IRF IRKT162/04

Bulletin I27117 rev. C 03/02
SERIES
IRK.136, .142, .162
THYRISTOR/DIODE and
THYRISTOR/THYRISTOR
NEW INT-A-pak Power Modules
Features
135 A
140 A
160 A
High Voltage
Electrically Isolated by DBC Ceramic ( Al 2 O 3 )
3500 V RMS Isolating Voltage
Industrial Standard Package
High Surge Capability
Glass Passivated Chips
Modules uses High Voltage Power thyristor/diodes
in three Basic Configurations
Simple Mounting
UL E78996 approved
Applications
DC Motor Control and Drives
Battery Charges
Welders
Power Converters
Lighting Control
Heat and Temperature Control
Major Ratings and Characteristics
Parameters
IT(AV)
@ TC
IT(RMS)
CASE STYLE NEW INT-A-PAK
IRK.136.. IRK.142.. IRK.162.. Units
135
140
160
A
85
85
85
°C
300
310
355
A
ITSM @ 50Hz
3200
4500
4870
A
@ 60Hz
3360
4712
5100
A
I2t @ 50Hz
51.5
102
119
KA2s
@ 60Hz
I2√t
47
92.5
108
KA2s
515.5
1013
1190
KA2√s
VRRM
400 to 1600
V
TJ range
- 40 to 125
°C
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1
IRK.136, .142, .162 Series
Bulletin I27117 rev. C 03/02
Electrical Specifications
Voltage Ratings
Type number
Voltage VRRM/VDRM , Maximum repetitive VRSM/VDSM, Maximum non-repetitive
Code
peak reverse voltage
peak reverse voltage
V
V
IRK.136
04
400
500
IRK.142
08
800
900
IRK.162
12
1200
1300
14
1400
1500
16
1600
1700
IRRM / IDRM
@ 125°C
mA
50
Forward Conduction
Parameter
IT(AV) Max. average on-state current
IRK.136
IRK.142
IRK.162
Units Conditions
135
140
160
A
°C
180° conduction, half sine wave
@ Case temperature
85
85
85
IT(RMS) Max. RMS on-state current
300
310
355
A
as AC switch
Maximum peak, one-cycle
3200
4500
4870
A
t = 10ms
on-state, non-repetitive
3360
4712
5100
t = 8.3ms reapplied
surge current
2700
3785
4100
t = 10ms
2800
3963
4300
t = 8.3ms reapplied
51.5
102
119
47
92.5
108
t = 8.3ms reapplied
36.5
71.6
84
t = 10ms
ITSM
I2t
I2√t
Maximum I2t for fusing
Maximum I2√t for fusing
VT(TO)1 Low level value of threshold
33.3
65.4
76.7
515.5
1013
1190
0.86
0.83
0.8
1.05
1
0.98
2.02
1.78
1.67
1.65
1.43
1.38
1.57
1.55
1.54
KA2s
t = 10ms
No voltage
100% VRRM
No voltage
Sine half wave,
Initial TJ = TJ max.
100% VRRM
t = 8.3ms reapplied
KA2√s t = 0.1 to 10ms, no voltage reapplied
V
(16.7% x π x IT(AV) < I < π x IT(AV)), @ TJ max.
voltage
VT(TO)2 High level value of threshold
(I > π x IT(AV)), @ TJ max.
voltage
rt1
Low level value on-state
mΩ
(16.7% x π x IT(AV) < I < π x IT(AV)), @ TJ max.
slope resistance
rt2
High level value on-state
(I > π x IT(AV)), @ TJ max.
slope resistance
V
ITM = π x IT(AV), TJ = 25°C, 180°conduction
VTM
Maximum forward voltage drop
IH
Maximum holding current
200
mA
Anode supply = 6V initial IT = 30A, TJ = 25°C
IL
Maximum latching current
400
mA
Anode supply = 6V resistive load = 1Ω
Gate pulse: 10V, 100µs, TJ = 25°C
Switching
tgd
Typical delay time
1
tgr
Typical rise time
2
tq
Typical turn-off time
50 - 200
µs
TJ = 25oC
Gate Current=1A dIg/dt=1A/µs
TJ = 25 C
Vd=0,67% VDRM
o
ITM = 300 A; -dI/dt = 15 A/µs; TJ = TJ max
Vr = 50 V; dV/dt = 20 V/µs; Gate 0 V, 100Ω
2
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IRK.136, .142, .162 Series
Bulletin I27117 rev. C 03/02
Blocking
IRRM
Maximum peak reverse and
IDRM
off-state leakage current
VINS
RMS isolation voltage
50
mA
TJ = 125oC
3500
V
1000
V/µs
IRK.142
IRK.162
dV/dt critical rate of rise of off-state voltage
50Hz, circuit to base, all terminals shorted, t = 1s
TJ = TJ max., exponential to 67% rated VDRM
Triggering
Parameter
PGM
IRK.136
Max. peak gate power
PG(AV) Max. average gate power
Units Conditions
12
W
tp ≤ 5ms, TJ = TJ max.
3
W
f=50Hz, TJ = TJ max.
tp ≤ 5ms, TJ = TJ max.
IGM
Max. peak gate current
3
A
-VGT
Max. peak negative
10
V
4
V
gate voltage
VGT
Max. required DC gate
TJ = - 40°C
Anode supply = 6V, resistive
TJ = 25°C
load; Ra = 1Ω
voltage to trigger
2.5
1.7
TJ = TJ max.
Max. required DC gate
270
TJ = - 40°C
Anode supply = 6V, resistive
current to trigger
150
mA
TJ = 25°C
load; Ra = 1Ω
VGD
Max. gate voltage
80
0.3
V
IGD
that will not trigger
Max. gate current
that will not trigger
10
mA
300
A/µs
IGT
di/dt
Max. rate of rise of
turned-on current
TJ = TJ max.
@ TJ = TJ max., rated VDRM applied
@ TJ = TJ max., ITM = 400A rated VDRMapplied
Thermal and Mechanical Specifications
Parameter
IRK.136
IRK.142
IRK.162
Units Conditions
TJ
Max. junction operating
-40 to 125
°C
Tstg
temperature range
Max. storage temperature
-40 to 150
°C
RthJC
range
Max. thermal resistance,
junction to case
0.18
RthCS
Max. thermal resistance,
case to heatsink
T
Mounting
IAP to heatsink
torque ± 10% busbar to IAP
Approximate weight
wt
Case Style
0.18
0.16
K/W
DC operation, per junction
0.05
K/W
Mounting surface smooth, flat and greased
Per module
4 to 6
4 to 6
200 (7.1)
Nm
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. Lubricated threads.
g(oz)
New Int-A-Pak
∆R Conduction (per Junction)
(The following table shows the increment of thermal resistance RthJC when devices operate at different conduction angles than DC)
Devices
Sinusoidal conduction @ TJ max.
180o
120o
90o
60o
Rectangular conduction @ TJ max.
30o
180o
120o
90o
60o
30o
IRK.136
0.007
0.01
0.013
0.0155
0.017
0.009
0.012
0.014
0.015
0.017
IRK.142
0.0019
0.0019
0.0020
0.0020
0.0021
0.0018
0.0022
0.0023
0.0023
0.0020
IRK.162
0.0030
0.0031
0.0032
0.0033
0.0034
0.0029
0.0036
0.0039
0.0041
0.0040
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Units
K/W
3
IRK.136, .142, .162 Series
Bulletin I27117 rev. C 03/02
Ordering Information Table
Device Code
IRK
T
162
1
2
3
/
16
4
1
-
Module Type
2
-
Circuit Configuration
3
-
Current Rating: IT(AV)
4
-
Voltage Code: Code x 100 = VRRM
Outline Table
Dimensions are in millimeters and [inches]
IRKT
IRKH
IRKL
1
1
1
2
2
2
3
3
3
5 7
4 6
5
4
7
6
NOTE: To order the Optional Hardware see Bulletin I27900
4
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IRK.136, .142, .162 Series
13 0
IRK.136.. Series
R thJC (D C ) = 0.18 K/W
12 0
11 0
C o nd uctio n Angle
10 0
90
30
60
90
80
120
180
70
0
20
40
60
80
10 0
12 0
14 0
M axim um Allow a b le C ase Tem perature ( C )
M a xim um Allo w a ble C ase Tem peratu re ( C )
Bulletin I27117 rev. C 03/02
13 0
IRK .1 3 6 .. Se ries
R thJC (D C ) = 0 .1 8 K/W
12 0
11 0
C o n d u c tio n P e rio d
10 0
30
60
90
90
120
80
180
0
50
Averag e Forw ard C urren t (A )
RM S Lim it
100
C o nd uctio n Angle
IRK .136.. Se ries
Per Junction
T J = 125 C
50
0
0
30
60
90
12 0
15 0
M axim um Averag e O n-state Pow er Loss (W )
M a xim um A vera ge O n-state Pow er Loss (W )
180
120
90
60
30
150
DC
180
120
90
60
30
300
250
200
100
C o n d uc tio n P eriod
IRK .136.. Se ries
Per Junction
TJ = 12 5 C
50
0
0
50
24 0 0
22 0 0
20 0 0
18 0 0
16 0 0
IRK.136.. Series
Per Junction
12 0 0
1
10
10 0
Num b er O f Eq ua l Am p litud e H a lf C yc le C urre nt P ulses (N)
Fig.5 - Maximum Non-Repetitive Surge Current
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1 00
1 50
2 00
2 50
Fig. 4 - On-State Power Loss Characteristics
Peak Ha lf Sine W a ve O n -sta te C urrent (A)
Pea k H alf Sin e W a ve O n -sta te C urren t (A )
In itial TJ = 125 C
@ 60 Hz 0.00 83 s
@ 50 Hz 0.01 00 s
14 0 0
RM S Lim it
A vera ge O n -sta te C urrent (A)
A t A ny R ate d Lo ad C o nditio n A n d W ith
R ated V RRM A pplied Follo w ing Surge .
26 0 0
25 0
150
Averag e O n-state C urrent (A)
28 0 0
2 00
350
Fig. 3 - On-State Power Loss Characteristics
30 0 0
15 0
Fig. 2 - Current Ratings Characteristics
300
200
100
Averag e O n-state C urren t (A )
Fig. 1 - Current Ratings Characteristics
250
DC
70
35 0 0
Maxim um No n Repetitive Surge Curre nt
V ers us Pulse Train D uratio n. C ontrol
O f Co nductio n M ay Not Be M aintained.
In itial T J= 125 C
No V oltag e Re ap plie d
Ra te d V
Re ap plie d
30 0 0
RRM
25 0 0
20 0 0
15 0 0
IRK.1 36.. Se ries
Pe r Ju nction
10 0 0
0 .0 1
0.1
1
Pulse Tra in D ura tion (s)
Fig. 6 - Maximum Non-Repetitive Surge Current
5
IRK.136, .142, .162 Series
450
S
R th
W
K/
. 01
=0
/W
A
4K
e lt
-D
aR
50
W
K /W
150
IRK.136.. Se rie s
Pe r M odule
TJ = 12 5 C
W
K /W
0 .6
100
0 .0
0 .4
200
K/
W
250
K/
K/
C onductio n Angle
25
08
300
0.
16
W
350
K/
0.
180
120
90
60
30
12
400
0.
0.
M axim um Tota l O n -sta te Pow e r Loss (W )
Bulletin I27117 rev. C 03/02
1 K/
W
0
0
50
100
150
200
250
Tota l R M S Outp ut C urre nt (A)
300
0
25
50
75
1 00
125
M axim um A llowab le Am bient Tem pera ture ( C )
Fig.7 - On State Power Loss Characteristics
A
hS
R t
90 0
0.
04
60 0
0 .2
K/
K/
50
75
W
W
a
e lt
-D
50 0
08
W
180
(Sine )
180
(Re ct)
12
K/
0.
. 01
=0
0.
70 0
W
80 0
K/
K /W
R
M axim um To ta l P o we r Lo ss (W )
1 0 00
40 0
0 .3 5
30 0
K /W
2 x IRK.136.. Series 0 .
6 K /W
Single P hase Brid ge
C onnected
T J = 125 C
20 0
10 0
0
0
55
11 0
165
220
Total O utp ut C urre nt (A)
2 07 5
25
100
125
M axim um Allowab le Am bient Te m p era ture ( C )
Fig.8 - On State Power Loss Characteristics
R
th
=
12 0 0
SA
0.
el
W
ta
R
6K
/
W
-D
0 .1
60 0
K/
K/
W
08
0.1
K/
0.
120
(Rec t)
90 0
04
M a xim u m To ta l Po w e r Lo ss (W )
15 0 0
W
0 . 25
K /W
3 x IR K.1 3 6.. Serie s
Th ree Ph a se B rid g e 0 .4 K / W
C o n n ec te d
1 K /W
T J = 12 5 C
30 0
0
0
10 0
20 0
3 00
To ta l O u tp u t C u rre nt (A )
4 000
25
50
75
1 00
1 25
M axim u m A llo w a b le A m b ien t Tem p e ra tu re ( C )
Fig.9- On State Power Loss Characteristics
6
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IRK.136, .142, .162 Series
IRK.142.. Series
R thJC (D C ) = 0.18 K/W
120
110
C o nd uctio n Angle
100
30
90
60
90
80
120
180
70
0
30
60
90
1 20
1 50
M axim um Allow a ble C ase Tem perature ( C )
130
130
IR K.1 4 2 .. Se rie s
R thJC (D C ) = 0 .1 8 K /W
120
110
C o n d uc tio n P e rio d
100
30
60
90
90
120
80
180
DC
70
0
50
200
25 0
Fig. 10 - Current Ratings Characteristics
Fig. 11 - Current Ratings Characteristics
180
120
90
60
30
20 0
15 0
RMS Lim it
10 0
C o nd uc tio n Angle
50
IRK .142.. Series
Per Junction
TJ = 12 5 C
0
0
30
60
90
1 20
1 50
35 0
DC
180
120
90
60
30
30 0
25 0
20 0
15 0 R M S L im it
C o nd u c tio n Pe rio d
10 0
IRK .1 4 2 .. Se rie s
P er Ju n c tio n
TJ = 12 5 C
50
0
0
50
Averag e O n-state C urren t (A )
A t A ny Rated Lo ad C o nditio n A n d W ith
R ated V RRM A pplied Follo w ing Surge .
In itial T J= 125 C
@ 60 Hz 0.00 83 s
@ 50 Hz 0.01 00 s
40 0 0
35 0 0
30 0 0
25 0 0
IRK.142.. Series
Per Junction
15 0 0
1
10
10 0
N um b er O f Eq ua l A m p litud e H a lf Cy cle C urrent P ulses (N )
Fig.14 - Maximum Non-Repetitive Surge Current
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1 50
2 00
2 50
Fig. 13 - On-State Power Loss Characteristics
Pea k H alf Sin e W ave O n -sta te C urren t (A)
45 0 0
1 00
Averag e O n-state C urren t (A )
Fig. 12 - On-State Power Loss Characteristics
Peak H a lf Sin e W a ve O n -stat e C urren t (A)
15 0
Averag e O n-state C urrent (A)
25 0
20 0 0
100
A vera ge Forw a rd C urrent (A)
M axim um Averag e O n -state Pow er Loss (W )
M axim um A ve ra ge O n -sta te Po w er Lo ss (W )
M a xim um Allo w ab le C ase Tem peratur e ( C)
Bulletin I27117 rev. C 03/02
5 00 0
M axim um Non Repetitive Surge Current
V e rsus Pulse Train D uratio n. C o ntro l
O f Co nductio n Ma y No t Be M aintained .
Initia l T J= 125 C
N o V oltag e Re a pp lied
Ra te d V R R M
Re a pp lie d
4 50 0
4 00 0
3 50 0
3 00 0
2 50 0
2 00 0
IRK.1 42.. Se rie s
Pe r Ju nction
1 50 0
0 .0 1
0 .1
1
Pu lse Tra in D uration (s)
Fig. 15 - Maximum Non-Repetitive Surge Current
7
IRK.136, .142, .162 Series
400
R
W
/
4K
0.0
W
K/
08
0.
W
K/
12 W
K/
16
0.
0.
th
SA
0.
K/
0 .6
W
W
aR
200
K/
e lt
-D
0 .4
25
K /W
180
120
90
60
30
300
.0 1
=0
M axim um Total O n-state Pow e r Lo ss (W )
Bulletin I27117 rev. C 03/02
K/W
C o nductio n A n g le
1K
/W
IRK.142.. Se rie s
Per M odule
T J = 125 C
100
0
0
50
100
150
200
250
Tota l R M S O utp ut C urre nt (A)
300
25
50
75
10 0
12 5
M axim um A llowa ble A m b ient Tem perature ( C )
Fig.16 - On State Power Loss Characteristics
hS
R t
0.
04
/W
1K
2 00
R
100
To ta l O u tp ut C u rre nt (A )
lta
0 .2
e
-D
0
.0
=0
0
W
2K
/W
0.1
6K
/W
2 x IR K .1 4 2.. Se ries
Sin g le P h a se Brid g e
C o n n ec te d
T J = 12 5 C
20 0
A
40 0
K/
0 .1
180
(Sine )
180
(Re ct)
60 0
08
W
0.
80 0
K/
M a xim um Tota l P o w er Lo ss (W )
1 00 0
5K
/W
0 .6 K
/W
0
3 00
25
50
75
10 0
12 5
M axim um A llowa ble A m b ient Tem perature ( C )
Fig.17 - On State Power Loss Characteristics
S
R th
0.
06
K/
W
W
e
-D
0.0
8 00
/
2K
0.
120
(Rec t)
0.0
W
12 0 0
=
K/
A
04
8K
/W
l ta
R
Ma xim u m Total Power Lo ss (W )
16 0 0
0.1
K/
W
3 x IRK.142.. Series
Three P hase Brid ge 0 .1 6 K /W
C o nnected
0.2 K/W
TJ = 125 C
4 00
0
0
5 0 10 0 1 5 0 20 0 25 0 30 0 35 0 4 0 0 450 0
Total O utp ut C urre nt (A)
25
50
75
10 0
12 5
M axim um A llowab le Am bie nt Tem perature ( C )
Fig.18- On State Power Loss Characteristics
8
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IRK.136, .142, .162 Series
IRK.162.. Series
R thJ C (D C ) = 0.16 K/W
120
110
C o nd uc tio n Angle
100
90
30
60
90
80
120
180
70
0
30
60
90
1 20
150
180
M axim um Allow a b le C ase Tem perature ( C )
130
1 30
IRK .162.. Series
R thJC (DC ) = 0.16 K/W
1 20
1 10
1 00
C on d uctio n P e rio d
30
90
60
80
90
120
70
180
0
50
100
15 0
20 0
2 50
300
A vera ge O n -sta te C urrent (A)
Fig. 19 - Current Ratings Characteristics
Fig. 20 - Current Ratings Characteristics
4 00
IRK .162.. Se ries
3 50 Per Junction
TJ = 125 C
3 00
180
120
2 50
90
60
2 00
30
RM S Lim it
1 50
1 00
50
C o nd uc tio n Angle
0
0
20
40
60
8 0 10 0 1 20 1 40 1 6 0 1 8 0
40 0
DC
180
120
90
60
30
35 0
30 0
25 0
20 0
RM S Lim it
15 0
C o n du c tio n Pe rio d
10 0
IRK.162.. Se ries
Per Junctio n
T = 125 C
50
J
0
0
30
Averag e O n-state C urren t (A)
A t A ny R ate d Lo ad C on dition A n d W ith
Rate d V RRM A pplie d Fo llow ing Surg e .
4 00 0
In itial T J = 125 C
@ 60 Hz 0.00 83 s
@ 50 Hz 0.01 00 s
3 50 0
3 00 0
2 50 0
2 00 0
IRK.162.. Series
Per Jun ction
1 50 0
1
10
10 0
Num b er O f Eq ua l Am p litud e H a lf C ycle C urrent P ulse s (N)
Fig.23 - Maximum Non-Repetitive Surge Current
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9 0 1 2 0 15 0 1 80 2 10 2 4 0 2 7 0
Fig. 22 - On-State Power Loss Characteristics
Peak Ha lf Sine W av e O n -sta te C urrent (A)
4 50 0
60
Averag e O n -sta te C urren t (A )
Fig. 21 - On-State Power Loss Characteristics
Pea k H alf Sin e W a ve O n-state C urren t (A )
DC
60
Averag e Fo rw ard C urrent (A)
M a xim um A vera g e O n -sta te Pow e r Lo ss (W )
M axim um Averag e O n-state Pow er Loss (W )
M a xim um A llow ab le C a se Tem p era ture ( C )
Bulletin I27117 rev. C 03/02
50 0 0
M axim um Non Repetitive Surge Current
V e rsus Pulse Train D uratio n. C o ntro l
O f Co nductio n Ma y No t Be M aintained .
In itia l T J= 125 C
No V olta ge Re ap plied
Ra te d V R R M
Re ap plie d
45 0 0
40 0 0
35 0 0
30 0 0
25 0 0
20 0 0
IRK .162.. Series
Per Junction
15 0 0
0.0 1
0 .1
1
Pu lse Tra in D uration (s)
Fig. 24 - Maximum Non-Repetitive Surge Current
9
IRK.136, .142, .162 Series
600
S
R th
A
0. 0
W
=
K/
W
2
K/
W
W
ta
el
-D
6K
/W
0.2
R
C onductio n An gle
K /W
IRK.162.. Se rie s
Pe r M odule
T J = 125 C
100
04
K/
0 .1
200
K/
W
0.1
300
08
K/
400
0.
06
180
120
90
60
30
500
0.
0.
M a xim um T ota l O n-state Pow e r Loss (W )
Bulletin I27117 rev. C 03/02
0
0
100
200
400
0
300
Tota l RM S O utp ut C urre nt (A)
25
50
75
100
125
M axim um A llowab le Am b ie nt Tem p era ture ( C )
Fig.25 - On State Power Loss Characteristics
0.
8 00
0.2
0 .4
W
R
3 00
K/
ta
el
0.3
-D
4 00
W
W
5 00
K/
K/
180
(Sine )
180
(Re ct)
W
04
6 00
12
K/
0.
0.
=
7 00
08
A
hS
Rt
M axim um Total P ower Lo ss (W )
9 00
K /W
K /W
2 x IRK.162.. Series 0 .6
K /W
Single Phase Brid ge
1 K /W
C onnected
T J = 125 C
2 00
1 00
0
0
50
100
15 0
20 0
25 0
Tota l O utput C urrent (A)
0
3 00
25
50
75
10 0
12 5
M axim um A llo wa ble A m b ient Tem perature ( C )
Fig.26 - On State Power Loss Characteristics
04
A
K/
1 2 50
S
R th
0.
W
W
K/
K/
e lt
-D
2 K
/W
a
7 50
0 .1
2
120
(Rect)
08
0. 0
0.
1 0 00
=
W
R
M axim u m To tal Po wer Loss (W )
1 5 00
0 .2
5 00
K /W
3 x IRK.162.. Series 0 .3 K
/W
Three Phase Brid ge
0.
C onnected
6 K /W
T J = 12 5 C
2 50
0
0
50 1 0 0 15 0 2 00 25 0 3 0 0 3 5 0 4 00 4050
Tota l Output C urrent (A)
25
50
75
100
125
M a xim um A llo w a b le A m b ie n t Te m p era tu re ( C )
Fig.27- On State Power Loss Characteristics
10
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IRK.136, .142, .162 Series
Bulletin I27117 rev. C 03/02
10000
Instantaneous On-state Current (A)
Instantaneous On-state Current (A)
10000
1000
T J = 25˚C
T J= 125˚C
100
10
IRK.136.. Series
Per Junction
1000
T = 125˚C
J
100
10
IRK.142.. Series
Per Junction
1
1
0
1
2
3
4
0
5
2
3
4
5
Instantaneous On-state Voltage (V)
Fig.28 - On State Voltage Drop Characteristics
Fig.29 - On State Voltage Drop Characteristics
1
Transient Thermal Impedance Z thJC
Instantaneous On-state Current (A)
1
Instantaneous On-state Voltage (V)
10000
1000
TJ = 25˚C
TJ = 125˚C
100
10
IRK.162.. Series
Per Junction
1
0
1
2
3
4
5
Instantaneous On-state Voltage (V)
0.1
0.01
IRK.136.. Series
0.01
0.1
1
Square Wave Pulse Duration (s)
10
Transient Thermal Impedance Z thJC
1
Steady State Value
(DC Operation)
0.1
IRK.142.. Series
0.1
1
Square Wave Pulse Duration (s)
10
Fig.32 - Thermal Impedance ZthJC Characteristics
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(DC Operation)
Fig.31 - Thermal Impedance ZthJC Characteristics
1
0.01
0.01
Steady State Value
0.001
0.001
Fig.30 - On State Voltage Drop Characteristics
Transient Thermal Impedance Z thJC
TJ = 25˚C
Steady State Value
(DC Operation)
0.1
IRK.162.. Series
0.01
0.01
0.1
1
Square Wave Pulse Duration (s)
10
Fig.33 - Thermal Impedance ZthJC Characteristics
11
IRK.136, .142, .162 Series
Bulletin I27117 rev. C 03/02
10
Rec ta ng ula r g a te p ulse
a )Re c o m m end e d lo a d line fo r
ra ted d i/d t: 20 V, 20 o hm s
tr = 0.5 s, tp >= 6 s
b )Re c o m m end e d loa d line fo r
<= 30% ra ted d i/d t: 15 V , 40 o hm s
tr = 1 s, tp >= 6 s
(1)
(2)
(3)
(4)
PG M
PG M
PG M
PG M
=
=
=
=
200 W , tp = 300 s
60 W , tp = 1 m s
30 W , tp = 2 m s
12 W , tp = 5 m s
(4)
(3 ) (2)
(a)
(b )
TJ = -40 C
TJ = 12 5 C
1
TJ = 25 C
In stan ta neous G a te V olta ge (V )
1 00
(1)
VG D
IG D
0 .1
0 .0 0 1
0.0 1
IR K.1 3 6 ..1 4 2 ..1 6 2 .. Se ries
0 .1
Frequen cy Lim ited by PG (AV )
1
10
100
1 00 0
Instan ta n eous G a te C urren t (A )
Fig. 34 - Gate Characteristics
Data and specifications subject to change without notice.
This product has been designed and qualified for Multiple Level.
Qualification Standards can be found on IR's Web site.
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105
TAC Fax: (310) 252-7309
Visit us at www.irf.com for sales contact information. 03/02
12
www.irf.com