MITSUBISHI TRANSISTOR MODULES
QM300HA-2HB
HIGH POWER SWITCHING USE
INSULATED TYPE
QM300HA-2HB
•
•
•
•
•
I
C
Collector current ........................
300A
V
CEX
Collector-emitter voltage .........
1200V
h
FE
DC current gain.............................
750
Insulated Type
UL Recognized
Yellow Card No. E80276 (N)
File No. E80271
APPLICATION
AC motor controllers, UPS, CVCF, DC motor controllers, NC equipment, Welders
OUTLINE DRAWING & CIRCUIT DIAGRAM
Dimensions in mm
108
4–R6.5
7.5
9
93±
0.25
16
16
7
14
16
9
E
10 10
48±
0.25
8
4–φ6.5
BX
B
14
E
C
9
3
18.5
25
29
BX
2–M6
C
3–M4
35
+1
– 0.5
62
24.5
+1
– 0.5
LABEL
7
41
E
B
E
Feb.1999
MITSUBISHI TRANSISTOR MODULES
QM300HA-2HB
HIGH POWER SWITCHING USE
INSULATED TYPE
ABSOLUTE MAXIMUM RATINGS
Symbol
V
CEX (SUS)
V
CEX
V
CBO
V
EBO
I
C
–I
C
P
C
I
B
–I
CSM
T
j
T
stg
V
iso
Parameter
Collector-emitter voltage
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
(Tj=25°C, unless otherwise noted)
Conditions
I
C
=1A, V
EB
=2V
V
EB
=2V
Emitter open
Collector open
DC
DC (forward diode current)
T
C
=25°C
DC
Peak value of one cycle of 60Hz (half wave)
Ratings
1000
1000
1000
7
300
300
1980
16
3000
–40~+150
–40~+125
Charged part to case, AC for 1 minute
Main terminal screw M6
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
V
V
V
A
A
W
A
A
°C
°C
V
N·m
kg·cm
N·m
kg·cm
N·m
kg·cm
N·m
kg·cm
g
Mounting screw M6
—
Mounting torque
B(E) terminal screw M4
BX terminal screw M4
—
Weight
Typical value
ELECTRICAL CHARACTERISTICS
Symbol
I
CEX
I
CBO
I
EBO
V
CE (sat)
V
BE (sat)
–V
CEO
h
FE
t
on
t
s
t
f
R
th (j-c) Q
R
th (j-c) R
R
th (c-f)
Thermal resistance
(junction to case)
Contact thermal resistance
(case to fin)
Switching time
Parameter
Collector cutoff current
Collector cutoff current
Emitter cutoff current
Collector-emitter saturation voltage
Base-emitter saturation voltage
Collector-emitter reverse voltage
DC current gain
(Tj=25°C, unless otherwise noted)
Limits
Test conditions
V
CE
=1000V, V
EB
=2V
V
CB
=1000V,Emitter open
V
EB
=7V, Collector open
I
C
=300A, I
B
=400mA
I
C
=–300A (diode forward voltage)
I
C
=300A, V
CE
=4.0V
Min.
—
—
—
—
—
—
750
—
V
CC
=600V, I
C
=300A, I
B1
=600mA, –I
B2
=6.0A
—
—
Transistor part
Diode part
Conductive grease applied
—
—
—
Typ.
—
—
—
—
—
—
—
—
—
—
—
—
—
Max.
4.0
4.0
200
4.0
4.0
1.8
—
2.5
15
3.0
0.063
0.3
0.04
Unit
mA
mA
mA
V
V
V
—
µs
µs
µs
°C/
W
°C/
W
°C/
W
Feb.1999
MITSUBISHI TRANSISTOR MODULES
QM300HA-2HB
HIGH POWER SWITCHING USE
INSULATED TYPE
PERFORMANCE CURVES
COMMON EMITTER OUTPUT
CHARACTERISTICS (TYPICAL)
DC CURRENT GAIN VS.
COLLECTOR CURRENT (TYPICAL)
500
T
j
=25°C
COLLECTOR CURRENT I
C
(A)
I
B
=400mA
DC CURRENT GAIN h
FE
400
I
B
=200mA
I
B
=100mA
300
I
B
=50mA
10
4
7
5
4
3
2
10
3
7
5
4
3
2
V
CE
=4V
200
100
0
0
1
2
3
4
5
V
CE
(V)
10
2
10
1
T
j
=25°C
T
j
=125°C
2 3 4 5 7 10
2
2 3 4 5 7 10
3
COLLECTOR-EMITTER VOLTAGE
COLLECTOR CURRENT I
C
(A)
SATURATION VOLTAGE V
CE (sat)
, V
BE (sat)
(V)
COMMON EMITTER INPUT
CHARACTERISTIC (TYPICAL)
SATURATION VOLTAGE
CHARACTERISTICS (TYPICAL)
BASE CURRENT I
B
(A)
10
1
7
5
4
3
2
10
0
7
5
4
3
2
V
CE
=4.0V
T
j
=25°C
10
1
7
5
4
3
2
10
0
7
5
4
3
2
V
BE(sat)
V
CE(sat)
10
–1
2.8
3.2
3.6
4.0
4.4
V
BE
(V)
4.8
10
–1
10
1
I
B
=400mA
T
j
=25°C
T
j
=125°C
2 3 4 5 7 10
2
2 3 4 5 7 10
3
BASE-EMITTER VOLTAGE
COLLECTOR CURRENT I
C
(A)
COLLECTOR-EMITTER SATURATION
VOLTAGE (TYPICAL)
COLLECTOR-EMITTER SATURATION
VOLTAGE
V
CE
(sat)
(V)
SWITCHING TIME VS. COLLECTOR
CURRENT (TYPICAL)
5
4
t
on
, t
s
, t
f
(µs)
I
C
=300A
I
C
=200A
10
2
7 V
CC
=600V
5 I
B1
=0.6A
3 –I
B2
=6.0A
2
10
1
7
5
3
2
3
2
I
C
=100A
SWITCHING TIME
t
s
1
0
10
–2
2 3 4 5 7 10
–1
2 3 4 5 7 10
0
2 3 4 5 7 10
1
BASE CURRENT I
B
(A)
T
j
=25°C
T
j
=125°C
10
0
7
t
f
5
3 t
on
2
10
–1
10
1
2 3 4 5 7 10
2
T
j
=25°C
T
j
=125°C
2 3 4 5 7 10
3
I
C
(A)
COLLECTOR CURRENT
Feb.1999
MITSUBISHI TRANSISTOR MODULES
QM300HA-2HB
HIGH POWER SWITCHING USE
INSULATED TYPE
SWITCHING TIME VS. BASE
CURRENT (TYPICAL)
10
2
7
5
3
2
10
1
7
5
3
2
10
0
7
5
3
2
10
–1
10
0
V
CC
=600V
I
C
=300A
I
B1
=0.6A
REVERSE BIAS SAFE OPERATING AREA
600
COLLECTOR CURRENT I
C
(A)
t
s
, t
f
(µs)
T
j
=125°C
I
B2
=–6A
t
s
500
400
300
200
100
0
SWITCHING TIME
t
f
T
j
=25°C
T
j
=125°C
2 3 4 5 7 10
1
2 3 4 5 7 10
2
0
200
400
600
800 1000 1200
BASE REVERSE CURRENT –I
B2
(A)
COLLECTOR-EMITTER VOLTAGE
V
CE
(V)
FORWARD BIAS SAFE OPERATING AREA
10
3
7
5
3
2
10
2
7
5
3
2
10
1
7
5
3 T
C
=25°C
2
NON-REPETITIVE
10
0
10
0
2 3 5 7 10
1
2 3 5 7 10
2
2 3 5 7 10
3
100
50µ
S
90
DERATING FACTOR OF F. B. S. O. A.
COLLECTOR CURRENT I
C
(A)
DERATING FACTOR (%)
DC
100µ
S
80
70
60
50
40
30
20
10
0
0
20
40
60
COLLECTOR
DISSIPATION
SECOND
BREAKDOWN
AREA
200
µ
S
COLLECTOR-EMITTER VOLTAGE V
CE
(V)
COLLECTOR REVERSE CURRENT –I
C
(A)
TRANSIENT THERMAL IMPEDANCE
CHARACTERISTIC (TRANSISTOR)
10
0
2 3 457 10
1
0.08
0.07
0.06
1m
S
80 100 120 140 160
CASE TEMPERATURE
T
C
(°C)
Z
th (j–c)
(°C/ W)
0.05
0.04
0.03
0.02
0.01
0
10
–3
2 3 5 7 10
–2
2 3 5 710
–1
2 3 5 7 10
0
10
3
7
5
4
3
2
10
2
7
5
4
3
2
REVERSE COLLECTOR CURRENT VS.
COLLECTOR-EMITTER REVERSE
VOLTAGE (DIODE FORWARD
CHARACTERISTICS) (TYPICAL)
T
j
=25°C
T
j
=125°C
10
1
0.2
0.6
1.0
1.4
1.8
2.2
TIME (s)
COLLECTOR-EMITTER REVERSE VOLTAGE
–V
CEO
(V)
Feb.1999
MITSUBISHI TRANSISTOR MODULES
QM300HA-2HB
HIGH POWER SWITCHING USE
INSULATED TYPE
RATED SURGE COLLECTOR REVERSE CURRENT
(DIODE FORWARD SURGE CURRENT)
SURGE COLLECTOR REVERSE CURRENT
–I
CSM
(A)
REVERSE RECOVERY CHARACTERISTICS
OF FREE-WHEEL DIODE (TYPICAL)
3200
2800
2400
2000
1600
1200
800
400
0
10
0
2 3 4 5 7 10
1
2 3 4 5 7 10
2
I
rr
(A), Q
rr
(µc)
10
3
7
5
4
3
2
10
2
7
5
4
3
2
10
1
V
CC
=600V
I
B1
=0.6A
–I
B2
=6.0A
I
rr
7
5
4
3
2
10
0
Q
rr
t
rr
7
5
4
3
2
t
rr
(µs)
Feb.1999
10
1
10
1
2 3 4 5 7 10
2
T
j
=25°C
T
j
=125°C 10
–1
2 3 4 5 7 10
3
CONDUCTION TIME (CYCLES AT 60Hz)
FORWARD CURRENT I
F
(A)
TRANSIENT THERMAL IMPEDANCE
CHARACTERISTIC (DIODE)
10
0
2 3 4 57 10
1
2 3 4 5 7
0.40
0.32
Z
th (j–c)
(°C/ W)
0.24
0.16
0.08
0
10
–3
2 3 5 7 10
–2
2 3 5 710
–1
2 3 5 7 10
0
TIME (s)
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