Thermal characteristics, Mechanical characteristics – C&H Technology CM1500HC-66R User Manual

MITSUBISHI HVIGBT MODULES

CM1500HC-66R

HIGH POWER SWITCHING USE

4

th

-Version HVIGBT (High Voltage Insulated Gate Bipolar Transistor) Modules

INSULATED TYPE

HVIGBT (High Voltage Insulated Gate Bipolar Transistor) MODULES

HVM-1054-C 4 of 9

THERMAL CHARACTERISTICS

Limits

Symbol Item

Conditions

Min Typ Max

Unit

R

th(j-c)Q

Thermal resistance

Junction to Case, IGBT part

—

—

8.0

K/kW

R

th(j-c)R

Thermal resistance

Junction to Case, FWDi part

—

—

15.0

K/kW

R

th(c-f)

Contact

thermal

resistance

Case to Fin,

λ

grease

= 1W/m·K, D

(c-f)

= 100 µm

— 6.0 — K/kW

MECHANICAL CHARACTERISTICS

Limits

Symbol Item

Conditions

Min Typ Max

Unit

M

t

M8: Main terminals screw

7.0

—

22.0

N·m

M

s

M6: Mounting screw

3.0

—

6.0

N·m

M

t

Mounting torque

M4: Auxiliary terminals screw

1.0

—

3.0

N·m

m Mass

—

1.2

—

kg

CTI

Comparative tracking index

600

—

—

—

d

a

Clearance

19.5

—

—

mm

d

s

Creepage

distance

32.0

—

—

mm

L

P CE

Parasitic stray inductance

—

11.0

—

nH

R

CC’+EE’

Internal lead resistance

T

c

= 25°C

—

0.12

—

mΩ

r

g

Internal

gate

resistor

T

c

= 25°C

—

1.5

—

Ω

Note 1.

Pulse width and repetition rate should be such that junction temperature (T

j

) does not exceed T

opmax

rating (150°C).

Note 2.

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

Note 3.

Junction temperature (T

j

) should not exceed T

jmax

rating (150°C).

Note 4.

Pulse width and repetition rate should be such as to cause negligible temperature rise.

Note 5.

E

on(10%)

/ E

off(10%)

/ E

rec(10%)

are the integral of 0.1V

CE

x 0.1I

C

x dt.

Note 6.

The integration range of E

on

/ E

off

/ E

rec

according to IEC 60747.