QM300HA-2HB - Mitsubishi Electric Semiconductor

Feb.1999

MITSUBISHI TRANSISTOR MODULES

QM300HA-2HB

HIGH POWER SWITCHING USE

INSULATED TYPE

QM300HA-2HB

OUTLINE DRAWING & CIRCUIT DIAGRAM Dimensions in mm

APPLICATION

AC motor controllers, UPS, CVCF, DC motor controllers, NC equipment, Welders

108

93±

0.25

7.5

916 16

25 29

18.53

1410

16

8

14 10

9

BX

EC

BE

7

62

48±

0.25

4–R6.5

7

41

35

+1

–0.5

24.5

+1

–0.5

B

C

E

BX

E

4–φ6.5

3–M4

2–M6

LABEL

•ICCollector current ........................ 300A

•VCEX Collector-emitter voltage ......... 1200V

•hFE DC current gain.............................750

•Insulated Type

•UL Recognized

Yellow Card No. E80276 (N)

File No. E80271

Feb.1999

MITSUBISHI TRANSISTOR MODULES

QM300HA-2HB

HIGH POWER SWITCHING USE

INSULATED TYPE

ABSOLUTE MAXIMUM RATINGS (Tj=25°C, unless otherwise noted)

Symbol

VCEX (SUS)

VCEX

VCBO

VEBO

IC

–IC

PC

IB

–ICSM

Tj

Tstg

Viso

—

Parameter

Collector-emitter voltage

Collector-base voltage

Emitter-base voltage

Collector current

Collector reverse current

Collector dissipation

Base current

Surge collector reverse current

(forward diode current)

Junction temperature

Storage temperature

Isolation voltage

Mounting torque

Weight

Conditions

IC=1A, VEB=2V

VEB=2V

Emitter open

Collector open

DC

DC (forward diode current)

TC=25°C

DC

Peak value of one cycle of 60Hz (half wave)

Charged part to case, AC for 1 minute

Main terminal screw M6

Mounting screw M6

B(E) terminal screw M4

BX terminal screw M4

Typical value

Ratings

1000

7

300

1980

16

3000

–40~+150

–40~+125

2500

1.96~2.94

20~30

1.96~2.94

20~30

0.98~1.47

10~15

0.98~1.47

10~15

470

Unit

V

A

W

A

°C

V

N·m

kg·cm

N·m

kg·cm

N·m

kg·cm

N·m

kg·cm

g

ELECTRICAL CHARACTERISTICS (Tj=25°C, unless otherwise noted)

Unit

mA

V

—

µs

°C/W

Limits

Min.

—

750

—

Symbol

ICEX

ICBO

IEBO

VCE (sat)

VBE (sat)

–VCEO

hFE

ton

ts

tf

Rth (j-c) Q

Rth (j-c) R

Rth (c-f)

Parameter

Collector cutoff current

Emitter cutoff current

Collector-emitter saturation voltage

Base-emitter saturation voltage

Collector-emitter reverse voltage

DC current gain

Switching time

Thermal resistance

(junction to case)

Contact thermal resistance

(case to fin)

Test conditions

VCE=1000V, VEB=2V

VCB=1000V,Emitter open

VEB=7V, Collector open

IC=300A, IB=400mA

IC=–300A (diode forward voltage)

IC=300A, VCE=4.0V

VCC=600V, IC=300A, IB1=600mA, –IB2=6.0A

Transistor part

Diode part

Conductive grease applied

Typ.

—

Max.

4.0

200

4.0

1.8

—

2.5

15

3.0

0.063

0.3

0.04

Feb.1999

–1

10

2

10

1

10

0

10

1

10

0

10

–2

10

–1

10

1

10

0

10

7

5

4

3

2

–1

10

7

5

4

3

2

2.8 3.2 3.6 4.0 4.4 4.8

V

CE

=4.0V

T

j

=25°C

4

10

7

5

4

3

2

3

10

7

5

4

3

2

10

1

10

23457

2

10

23457

3

10

V

CE

=4V

T

j

=25°C

T

j

=125°C

1

10

7

5

4

3

2

0

10

7

5

4

3

2

–1

10

1

10

23457

2

10

23457

3

10

V

CE(sat)

V

BE(sat)

T

j

=25°C

T

j

=125°C

I

B

=400mA

500

400

300

200

100

0012345

T

j

=25°C

I

B

=50mA

I

B

=200mA

I

B

=400mA

I

B

=100mA

0

753275327532

5

4

3

2

1

444

I

C

=100A

T

j

=25°C

T

j

=125°C

I

C

=300A

I

C

=200A

7

5

3

2

7

5

3

2

7

5

3

2

1

10

23457

2

10

23457

3

10

T

j

=25°C

T

j

=125°C

–I

B2

=6.0A

V

CC

=600V

I

B1

=0.6A

t

f

t

on

t

s

PERFORMANCE CURVES

COMMON EMITTER OUTPUT

CHARACTERISTICS (TYPICAL)

COMMON EMITTER INPUT

CHARACTERISTIC (TYPICAL)

SATURATION VOLTAGE

CHARACTERISTICS (TYPICAL)

COLLECTOR-EMITTER SATURATION

VOLTAGE (TYPICAL)

SWITCHING TIME VS. COLLECTOR

CURRENT (TYPICAL)

DC CURRENT GAIN VS.

COLLECTOR CURRENT (TYPICAL)

COLLECTOR CURRENT IC (A)

DC CURRENT GAIN hFE

COLLECTOR-EMITTER VOLTAGE VCE (V) COLLECTOR CURRENT IC (A)

BASE CURRENT IB (A)

COLLECTOR-EMITTER SATURATION

VOLTAGE VCE (sat) (V)

SATURATION VOLTAGE VCE (sat), VBE (sat) (V)SWITCHING TIME ton, ts, tf (µs)

COLLECTOR CURRENT IC (A)BASE-EMITTER VOLTAGE VBE (V)

BASE CURRENT IB (A) COLLECTOR CURRENT IC (A)

MITSUBISHI TRANSISTOR MODULES

QM300HA-2HB

HIGH POWER SWITCHING USE

INSULATED TYPE

Feb.1999

SWITCHING TIME VS. BASE

CURRENT (TYPICAL)

REVERSE BIAS SAFE OPERATING AREA

SWITCHING TIME ts, tf (µs)

COLLECTOR-EMITTER VOLTAGE VCE (V)BASE REVERSE CURRENT –IB2 (A)

FORWARD BIAS SAFE OPERATING AREA DERATING FACTOR OF F. B. S. O. A.

COLLECTOR-EMITTER VOLTAGE VCE (V) CASE TEMPERATURE TC (°C)

REVERSE COLLECTOR CURRENT VS.

COLLECTOR-EMITTER REVERSE

VOLTAGE (DIODE FORWARD

CHARACTERISTICS) (TYPICAL)

TRANSIENT THERMAL IMPEDANCE

CHARACTERISTIC (TRANSISTOR)

COLLECTOR-EMITTER REVERSE VOLTAGE

–VCEO (V)

TIME (s)

COLLECTOR CURRENT IC (A)

COLLECTOR CURRENT IC (A)DERATING FACTOR (%)COLLECTOR REVERSE CURRENT –IC (A)

MITSUBISHI TRANSISTOR MODULES

QM300HA-2HB

HIGH POWER SWITCHING USE

INSULATED TYPE

Zth (j–c) (°C/ W)

0

10

1

10

0

10

–1

10

–2

10

–3

10

3

10

2

10

1

10

0

10

3

10

2

10

1

10

0

10

–1

10

0

10

1

10

2

10 600

00 200 1200

300

1000

500

400

200

100

IB2=–6A

400 600 800

Tj=125°C

7

5

3

2

7

5

3

2

7

5

3

2

0

10 23457 1

10 23457 2

10

Tj=25°C

Tj=125°C

VCC=600V

IC=300A

ts

IB1=0.6A

tf

753275327532

0.08

0.06

0.05

0.02

0

23457

0.03

0.07

0.01

0.04

3

10

2

10

7

5

4

3

2

1

10

7

5

4

3

2

2.20.6 1.0 1.4 1.8

Tj=25°C

Tj=125°C

0.2

100

90

60

40

20

00 16020 40 60 80 100 120 140

80

10

70

50

30

753275327532

7

5

3

2

7

5

3

2

7

5

3

2TC=25°C

100µS

DC

1m

S

200µ

S

50µS

NON-REPETITIVE

SECOND

BREAKDOWN

AREA

COLLECTOR

DISSIPATION

Feb.1999

Irr (A), Qrr (µc)

SURGE COLLECTOR REVERSE CURRENT

–ICSM (A)

trr (µs)

TRANSIENT THERMAL IMPEDANCE

CHARACTERISTIC (DIODE)

RATED SURGE COLLECTOR REVERSE CURRENT

(DIODE FORWARD SURGE CURRENT)

REVERSE RECOVERY CHARACTERISTICS

OF FREE-WHEEL DIODE (TYPICAL)

CONDUCTION TIME (CYCLES AT 60Hz) FORWARD CURRENT IF (A)

TIME (s)

Zth (j–c) (°C/ W)

MITSUBISHI TRANSISTOR MODULES

QM300HA-2HB

HIGH POWER SWITCHING USE

INSULATED TYPE

1

10

0

10

–1

10

–3

10

–2

10

0

10

–1

10

1

10

0

10

2

10

1

10 75432

0

10 75432

0

3200

2400

800

1600

400

1200

2000

2800

3

10

7

5

4

3

2

10

7

5

4

3

2

1

10

1

10

23457

2

10

23457

3

10

V

CC

=600V

I

B1

=0.6A

T

j

=25°C

T

j

=125°C

I

rr

t

rr

Q

rr

–I

B2

=6.0A

7

5

4

3

2

7

5

4

3

2

7

5

3275327532

0.40

0.32

0.24

0.16

0.08

0

23457 23457