

—

µC

Emitter-Collector Voltage

V

EC

*2

I

E

= 150A, V

GE

= 0V, T

j

= 25°C

*5

—

2.6

3.4

Volts

I

E

= 150A, V

GE

= 0V, T

j

= 125°C

*5

—

2.16

—

Volts

I

E

= 150A, V

GE

= 0V, Chip

—

2.5

—

Volts

Thermal and Mechanical Characteristics,

T

j

= 25°C unless otherwise specified

Characteristics

Symbol

Test Conditions

Min.

Typ.

Max.

Units

Module Lead Resistance

R

lead

Main Termnals-Chip (Per Switch)

—

1.6

—

mΩ

Thermal Resistance, Junction to Case**

R

th(j-c)

Q

Per IGBT

*1

—

—

0.13

°C/W

Thermal Resistance, Junction to Case**

R

th(j-c)

D

Per FWDi

*1

—

—

0.23

°C/W

Contact Thermal Resistance**

R

th(c-f)

Case to Heatsink (Per 1 Module)

—

0.015

—

°C/W

Thermal Grease Applied

*1*7

Internal Gate Resistance

R

Gint

T

C

= 25°C

—

0

—

Ω

External Gate Resistance

R

G

2

—

21

Ω

NTC Thermistor Sector,

T

j

= 25°C unless otherwise specified

Characteristics

Symbol

Test Conditions

Min.

Typ.

Max.

Units

Zero Power Resistance

R

TH

T

C

= 25°C

*1

4.85

5.00

5.15

kΩ

Deviation of Resistance

∆R/R

T

C

= 100°C, R

100

= 493Ω

*1

–7.3

—

+7.8

%

B Constant

B

(25/50)

B = (InR

1

– InR

2

) / (1/T

1

– 1/T

2

)

*6

—

3375

—

K

Power Dissipation

P

25

T

C

= 25°C

*1

—

—

10

mW

**Thermal resistance values are per 1 element.
*1 Case temperature (T

C

) and heatsink temperature (T

f

) are defined on the surface of the baseplate and heatsink at just under the chip.

*2 I

E

, I

EM

, V

EC

, t

rr

and Q

rr

represent ratings and characteristics of the anti-parallel, emitter-to-collector free-wheel diode (FWDi).

*5 Pulse width and repetition rate should be such as to cause negligible temperature rise.
*6 R

1

: Resistance at Absolute Temperature T

1

(K), R

2

: Resistance at Absolute Temperature T

2

(K), T(K) = T(°C) + 273.15

*7 Typical value is measured by using thermally conductive grease of λ = 0.9 [W/(m • K)].