MITSUBISHI CM100DU

MITSUBISHI IGBT MODULES
CM100DU-24H
HIGH POWER SWITCHING USE
INSULATED TYPE
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CM100DU-24H
● IC ................................................................... 100A
● VCES ....................................................... 1200V
● Insulated Type
● 2-elements in a pack
APPLICATION
UPS, NC machine, AC-Drive control, Servo, Welders
OUTLINE DRAWING & CIRCUIT DIAGRAM
Dimensions in mm
TC measured point
94
80 ±0.25
4
G1E1
13.5
3–M5NUTS
12mm deep
25
2.5 16
TAB
LABEL
#110. t=0.5
C2E1
E2
21.2
+1
30 –0.5
7.5
16 2.5
E2 G2
12
4
4 11
18
E2 G2
C1
E2
C2E1
2–φ6.5
MOUNTING HOLES
23
C1
G1 E1
23
48
CM
24
17
13
7
CIRCUIT DIAGRAM
Feb. 2009
1
MITSUBISHI IGBT MODULES
CM100DU-24H
HIGH POWER SWITCHING USE
INSULATED TYPE
MAXIMUM RATINGS
Symbol
Item
Conditions
Collector-emitter voltage
Gate-emitter voltage
VGE = 0V
VCE = 0V
TC = 25°C
Pulse
TC = 25°C
Pulse
TC = 25°C
Ratings
Unit
1200
±20
100
200
100
200
650
–40 ~ +150
–40 ~ +125
2500
2.5 ~ 3.5
3.5 ~ 4.5
310
V
V
A
A
A
A
W
°C
°C
Vrms
N·m
N·m
g
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VCES
VGES
IC
ICM
IE (Note 2)
IEM (Note 2)
PC (Note 3)
Tj
Tstg
Viso
(Tj = 25°C, unless otherwise specified)
Collector current
Emitter current
Maximum collector dissipation
Junction temperature
Storage temperature
Isolation voltage
—
Mounting torque
—
Weight
ELECTRICAL CHARACTERISTICS
Symbol
(Tj = 25°C, unless otherwise specified)
Collector cutoff current
Gate-emitter
VGE(th)
threshold voltage
Gate-leakage current
IGES
Collector-emitter
VCE(sat)
saturation voltage
Input capacitance
Cies
Output capacitance
Coes
Reverse transfer capacitance
Cres
QG
Total gate charge
td (on)
Turn-on delay time
tr
Turn-on rise time
td (off)
Turn-off delay time
tf
Turn-off fall time
V EC(Note 2) Emitter-collector voltage
t rr (Note 2) Reverse recovery time
Q rr (Note 2) Reverse recovery charge
Rth(j-c)Q
Thermal resistance (Note 5)
Rth(j-c)R
Rth(c-f)
Note 1.
2.
3.
4.
5.
6.
Contact thermal resistance
(Note 1)
—
—
Charged part to base plate, f = 60Hz, AC 1 minute
Main terminals M5 screw
Mounting M6 screw
Typical value
VCE = VCES, VGE = 0V
Min
—
Limits
Typ
—
Max
1
IC = 10mA, VCE = 10V
4.5
6
7.5
V
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
2.9
2.85
—
—
—
375
—
—
—
—
—
—
0.55
—
—
0.5
3.7
—
15
5
3
—
100
200
300
350
3.2
300
—
0.19
0.35
µA
nF
nF
nF
nC
ns
ns
ns
ns
V
ns
µC
K/W
K/W
—
0.07
—
K/W
Item
ICES
(Note 1)
Test Conditions
±VGE = VGES, VCE = 0V
IC = 100A, VGE = 15V
(Note 4)
Tj = 25°C
Tj = 125°C
VCE = 10V
VGE = 0V
VCC = 600V, IC = 100A, VGE = 15V
VCC = 600V, IC = 100A
VGE = ±15V
RG = 3.1Ω
Resistive load
IE = 100A, VGE = 0V
IE = 100A,
die / dt = –200A / µs
Junction to case, IGBT part (Per 1/2 module)
Junction to case, FWDi part (Per 1/2 module)
Case to heat sink, conductive grease applied
(Per 1/2 module)
(Note 6)
Unit
mA
V
Pulse width and repetition rate should be such that the device junction temperature (Tj) does not exceed Tjmax rating.
IE, VEC, trr, Qrr & die/dt represent characteristics of the anti-parallel, emitter-collector free-wheel diode.
Junction temperature (Tj) should not increase beyond 150°C.
Pulse width and repetition rate should be such as to cause negligible temperature rise.
Case temperature (TC) measured point is shown in page OUTLINE DRAWING.
Typical value is measured by using thermally conductive grease of λ = 0.9[W/(m • K)].
Feb. 2009
2
MITSUBISHI IGBT MODULES
CM100DU-24H
HIGH POWER SWITCHING USE
INSULATED TYPE
PERFORMANCE CURVES
TRANSFER CHARACTERISTICS
(TYPICAL)
OUTPUT CHARACTERISTICS
(TYPICAL)
200
15
VCE = 10V
12
COLLECTOR CURRENT IC (A)
VGE = 20
(V)
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COLLECTOR CURRENT IC (A)
200
Tj = 25°C
150
11
100
10
8
0
0
2
4
6
8
50
Tj = 25°C
Tj = 125°C
0
4
8
12
16
20
COLLECTOR-EMITTER VOLTAGE VCE (V)
GATE-EMITTER VOLTAGE VGE (V)
COLLECTOR-EMITTER SATURATION
VOLTAGE CHARACTERISTICS
(TYPICAL)
COLLECTOR-EMITTER SATURATION
VOLTAGE CHARACTERISTICS
(TYPICAL)
5
VGE = 15V
Tj = 25°C
Tj = 125°C
4
3
2
1
0
0
50
100
150
8
6
IC = 200A
4
IC = 100A
IC = 40A
2
0
4
8
12
16
20
GATE-EMITTER VOLTAGE VGE (V)
FREE-WHEEL DIODE
FORWARD CHARACTERISTICS
(TYPICAL)
CAPACITANCE CHARACTERISTICS
(TYPICAL)
102
Tj = 25°C
3
2
102
7
5
3
2
101
1.0
Tj = 25°C
COLLECTOR CURRENT IC (A)
CAPACITANCE Cies, Coes, Cres (nF)
7
5
10
0
200
103
EMITTER CURRENT IE (A)
100
0
10
COLLECTOR-EMITTER
SATURATION VOLTAGE VCE(sat) (V)
COLLECTOR-EMITTER
SATURATION VOLTAGE VCE(sat) (V)
9
50
150
7
5
VGE = 0V
3
2
101
7
5
Cies
3
2
100
Coes
7
5
3
2
Cres
3.5
10–1 –1
10 2 3 5 7 100 2 3 5 7 101 2 3 5 7 102
EMITTER-COLLECTOR VOLTAGE VEC (V)
COLLECTOR-EMITTER VOLTAGE VCE (V)
1.5
2.0
2.5
3.0
Feb. 2009
3
MITSUBISHI IGBT MODULES
CM100DU-24H
HALF-BRIDGE
SWITCHING TIME CHARACTERISTICS
(TYPICAL)
103
3
2
td(off)
102
td(on)
7
5
3
2
tr
101
7
5
VCC = 600V
VGE = ±15V
RG = 3.1Ω
3
2
NORMALIZED TRANSIENT
THERMAL IMPEDANCE Zth(j – c)
100
7 101
2
3
5 7 102
2
3
2
5
3
3
2
2
trr
102
101
Irr
7
5
7
5
3
3
2
2
3
5 7 101
2
3
5 7 102
2
COLLECTOR CURRENT IC (A)
EMITTER CURRENT IE (A)
TRANSIENT THERMAL
IMPEDANCE CHARACTERISTICS
(IGBT part)
TRANSIENT THERMAL
IMPEDANCE CHARACTERISTICS
(FWDi part)
10–3 2 3 5 710–2 2 3 5 710–1 2 3 5 7 100 2 3 5 7 101
101
7 Single Pulse
5
3 TC = 25°C
Per unit base = Rth(j – c) = 0.19K/W
100
5
101
5 7
NORMALIZED TRANSIENT
THERMAL IMPEDANCE Zth(j – c)
SWITCHING TIMES (ns)
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tf
REVERSE RECOVERY TIME trr (ns)
Tj = 125°C
7
5
REVERSE RECOVERY CHARACTERISTICS
OF FREE-WHEEL DIODE
(TYPICAL)
103
102
– di /dt = 200A /µs
7
7
Tj = 25°C
7
5
3
2
3
2
10–1
10–1
10–2
10–2
10–3
10–3
10–5 2 3 5 710–4 2 3 5 7 10–3
7
5
3
2
7
5
3
2
7
5
3
2
7
5
3
2
TIME (s)
3
100
REVERSE RECOVERY CURRENT Irr (A)
HIGH POWER SWITCHING USE
INSULATED TYPE
10–3 2 3 5 710–2 2 3 5 710–1 2 3 5 7 100 2 3 5 7 101
101
7 Single Pulse
5
3 TC = 25°C
2
100
Per unit base = Rth(j – c) = 0.35K/W
7
5
3
2
3
2
10–1
10–1
10–2
10–2
10–3
10–3
10–5 2 3 5 710–4 2 3 5 7 10–3
7
5
3
2
7
5
3
2
7
5
3
2
7
5
3
2
TIME (s)
GATE CHARGE CHARACTERISTICS
(TYPICAL)
GATE-EMITTER VOLTAGE VGE (V)
20
IC = 100A
15
VCC = 400V
VCC = 600V
10
5
0
0
100
200
300
400
500
GATE CHARGE QG (nC)
Feb. 2009
4