MMO62-12io6
1~ full-controlled
AC Controlling
Thyristor
2
13
4
Part number
MMO62-12io6
Backside: isolated
TAV
T
V V1,28
RRM
30
1200
=
V=V
I=A
Features / Advantages: Applications: Package:
Thyristor for line frequency
Planar passivated chip
Long-term stability
Line rectifying 50/60 Hz
Softstart AC motor control
DC Motor control
Power converter
AC power control
Lighting and temperature control
SOT-227B (minibloc)
Industry standard outline
RoHS compliant
Epoxy meets UL 94V-0
Base plate: Copper
internally DCB isolated
Advanced power cycling
Isolation Voltage: V~
3000
The data contained in this product data sheet is exclusively intended for technically trained staff. The user will have to evaluate the suitability of the product for the intended application and
the completeness of the product data with respect to his application. The specifications of our components may not be considered as an assurance of component characteristics. The
information in the valid application- and assembly notes must be considered. Should you require product information in excess of the data given in this product data sheet or which concerns
the specific application of your product, please contact the sales office, which is responsible for you.
Due to technical requirements our product may contain dangerous substances. For information on the types in question please contact the sales office, which is responsible for you.
Should you intend to use the product in aviation, in health or live endangering or life support applications, please notify. For any such application we urgently recommend
- to perform joint risk and quality assessments;
- the conclusion of quality agreements;
- to establish joint measures of an ongoing product survey, and that we may make delivery dependent on the realization of any such measures.
Terms Conditions of usage:
IXYS reserves the right to change limits, conditions and dimensions. 20150827bData according to IEC 60747and per semiconductor unless otherwise specified
© 2015 IXYS all rights reserved
MMO62-12io6
V = V
A²s
A²s
A²s
A²s
Symbol
Definition
Ratings
typ.
max.
I
V
IA
V
T
1,29
R0,9 K/W
min.
30
VV
100T = 25°C
VJ
T = °C
VJ
mA4V = V
T = 25°C
VJ
I = A
T
V
T = °C
C
95
P
tot
140 WT = 25°C
C
30
1200
forward voltage drop
total power dissipation
Unit
1,60
T = 25°C
VJ
125
V
T0
V0,87T = °C
VJ
150
r
T
13,6 m
V1,28T = °C
VJ
I = A
T
V
30
1,68
I = A60
I = A60
threshold voltage
slope resistance for power loss calculation only
µA
125
VV1200T = 25°C
VJ
IA66
P
GM
Wt = 30 µs 10
max. gate power dissipation
P
T = °C
C
150
Wt = 5
P
P
GAV
W0,5
average gate power dissipation
C
J
22
junction capacitance
V = V400 T = 25°Cf = 1 MHz
RVJ
pF
I
TSM
t = 10 ms; (50 Hz), sine T = 45°C
VJ
max. forward surge current
T = °C
VJ
150
I²t T = 45°C
value for fusing
T = °C150
V = 0 V
R
V = 0 V
R
V = 0 V
V = 0 V
t = 8,3 ms; (60 Hz), sine
t = 10 ms; (50 Hz), sine
t = 8,3 ms; (60 Hz), sine
t = 10 ms; (50 Hz), sine
t = 8,3 ms; (60 Hz), sine
t = 10 ms; (50 Hz), sine
t = 8,3 ms; (60 Hz), sine
VJ
R
VJ
R
thJC
thermal resistance junction to case
T = °C
VJ
150
400
430
580
555
A
A
A
A
340
365
800
770
1200
300 µs
RMS forward current per phase
RMS
TAV
180° sine
average forward current
(di/dt)
cr
A/µs
100repetitive, I =T
VJ
= 150 °C; f = 50 Hz
critical rate of rise of current
V
GT
gate trigger voltage
V = 6 V T = °C25
(dv/dt) T = 150°C
critical rate of rise of voltage
A/µs500
V/µs
t = µs;
I A; V = V
R = ∞; method 1 (linear voltage rise)
VJ
DVJ
90 A
T
P
G
= 0,3
di /dt A/µs;
G
=0,3
DRM
cr
V = V
DRM
GK
1000
1,5 V
T = °C-40
VJ
I
GT
gate trigger current
V = 6 V T = °C25
DVJ
100 mA
T = °C-40
VJ
1,6 V
150 mA
V
GD
gate non-trigger voltage
T = °C
VJ
0,2 V
I
GD
gate non-trigger current
5 mA
V = V
D DRM
150
latching current
T = °C
VJ
150 mA
I
L
25t µs
p
=10
I A;
G
= 0,3 di /dt A/µs
G
= 0,3
holding current
T = °C
VJ
100 mA
I
H
25V = 6 V
D
R =
GK
gate controlled delay time
T = °C
VJ
2 µs
t
gd
25
I A;
G
= 0,3 di /dt A/µs
G
= 0,3
V = ½ V
D DRM
turn-off time
T = °C
VJ
150 µs
t
q
di/dt = A/µs10 dv/dt = V/µs15
V =
R
100 V; I A;
T
= 20 V = V
DRM
tµs
p
= 200
non-repet., I = 30 A
T
125
R
thCH
0,20
thermal resistance case to heatsink
K/W
Rectifier
1300
RRM/DRM
RSM/DSM
max. non-repetitive reverse/forward blocking voltage
max. repetitive reverse/forward blocking voltage
R/D
reverse current, drain current
T
T
R/D
R/D
200
IXYS reserves the right to change limits, conditions and dimensions. 20150827bData according to IEC 60747and per semiconductor unless otherwise specified
© 2015 IXYS all rights reserved
MMO62-12io6
Ratings
abcdZyyww
XXXXX
Product Marking
Logo
Part No.
DateCode
Assembly Code
Assembly Line
®
Package
T
op
°C
M
D
Nm1,5
mounting torque
1,1
T
VJ
°C150
virtual junction temperature
-40
Weight g30
Symbol
Definition
typ.
max.
min.
operation temperature
Unit
M
T
Nm1,5
terminal torque
1,1
VV
t = 1 second
V
t = 1 minute
isolation voltage
mm
mm
10,5 3,2
8,6 6,8
d
Spp/App
creepage distance on surface | striking distance through air
d
Spb/Apb
terminal to backside
I
RMS
RMS current
150 A
per terminal
125-40
terminal to terminal
SOT-227B (minibloc)
Delivery Mode Quantity Code No.Ordering Number Marking on ProductOrdering
50/60 Hz, RMS; I 1 mA
ISOL
MMO62-12io6 459429Tube 10MMO62-12io6Standard
3000
ISOL
T
stg
°C150
storage temperature
-40
2500
threshold voltage
V0,87
m
V
0 max
R
0 max
slope resistance *
11,8
Equivalent Circuits for Simulation
T =
VJ
I
V
0
R
0
Thyristor
150 °C
* on die level
IXYS reserves the right to change limits, conditions and dimensions. 20150827bData according to IEC 60747and per semiconductor unless otherwise specified
© 2015 IXYS all rights reserved
MMO62-12io6
2
13
4
Outlines SOT-227B (minibloc)
IXYS reserves the right to change limits, conditions and dimensions. 20150827bData according to IEC 60747and per semiconductor unless otherwise specified
© 2015 IXYS all rights reserved
MMO62-12io6
0,01 0,1 1
100
150
200
250
300
3
5
0
0,4 0,8 1,2 1,6 2,0
0
20
40
60
80
10
0
10
1
10
2
10
3
10
4
0,0
0,2
0,4
0,6
0,8
1,0
I
TSM
[A]
I
T
[A]
V
T
[V]
t [ms]
Z
thJC
[K/W]
2 3 4 5 6 7 8 9 011
0
200
400
600
8
00
I
2
t
[A
2
s]
t [ms]
I
T(AV)M
[A]
T
C
[°C]
0 25 50 75 100 125 150
0
20
40
60
Fig. 1 Forward characteristics Fig. 3 I
2
t versus time (1-10 ms)
t [s]
Fig. 6 Max. forward current
at case temperature
Fig. 2 Surge overload current
Fig. 8 Transient thermal impedance junction to case
T
VJ
= 25°C
T
VJ
= 125°C
T
VJ
= 45°C
50 Hz, 80% V
RRM
T
VJ
= 125°C
T
VJ
= 45°C
V
R
= 0 V
125°C
150°C
0 10 20 30 40
0
10
20
30
40
50
60
I
T(AV)
[A]
P
(AV)
[W]
Fig. 7a Power dissipation versus direct output current
Fig. 7b and ambient temperature
0 50 100 150
T
amb
[°C]
dc =
1
0.5
0.4
0.33
0.17
0.08
Fig. 4 Gate trigger characteristics Fig. 5 Gate controlled delay time
dc =
1
0.5
0.4
0.33
0.17
0.08
1 10 100 1000 10000
0,1
1
10
V
G
[V]
1: I
GT
, T
VJ
= 125°C
2: I
GT
, T
VJ
= 25°C
3: I
GT
, T
VJ
= -40°C
4: P
GAV
= 0.5 W
5: P
GM
= 5 W
6: P
GM
= 10 W
I
GD
, T
VJ
= 125°C
3
4
2
1
56
I
G
[mA]
10 100 1000
1
10
100
1000
I
G
[mA]
T
VJ
= 25°C
t
gd
[µs]
typ. Limit
R
thHA
0.4
0.6
0.8
1.0
2.0
4.0
R
thi
[K/W] t
i
[s]
0.076 0.0005
0.134 0.019
0.460 0.124
0.230 0.450
Thyristor
IXYS reserves the right to change limits, conditions and dimensions. 20150827bData according to IEC 60747and per semiconductor unless otherwise specified
© 2015 IXYS all rights reserved