Bulletin I27134 rev. E 10/02
IRKU/V41, 56 SERIES
THYRISTOR/ THYRISTOR
ADD-A-pak
TM
GEN V Power Modules
Features
High Voltage
Industrial Standard Package
Thick Al metal die and double stick bonding
Thick copper baseplate
UL E78996 approved
3500V
RMS
isolating voltage
Benefits
Up to 1600V
Full compatible TO-240AA
High Surge capability
Easy Mounting on heatsink
Al
2
0
3
DBC insulator
Heatsink grounded
45 A
60 A
Mechanical Description
The Generation V of Add-A-pak module combine the
excellent thermal performance obtained by the usage
of Direct Bonded Copper substrate with superior
mechanical ruggedness, thanks to the insertion of a
solid Copper baseplate at the bottom side of the device.
The Cu baseplate allow an easier mounting on the
majority of heatsink with increased tolerance of surface
roughness and improve thermal spread.
The Generation V of AAP module is manufactured
without hard mold, eliminating in this way any possible
direct stress on the leads.
The electrical terminals are secured against axial pull-out:
they are fixed to the module housing via a click-stop
feature already tested and proved as reliable on other IR
modules.
Electrical Description
These modules are intended for general purpose high
voltage applications such as high voltage regulated power
supplies, lighting circuits, temperature and motor speed
control circuits, UPS and battery charger.
Major Ratings and Characteristics
Parameters
I
T(AV)
@ 85°C
I
T(RMS)
I
TSM
@ 50Hz
@ 60Hz
I
2
t
@ 50Hz
@ 60Hz
I
2
√t
V
RRM
range
T
STG
T
J
IRKU/V41
45
70
850
890
3.61
3.30
36.1
IRKU/V56
60
95
1310
1370
8.50
7.82
85.0
Units
A
A
A
A
KA
2
s
KA
2
s
KA
2
√s
V
o
400 to 1600
- 40 to 125
- 40 to125
C
C
o
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1
IRKU/V41, 56 Series
Bulletin I27134 rev. E 10/02
ELECTRICAL SPECIFICATIONS
Voltage Ratings
Type number
Voltage
Code
-
04
IRKU/V41, 56
08
12
16
V
RRM
, maximum
V
RSM
, maximum
V
DRM
, max. repetitive
repetitive
non-repetitive
peak off-state voltage,
peak reverse voltage peak reverse voltage
gate open circuit
V
V
V
400
800
1200
1600
500
900
1300
1700
400
800
1200
1600
I
RRM
I
DRM
125°C
mA
15
On-state Conduction
Parameters
I
T(AV)
Max. average on-state
current
I
T(RMS
)
Max. RMS on-state
current
I
TSM
@ T
C
Max. peak, one cycle
non-repetitive on-state
current
70
82
850
890
715
750
940
985
I
2
t
Max. I
2
t for fusing
3.61
3.30
2.56
2.33
4.42
4.03
I
√t
2
IRKU/V41
45
IRKU/V56
60
Units
Conditions
180
o
conduction, half sine wave,
T
C
= 85
o
C
DC
A
95
80
1310
1370
1100
1150
1450
1520
8.56
7.82
6.05
5.53
10.05
9.60
85.6
0.85
0.88
3.53
3.41
1.54
KA
√s
2
°C
t=10ms
t=10ms
t=10ms
t=10ms
t=10ms
t=10ms
No voltage
100% V
RRM
T
J
= 25
o
C,
No voltage
100% V
RRM
T
J
= 25
o
C,
Initial T
J
= T
J
max.
Sinusoidal
half wave,
Initial T
J
= T
J
max.
t=8.3ms reapplied
A
t=8.3ms reapplied
t=8.3ms no voltage reapplied
t=8.3ms reapplied
KA s
2
t=8.3ms reapplied
t=8.3ms no voltage reapplied
t=0.1 to 10ms, no voltage reapplied
Low level (3)
High level (4)
Low level (3)
High level (4)
I
TM
=
π
x I
T(AV)
I
FM
=
π
x I
F(AV)
T
J
= T
J
max
T
J
= T
J
max
T
J
= 25°C
Max. I
√t
for fusing (1)
2
36.1
0.88
0.91
5.90
5.74
1.81
V
T(TO)
Max. value of threshold
voltage (2)
r
t
V
TM
di/dt
Max. value of on-state
slope resistance (2)
Max. peak on-state
voltage
Max. non-repetitive rate
of rise of turned on
current
I
H
I
L
Max. holding current
Max. latching current
V
mΩ
V
T
J
= 25
o
C, from 0.67 V
DRM
,
150
200
mA
400
A/µs
I
TM
=π x I
T(AV)
,
I = 500mA,
g
t
r
< 0.5 µs, t
p
> 6 µs
T
J
= 25
o
C, anode supply = 6V,
resistive load, gate open circuit
T
J
= 25
o
C, anode supply = 6V,resistive load
(1) I
2
t for time t = I
2
√t
x
√t
.
x
x
(3) 16.7%
x
π
x I
AV
< I <
π
x I
AV
(2) Average power =
V
T(TO)
x I
T(AV)
+
r
t
x
(
I
T(RMS)
)
2
(4)
I >
π
x I
AV
2
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IRKU/V41, 56 Series
Bulletin I27134 rev. E 10/02
Triggering
Parameters
P
GM
Max. peak gate power
IRKU/V41
10
2.5
2.5
10
4.0
2.5
1.7
270
150
80
IRKU/V56
10
2.5
2.5
Units
W
A
Conditions
P
G(AV)
Max. average gate power
I
GM
Max. peak gate current
gate voltage
V
GT
Max. gate voltage
required to trigger
I
GT
Max. gate current
required to trigger
V
GD
I
GD
Max. gate voltage
that will not trigger
Max. gate current
that will not trigger
-V
GM
Max. peak negative
V
T
J
= - 40°C
T
J
= 25°C
T
J
= 125°C
T
J
= - 40°C
Anode supply = 6V
resistive load
Anode supply = 6V
resistive load
mA
T
J
= 25°C
T
J
= 125°C
0.25
6
V
mA
T
J
= 125
o
C,
rated V
DRM
applied
T
J
= 125
o
C,
rated V
DRM
applied
Blocking
Parameters
I
RRM
I
DRM
V
INS
Max. peak reverse and
off-state leakage current
at V
RRM
, V
DRM
RMS isolation voltage
2500 (1 min)
3500 (1 sec)
dv/dt Max. critical rate of rise
of off-state voltage (5)
500
V
50 Hz, circuit to base, all terminals
shorted
T
J
= 125
o
C, linear to 0.67 V
DRM
,
gate open circuit
15
mA
T
J
= 125
o
C, gate open circuit
IRKU/V41, 56
Units
Conditions
V/µs
(5) Available with dv/dt = 1000V/µs, to complete code add S90 i.e. IRKU41/16AS90.
Thermal and Mechanical Specifications
Parameters
T
J
T
stg
Junction operating
temperature range
Storage temper. range
IRKU/V41
IRKU/V56
Units
Conditions
- 40 to 125
- 40 to 125
°C
R
thJC
Max. internal thermal
resistance, junction
to case
R
thCS
Typical thermal resistance
case to heatsink
T
Mounting torque ± 10%
to heatsink
busbar
wt
Approximate weight
Case style
0.1
5
Nm
3
110 (4)
TO-240AA
g (oz)
JEDEC
0.23
0.20
K/W
Mounting surface flat, smooth and greased
A mounting compound is recommended
and the torque should be rechecked after
a period of 3 hours to allow for the spread
of the compound
Per module, DC operation
∆R
Conduction (per Junction)
Devices
IRKU/V41
IRKU/V56
(The following table shows the increment of thermal resistance R
thJC
when devices operate at different conduction angles than DC)
Sine half wave conduction
180
0.11
0.09
o
Rect. wave conduction
30
0.34
0.27
o
120
0.13
0.11
o
90
0.17
0.13
o
60
0.23
0.18
o
180
0.09
0.07
o
120
o
0.14
0.11
90
o
0.18
0.14
60
o
0.23
0.19
30
o
0.34
0.28
Units
°C/W
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IRKU/V41, 56 Series
Bulletin I27134 rev. E 10/02
Ordering Information Table
Device Code
IRK.57 types
With no auxiliary cathode
IRK
1
1
2
3
4
5
6
-
-
-
-
-
-
Module type
U
2
56
3
/
16
4
A
5
S90
6
Circuit configuration (See Circuit Configuration table below)
Current code
* *
Voltage code (See Voltage Ratings table)
A : Gen V
dv/dt code:
S90 = dv/dt 1000 V/µs
No letter = dv/dt 500 Vµs
e.g. : IRKU57/16A etc.
* *
Available with no auxiliary cathode.
To specify change:
56 to 57
41 to 42
Outline Table
Dimensions are in millimeters and [inches]
IRKU
(1)
+
IRKV
(1)
-
(2)
-
+
(2)
-
(3)
G1
K1
(4) (5)
K2
G2
(7) (6)
G1 K1
+
(3)
K2 G2
(4) (5)
(7) (6)
NOTE: To order the Optional Hardware see Bulletin I27900
4
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IRKU/V41, 56 Series
Bulletin I27134 rev. E 10/02
Maximum Allowable Case Temperature (°C)
Maximum Allowable Case Temperature (°C)
130
130
IRK.41.. Series
R
thJC
(DC) = 0.46 K/W
IRK.41.. Series
R
thJC
(DC) = 0.46 K/W
120
120
110
Conduction Angle
110
30°
60°
90°
90
120°
Conduction Period
100
100
30°
60°
90°
90
120°
180°
180°
DC
0
20
40
60
80
80
0
10
20
30
40
50
80
Average On-state Current (A)
Average On-state Current (A)
Fig. 1 - Current Ratings Characteristics
Maximum Average On-state Power Loss (W)
70
60
50
40
30
Conduction Angle
Fig. 2 - Current Ratings Characteristics
100
DC
180°
120°
90°
60°
30°
Maximum Average On-state Power Loss (W)
180°
120°
90°
60°
30°
80
RMS Limit
60
RMS Limit
40
Conduction Period
20
10
0
IRK.41.. Series
Per Junction
T
J
= 125°C
0
10
20
30
40
50
20
IRK.41.. Series
Per Junction
T
J
= 125°C
0
20
40
60
80
0
Average On-state Current (A)
Average On-state Current (A)
Fig. 3 - On-state Power Loss Characteristics
800
900
800
700
600
500
400
Fig. 4 - On-state Power Loss Characteristics
Peak Half Sine Wave On-state Current (A)
700
At Any Rated Load Condition And With
Rated V
RRM
Applied Following Surge.
Initial T
J
= 125°C
@ 60 Hz 0.0083 s
@ 50 Hz 0.0100 s
Peak Half Sine Wave On-state Current (A)
600
Maximum Non Repetitive Surge Current
Versus Pulse Train Duration. Control
Of Conduction May Not Be Maintained.
Initial T
J
125°C
=
No Voltage Reapplied
Rated V
RRM
Reapplied
500
400
IRK.41.. Series
Per Junction
300
1
10
100
IRK.41.. Series
Per Junction
0.1
Pulse Train Duration (s)
1
300
0.01
Number Of Equal Amplitude Half Cycle Current Pulses (N)
Fig. 5 - Maximum Non-Repetitive Surge Current
Fig. 6 - Maximum Non-Repetitive Surge Current
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