IXYS MCC132-16io1 Thyristor Module User Manual

June 16, 2024
IXYS

IXYS MCC132-16io1 Thyristor Module

Product Information

Product Specifications

  • Product Name: Thyristor Module
  • Phase Leg
  • Part Number: MCC132-16io1
  • VRRM (max. non-repetitive reverse/forward blocking voltage): 2x 1600 V
  • I TAV (average forward current): 130 A
  • VT (forward voltage drop): 1.08 V
  • Backside: isolated
  • Package: Y4
  • Isolation Voltage: 3600 V~
  • Industry standard outline
  • RoHS compliant
  • Soldering pins for PCB mounting
  • Base plate: DCB ceramic
  • Reduced weight
  • Advanced power cycling

FAQ

  • Can this thyristor module be used for line rectifying at 50/60 Hz?
    • Yes, this thyristor module is suitable for line rectifying at 50/60 Hz.
  • What is the maximum non-repetitive reverse/forward blocking voltage?
    • The maximum non-repetitive reverse/forward blocking voltage is 2x 1600 V.
  • Is this thyristor module RoHS compliant?
    • Yes, this thyristor module is RoHS compliant.
  • What is the isolation voltage of this module?
    • The isolation voltage of this module is 3600 V~.

Product Usage Instructions

Features / Advantages

  • Thyristor for line frequency
  • Planar passivated chip
  • Long-term stability
  • Direct Copper Bonded Al2O3-ceramic

Applications

  • Line rectifying 50/60 Hz
  • Softstart AC motor control
  • DC Motor control
  • Power converter
  • AC power control
  • Lighting and temperature control

Disclaimer Notice

Information furnished is believed to be accurate and reliable. However, users should independently evaluate the suitability of and test each product selected for their own applications. Littelfuse products are not designed for, and may not be used in, all applications. Read complete Disclaimer Notice at www.littelfuse.com/disclaimer-electronics.

Information

  • VRRM = 2x 1600V
  • ITAV = 130A
  • VT = 1.08V

Part number

  • MCC132-16io1

Product Overview

Features / Advantages

  • Thyristor for line frequency
  • Planar passivated chip
  • Long-term stability
  • Direct Copper Bonded Al2O3-ceramic

Applications And Package

Applications

  • Line rectifying 50/60 Hz
  • Softstart AC motor control
  • DC Motor control
  • Power converter
  • AC power control
  • Lighting and temperature control

Package: Y4

  • Isolation Voltage: 3 6 0 0 V~
  • Industry standard outline
  • RoHS compliant
  • Soldering pins for PCB mounting
  • Base plate: DCB ceramic
  • Reduced weight
  • Advanced power cycling

Specifications

Thyristor

Thyristor Ratings
Symbol **Definition
Conditions**
V RSM/DSM max. non-repetitive reverse/forward blocking voltage
TVJ = 25°C
V RRM/DRM max. repetitive reverse/forward blocking voltage
25°C
I R/D reverse current, drain current              VR/D = 1600 V
TVJ = 25°C
VR/D = 1600 V
V T forward voltage drop IT   = 150 A
TVJ = 25°C
I T = 300 A 1.36
IT   = 150 A                                                  TVJ = 125 °C
1.08
I T = 300 A 1.36
I TAV average forward current                      TC = 85°C
= 125°C
I T(RMS) RMS forward current                           180° sine
300 A

V T0

r T

| | | TVJ = 125°C| | | 0.80| V
1.5| mΩ
R thJC| thermal resistance junction to case| | | | | 0.23| K/W
R thCH| thermal resistance case to heatsink| | | | 0.1| | K/W
P tot| total power dissipation| | TC = 25°C| | | 435| W
I TSM max. forward surge current| t =  10 ms; (50 Hz), sine TVJ = 45°C| | | 4.75| kA
| t = 8,3 ms; (60 Hz), sine                          VR = 0 V| 5.13| kA
| t =  10 ms; (50 Hz), sine                          TVJ = 125°C| | | 4.04| kA
| t = 8,3 ms; (60 Hz), sine                          VR = 0 V| 4.36| kA
I²t value for fusing| t =  10 ms; (50 Hz), sine TVJ = 45°C| | | 112.8| kA²s
| t = 8,3 ms; (60 Hz), sine                          VR = 0 V| 109.5| kA²s
| t =  10 ms; (50 Hz), sine                          TVJ = 125°C| | | 81.6| kA²s
| t = 8,3 ms; (60 Hz), sine                          VR = 0 V| 79.1| kA²s
C J| junction capacitance                            VR = 400 V f = 1 MHz| | TVJ = 25°C| | 211| | pF
P GM| max. gate power dissipation                tP = 30 µs| | TC = 125°C| | | 120| W
| tP = 500 µs| | | 60| W
P GAV| average gate power dissipation| | | 8| W
(di/dt) cr| critical rate of rise of current                TVJ = 125 °C; f = 50 Hz

t = 200 µs; di /dt = 0.5

|

A/µs;

| repetitive, IT = 500 A| | | 150| A/µs
IG =    0.5 A; V  = ⅔ VDRM                non-repet., IT = 160 A| | |

500

|

A/µs

(dv/dt) cr critical rate of rise of voltage                V  =  ⅔ VDRM                                                                       TVJ = 125°C

R GK = ∞; method 1 (linear voltage rise)

| | | 1000| V/µs
V GT| gate trigger voltage                              VD = 6 V| | TVJ = 25°C| | | 2.5| V
| | | TVJ = -40°C| 2.6| V
I GT| gate trigger current                              VD = 6 V| | TVJ = 25°C| 150| mA
| | | TVJ = -40°C| 200| mA
V GD| gate non-trigger voltage                       VD = ⅔ VDRM| | TVJ = 125°C| | | 0.2| V
I GD| gate non-trigger current| | | 10| mA
I L latching current                                    t p  =     30 µs                                               TVJ = 25 °C

IG    =    0.5 A; diG /dt = 0.5 A/µs

| | | 300| mA
I H| holding current                                     VD = 6 V RGK = ∞| | TVJ = 25 °C| | | 200| mA
t gd gate controlled delay time                     VD   = ½ VDRM TVJ = 25 °C

IG     =   0.5 A; diG /dt =    0.5 A/µs

| | | 2| µs
t q turn-off time                                          VR = 100 V; IT = 160A; V = ⅔ VDRM  TVJ 100 °C

di/dt =   10 A/µs dv/dt =     20 V/µs tp = 200 µs

| | 150| | µs

Package

Package     Y4 Ratings
Symbol **Definition
Conditions**
I RMS RMS current
per terminal
T VJ virtual junction temperature
T op operation temperature
T stg storage temperature
Weight
M D mounting torque

M

T

| terminal torque| | | 4.5| 5.5| Nm
d Spp/App terminal to terminal

creepage distance on surface | striking distance through air

d Spb/Apb terminal to backside

| 14.0

16.0

| 10.0

16.0

| | | mm

mm

V

ISOL

| isolation voltage                                                   t = 1 second t = 1 minute|

50/60 Hz, RMS; IISOL ≤ 1 mA

| | 3600| | | V
3000| V

Ordering| Ordering Number| Marking on Product| Delivery Mode| Quantity| Code No.
---|---|---|---|---|---
Standard| MCC132-16io1| MCC132-16io1| Box| 6| 430579

Equivalent Circuits for Simulation

Outlines

Outlines Y4

Dim.| MIN       MAX

[mm]      [mm]

| MIN         MAX

[inch]       [inch]

---|---|---
a| 30.0| 30.6| 1.181| 1.205
b| typ. 0.25| typ. 0.010
c| 64.0| 65.0| 2.520| 2.559
d| 6.5| 7.0| 0.256| 0.275
e| 4.9| 5.1| 0.193| 0.201
f| 28.6| 29.2| 1.126| 1.150
g| 7.3| 7.7| 0.287| 0.303
h| 93.5| 94.5| 3.681| 3.720
i| 79.5| 80.5| 3.130| 3.169
j| 4.8| 5.2| 0.189| 0.205
k| 33.4| 34.0| 1.315| 1.339
l| 16.7| 17.3| 0.657| 0.681
m| 22.7| 23.3| 0.894| 0.917
n| 22.7| 23.3| 0.894| 0.917
o| 14.0| 15.0| 0.551| 0.591
p| typ. 10.5| typ. 0.413
q| 22.8| 23.3| 0.898| 0.917
r| 1.8| 2.4| 0.071| 0.041

Optional accessories for modules

  • Keyed gate/cathode twin plugs with wire length = 350 mm, gate = white, cathode = red

Overview

Frequencies

Disclaimer Notice

Information furnished is believed to be accurate and reliable. However, users should independently evaluate the suitability of and test each product selected for their own applications. Littelfuse products are not designed for, and may not be used in, all applications. Read complete Disclaimer Notice at www.littelfuse.com/disclaimer-electronics.

IXYS reserves the right to change limits, conditions and dimensions.
Data according to IEC 60747and per semiconductor unless otherwise specified

© 2019 IXYS all rights reserved

References

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