MITSUBISHI IGBT MODULES
CM50DU-24H
MEDIUM POWER SWITCHING USE INSULATED TYPE
CM50DU-24H
● IC ..................................................................... 50A ● 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 7 17 80 ±0.25 23 23 2–φ6.5 MOUNTING HOLES 4
E2 G2
24
C2E1
E2
C1
18
G1E1
4 11
48
12 3–M5NUTS 12mm deep 16 2.5 25 2.5 16
13.5
E2 G2
TAB
7.5
4
#110. t=0.5 C2E1 E2
13
CM
C1
G1 E1
30 –0.5
+1
LABEL
21.2
CIRCUIT DIAGRAM
Feb. 2009 1
MITSUBISHI IGBT MODULES
CM50DU-24H
MEDIUM POWER SWITCHING USE INSULATED TYPE
(Tj = 25°C, unless otherwise specified)
MAXIMUM RATINGS
Symbol VCES VGES IC ICM IE (Note 2) IEM (Note 2) PC (Note 3) Tj Tstg Viso — —
Item Collector-emitter voltage Gate-emitter voltage Collector current Emitter current Maximum collector dissipation Junction temperature Storage temperature Isolation voltage Mounting torque Weight VGE = 0V VCE = 0V TC = 25°C Pulse TC = 25°C Pulse TC = 25°C
Conditions
Ratings 1200 ±20 50 100 50 100 400 –40 ~ +150 –40 ~ +125 2500 2.5 ~ 3.5 3.5 ~ 4.5 310
Unit V V A A A A W °C °C Vrms N·m N·m g
(Note 1) (Note 1)
— — Charged part to base plate, f = 60Hz, AC 1 minute Main terminals M5 screw Mounting M6 screw Typical value
ELECTRICAL CHARACTERISTICS
Symbol ICES Item
(Tj = 25°C, unless otherwise specified)
Test Conditions VCE = VCES, VGE = 0V IC = 5mA, VCE = 10V ±VGE = VGES, VCE = 0V IC = 50A, VGE = 15V VCE = 10V VGE = 0V VCC = 600V, IC = 50A, VGE = 15V VCC = 600V, IC = 50A VGE = ±15V RG = 6.3Ω Resistive load IE = 50A, VGE = 0V IE = 50A, die / dt = –100A / 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) (Note 4) Tj = 25°C Tj = 125°C
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) Contact thermal resistance
Min — 4.5 — — — — — — — — — — — — — — — — —
Limits Typ — 6 — 2.9 2.85 — — — 187 — — — — — — 0.28 — — 0.07
Max 1 7.5 0.5 3.7 — 7.5 2.6 1.5 — 80 200 150 350 3.2 300 — 0.31 0.7 —
Unit mA V µA V nF nF nF nC ns ns ns ns V ns µC K/W K/W K/W
Note 1. 2. 3. 4. 5. 6.
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
CM50DU-24H
MEDIUM POWER SWITCHING USE INSULATED TYPE
PERFORMANCE CURVES
OUTPUT CHARACTERISTICS (TYPICAL) 100
COLLECTOR CURRENT IC (A)
TRANSFER CHARACTERISTICS (TYPICAL) 100
COLLECTOR CURRENT IC (A)
VGE = 20 (V) Tj = 25°C
15
12
VCE = 10V
75 11 50 10 25 9 8 0 0 2 4 6 8 10
75
50
25 Tj = 25°C Tj = 125°C 0 4 8 12 16 20
0
COLLECTOR-EMITTER VOLTAGE VCE (V)
GATE-EMITTER VOLTAGE VGE (V)
COLLECTOR-EMITTER SATURATION VOLTAGE CHARACTERISTICS (TYPICAL)
COLLECTOR-EMITTER SATURATION VOLTAGE VCE(sat) (V)
COLLECTOR-EMITTER SATURATION VOLTAGE CHARACTERISTICS (TYPICAL)
COLLECTOR-EMITTER SATURATION VOLTAGE VCE(sat) (V)
5 VGE = 15V Tj = 25°C Tj = 125°C 4
10
Tj = 25°C
8
3
6 IC = 100A IC = 50A 2 IC = 20A
2
4
1
0
0
25
50
75
100
0
0
4
8
12
16
20
COLLECTOR CURRENT IC (A)
GATE-EMITTER VOLTAGE VGE (V)
FREE-WHEEL DIODE FORWARD CHARACTERISTICS (TYPICAL)
3 2
CAPACITANCE CHARACTERISTICS (TYPICAL) 101
CAPACITANCE Cies, Coes, Cres (nF)
7 5 3 2
Tj = 25°C
Cies
EMITTER CURRENT IE (A)
102
7 5 3 2
100
7 5 3 2
Coes Cres
10–1
7 5 3 2
101
7 5 3
1.0
1.5
2.0
2.5
3.0
3.5
VGE = 0V 10–2 –1 10 2 3 5 7 100 2 3 5 7 101 2 3 5 7 102 COLLECTOR-EMITTER VOLTAGE VCE (V)
Feb. 2009
EMITTER-COLLECTOR VOLTAGE VEC (V)
3
MITSUBISHI IGBT MODULES
CM50DU-24H
MEDIUM POWER SWITCHING USE INSULATED TYPE
HALF-BRIDGE SWITCHING TIME CHARACTERISTICS (TYPICAL) 103 tf td(off)
REVERSE RECOVERY TIME trr (ns)
7 Tj = 125°C 5 3 2
5 3 2
5 3 2
102
7 5 3 2
td(on) tr
102
7 5 3 2
trr
101
7 5 3 2
101
7 5 3 2
Irr
100 0 10
VCC = 600V VGE = ±15V RG = 6.3Ω
2 3 5 7 101 2 3 5 7 102
101 0 10
2
3
5 7 101
2
3
5 7 102
100
COLLECTOR CURRENT IC (A) TRANSIENT THERMAL IMPEDANCE CHARACTERISTICS (IGBT 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
2 7 5 3 2 7 5 3 2 7 5 3 2
EMITTER CURRENT IE (A) 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
2 7 5 3 2 7 5 3 2 7 5 3 2
NORMALIZED TRANSIENT THERMAL IMPEDANCE Zth(j – c)
100
Per unit base = Rth(j – c) = 0.31K/W
3 2
NORMALIZED TRANSIENT THERMAL IMPEDANCE Zth(j – c)
100
Per unit base = Rth(j – c) = 0.7K/W
3 2
10–1
10–1
7 5 3 2 7 5 3 2
10–1
10–1
7 5 3 2 7 5 3 2
10–2
10–2
10–2
10–2
10–3
10–3 10–5 2 3 5 710–4 2 3 5 7 10–3 TIME (s)
10–3
10–3 10–5 2 3 5 710–4 2 3 5 7 10–3 TIME (s)
GATE CHARGE CHARACTERISTICS (TYPICAL) 20
GATE-EMITTER VOLTAGE VGE (V)
IC = 50A
15
VCC = 400V VCC = 600V
10
5
0
0
50
100
150
200
250
GATE CHARGE QG (nC)
Feb. 2009 4
REVERSE RECOVERY CURRENT Irr (A)
REVERSE RECOVERY CHARACTERISTICS OF FREE-WHEEL DIODE (TYPICAL) 103 102 – di /dt = 100A /µs 7 7 Tj = 25°C
SWITCHING TIMES (ns)
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