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VRSM VRRM Type
VDSM VDRM
VV
1300 1200 MCC 170-12io1
1500 1400 MCC 170-14io1
1700 1600 MCC 170-16io1
1900 1800 MCC 170-18io1
Symbol Test Conditions Maximum Ratings
ITRMS TVJ = TVJM 350 A
ITAVM TC = 85°C; 180° sine 203 A
ITSM, IFSM TVJ = 45°C; t = 10 ms (50 Hz) 5400 A
VR = 0 t = 8.3 ms (60 Hz) 5800 A
TVJ = TVJM t = 10 ms (50 Hz) 5000 A
VR = 0 t = 8.3 ms (60 Hz) 5500 A
òi2dt TVJ = 45°C t = 10 ms (50 Hz) 146 000 A2s
VR = 0 t = 8.3 ms (60 Hz) 140 000 A2s
TVJ = TVJM t = 10 ms (50 Hz) 125 000 A2s
VR = 0 t = 8.3 ms (60 Hz) 126 000 A2s
(di/dt)cr TVJ = TVJM repetitive, IT = 660 A 100 A/ms
f =50 Hz, tP =200 ms
VD = 2/3 VDRM
IG = 1 A, non repetitive, IT = ITAVM 500 A/ms
diG/dt = 1 A/ms
(dv/dt)cr TVJ = TVJM; VDR = 2/3 VDRM 1000 V/ms
RGK = ¥; method 1 (linear voltage rise)
PGM TVJ = TVJM tP = 30 ms 120 W
IT = ITAVM tP = 500 ms60W
PGAV 20 W
VRGM 10 V
TVJ -40...+130 °C
TVJM 130 °C
Tstg -40...+125 °C
VISOL 50/60 Hz, RMS t = 1 min 3000 V~
IISOL £ 1 mA t = 1 s 3600 V~
MdMounting torque (M6) 4.5-7/40-62 Nm/lb.in.
Terminal connection torque (M8) 11-13/97-115 Nm/lb.in.
Weight Typical including screws 750 g
Features
International standard package
Direct copper bonded Al2O3-ceramic
with copper base plate
Planar passivated chips
Isolation voltage 3600 V~
UL registered E 72873
Keyed gate/cathode twin pins
Applications
Motor control, softstarter
Power converter
Heat and temperature control for
industrial furnaces and chemical
processes
Lighting control
Solid state switches
Advantages
Simple mounting
Improved temperature and power
cycling
Reduced protection circuits
ITRMS = 2x 350 A
ITAVM = 2x 203 A
VRRM = 1200-1800 V
Data according to IEC 60747 and refer to a single thyristor/diode unless otherwise stated.
IXYS reserves the right to change limits, test conditions and dimensions
MCC 170
Thyristor Modules
Thyristor/Diode Modules
1
237654
3671542
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Symbol Test Conditions Characteristic Values
IRRM, IDRM TVJ = TVJM; VR = VRRM; VD = VDRM 40 mA
VT, VFIT, IF = 600 A; TVJ = 25°C 1.65 V
VT0 For power-loss calculations only (TVJ = 130°C) 0.8 V
rT1mW
VGT VD = 6 V; TVJ = 25°C2V
TVJ = -40°C3V
IGT VD = 6 V; TVJ = 25°C 150 mA
TVJ = -40°C 220 mA
VGD TVJ = TVJM;V
D = 2/3 VDRM 0.25 V
IGD TVJ = TVJM;V
D = 2/3 VDRM 10 mA
ILTVJ = 25°C; tP = 30 ms; VD = 6 V 200 mA
IG = 0.45 A; diG/dt = 0.45 A/ms
IHTVJ = 25°C; VD = 6 V; RGK = ¥150 mA
tgd TVJ = 25°C; VD = 1/2 VDRM 2ms
IG = 1 A; diG/dt = 1 A/ms
tqTVJ = TVJM; IT = 300 A, tP = 200 ms; -di/dt = 10 A/ms typ. 200 ms
VR = 100 V; dv/dt = 50 V/ms; VD = 2/3 VDRM
QSTVJ = 125°C; IT, IF = 300 A; -di/dt = 50 A/ms 550 mC
IRM 235 A
RthJC per thyristor (diode); DC current 0.164 K/W
per module other values 0.082 K/W
RthJK per thyristor (diode); DC current see Fig. 8/9 0.204 K/W
per module 0.102 K/W
dSCreeping distance on surface 12.7 mm
dACreepage distance in air 9.6 mm
aMaximum allowable acceleration 50 m/s2
Optional accessories for modules
Keyed Gate/Cathode twin plugs with wire length = 350 mm, gate = yellow, cathode = red
Type ZY 180 L (L = Left for pin pair 4/5) UL 758, style 1385,
Type ZY 180 R (R = Right for pin pair 6/7) CSA class 5851, guide 460-1-1
MCC 170
Fig. 1 Gate trigger characteristics
Fig. 2 Gate trigger delay time
0.01 0.1 1 10
1
10
100
10-3 10-2 10-1 100101102
0.1
1
10
IG
VG
A
A
IG
1: IGT, TVJ = 140
°
C
2: IGT, TVJ = 25
°
C
3: IGT, TVJ = -40
°
C
µs
tgd
V
4: PGM = 20 W
5: PGM = 60 W
6: PGM = 120 W
IGD, TVJ = 140
°
C
4
2
156
Limit
typ.
TVJ = 25
°
C
3
0.01 0.1 1 10
1
10
100
10-3 10-2 10-1 100101102
0.1
1
10
IG
VG
A
A
IG
1: IGT, TVJ = 130
°
C
2: IGT, TVJ = 25
°
C
3: IGT, TVJ = -40
°
C
µs
tgd
V
4: PGM = 20 W
5: PGM = 60 W
6: PGM = 120 W
IGD, TVJ = 130
°
C
4
2
156
Limit
typ.
TVJ = 25
°
C
3
Dimensions in mm (1 mm = 0.0394")
M8x20
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ITAVM/IFAVM
IdAVM
Ptot
TA
TA
TC
s
t
ms
t
0.001 0.01 0.1 1
0
1000
2000
3000
4000
5000
6000
110
104
105
106
A2s
0 25 50 75 100 125 150
0
100
200
300
400
ITSM AA
°C
ITAVM
IFAVM
0 2550751001251500 100 200 300
0
100
200
300
400
W
Ptot
A°C
0 25 50 75 100 125 1500 200 400 600
0
500
1000
1500
2000
°C
I2dt
80 % VRRM
TVJ = 45°C
50 Hz
TVJ = 130°C
TVJ = 130°C
TVJ = 45°C
RthKA K/W
0.1
0.2
0.3
0.4
0.6
0.8
1.0
A
WRthKA K/W
0.3
0.1
0.15
0.2
0.06
0.08
0.04
180° sin
120°
60°
30°
DC
180° sin
120°
60°
30°
DC
B6
Circuit
3xMCC170
Fig. 3 Surge overload current
ITSM, IFSM: Crest value, t: duration Fig. 4 òi2dt versus time (1-10 ms) Fig. 4a Maximum forward current
at case temperature
Fig. 5 Power dissipation versus on-
state current and ambient
temperature (per thyristor or
diode)
Fig. 6 Three phase rectifier bridge:
Power dissipation versus direct
output current and ambient
temperature
MCC 170
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Fig. 7 Three phase AC-controller:
Power dissipation versus RMS
output current and ambient
temperature
Fig. 8 Transient thermal impedance
junction to case (per thyristor or
diode)
RthJC for various conduction angles d:
d RthJC (K/W)
DC 0.160
180°0.171
120°0.180
60°0.203
30°0.247
Constants for ZthJC calculation:
iR
thi (K/W) ti (s)
1 0.0077 0.00054
2 0.0413 0.098
3 0.096 0.54
4 0.0149 12
Fig. 9 Transient thermal impedance
junction to heatsink (per thyristor
or diode)
RthJK for various conduction angles d:
d RthJK (K/W)
DC 0.200
180°0.211
120°0.220
60°0.243
30°0.287
Constants for ZthJK calculation:
iR
thi (K/W) ti (s)
1 0.0077 0.00054
2 0.0413 0.098
3 0.096 0.54
4 0.0149 12
5 0.04 12
MCC 170
0 100 200 300 400
0
500
1000
1500
2000
s
t
ZthJK
s
t
10-3 10-2 10-1 100101102
0.00
0.05
0.10
0.15
0.20
0.25
0.30
K/W
ZthJC
K/W
IRMS
Ptot
0 25 50 75 100 125 150
A
Circuit
W3
0.2
0.15
0.1
RthKA K/W
0.3
TA
°C
10-3 10-2 10-1 100101102
0.00
0.05
0.10
0.15
0.20
0.25
3xMCC170
0.04
0.06
0.08
W
DC
180°
120°
60°
30°
DC
180°
120°
60°
30°
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