IRKDL240-06S20NPBF [INFINEON]
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| 型号: | IRKDL240-06S20NPBF |
| 厂家: | 
Infineon |
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Bulletin I27094 rev. C 10/06
IRK.L240 SERIES
FASTRECOVERYDIODES
MAGN-A-pak™ Power Modules
Features
Fast recovery time characteristics
Electrically isolated base plate
Industrial standard package
Simplified mechanical designs, rapid assembly
High surge capability
250A
Large creepage distances
3000 VRMS isolating voltage
ULE78996approved
RoHSCompliant
Description
The IRK.L240 Series of MAGN-A-paks uses fast re-
coverypowerdiodesinfourbasicconfigurations. The
semiconductors are electrically isolated from the
metalbase,allowingcommonheatsinksandcompact
assemblies to be built. Application includes power
supplies, battery chargers, welders, motor controls
and general industrial current rectification. These
modules are intended for those applications where
fastrecoverycharacteristicsarerequired.
Major Ratings and Characteristics
Parameters
IRK.L240
Units
S10/S20
S30
I
250
240
A
F(AV)
@ TC
100
392
100
377
°C
A
I
F(RMS)
I
@50Hz
@ 60Hz
@50Hz
@ 60Hz
8000
8400
322
7500
7850
280
A
FSM
A
I2t
KA2s
KA2s
294
256
2
2
I √t
3220
2800
KA √s
V
up to 2500
-40 to 150
V
RRM
T
range
oC
J
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1
IRK.L240 Series
Bulletin I27094 rev. C 10/06
ELECTRICAL SPECIFICATIONS
Voltage Ratings
Typenumber Voltage
Code
trr
VRRM , maximum repetitive
VRSM,maximumnon-repetitive IRRM max.
Code
peakreversevoltage
peakreversevoltage
@150°C
mA
V
V
06
10
S10
S10
S20
S20
S30
S30
600
700
1000
1200
1400
2000
2500
1100
1300
1500
2100
2600
IRK.L240
12
14
20
25
50
ForwardConduction
Parameter
IRK.L240
Units Conditions
S10/S20 S30
IF(AV)
Max. average forward current
@ Case temperature
250
100
240
100
A
oC
A
180o conduction, half sine wave
IF(RMS) Max. RMS forward current
392
377
as AC switch
IFSM
Max. peak, one-cycle forward,
non-repetitive surge current
8000
8400
6750
7100
322
7500
7850
6300
6600
280
A
t = 10ms No voltage
t = 8.3ms reapplied
t = 10ms 100% VRRM
t = 8.3ms reapplied
Sinusoidal half wave,
Initial TJ = TJ max
I2t
Maximum I2t for fusing
KA2s t = 10ms No voltage
294
256
t = 8.3ms reapplied
228
198
t = 10ms 100% VRRM
t = 8.3ms reapplied
208
181
I2√t
Maximum I2√t for fusing
3220
0.98
1.31
2800
0.98
1.31
KA2√s t = 0.1 to 10ms, no voltage reapplied
VF(TO)1 Low level value of threshold
voltage
V
V
(16.7% x π x IF(AV) < I < π x IF(AV))TJ = TJ max
(I > π x IF(AV)), TJ = TJ max.
VF(TO)2 High level value of threshold
voltage
rf1
Low level value of forward
slope resistance
High level value of forward
slope resistance
0.75
0.41
0.97
0.60
mΩ (16.7% x π x IF(AV) < I < π x IF(AV))TJ = TJ max
mΩ (I > π x IF(AV)), TJ = TJ max.
rf2
I
FM = 800, TJ = 150 oC tp = 10 ms
Av. power = VF(TO) x IF(AV) + rf x (IF(RMS)
VFM
Max. forward voltage drop
1.57
1.75
V
2
)
Blocking
IRRM
VINS
Max. peak reverse leakage current
50
3000
mA TJ = 150 oC, leakage current
RMS isolation voltage
V
50Hz, circuit to base, all terminals shorted, 25°C, t = 1s
2
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
ThermalandMechanicalSpecifications
TJ
Max. junction operating temperature
-40 to 150
-40 to 150
0.125
oC
oC
Tstg Max. storage temperature range
RthJ-C Max. internal thermal resistance
K/W
Per junction, DC operation
junction to case
RthC-SThermal resistance, case
to heatsink
Mounting surface flat, smooth and greased
Per module
0.02
K/W
Nm
T
Mounting torque ±10%
MAP to heatsink
A mounting compound is recommended and the torqshould
be rechecked after a period of about 3 hours to allow for
4 to 6
the
Busbar to MAP
8 to 10
850 (30)
Nm
spread of the compound
wt
Approximate weight
g(oz)
Case style
MAGN-A-pak
DRConduction(perJunction)
(The following table shows the increment of thermal resistence RthJC when devices operate at different conduction angles
than DC)
Conductionangle Sinusoidalconduction Rectangularconduction Units
Conditions
TJ = TJ max.
180o
120o
90o
0.008
0.010
0.013
0.019
0.032
0.007
0.011
0.015
0.020
0.033
K/W
K/W
K/W
K/W
K/W
60o
30o
RecoveryCharacteristics
Testconditions
Typ.values@TJ=150oC
Code
I
di/dt
V
Q
I
rr
IFM
pk
r
rr
trr
(A)
(A/μs)
(V)
50
(μC)
(A)
S10
S20
S30
500
100
135
100
t
di
dt
Qrr
''
''
"
"
"
"
250
360
145
200
IRM (REC)
OrderingInformationTable
Device Code
IRK
D
L
240
-
25 S30
4
1
2
3
5
6
1
2
3
4
5
6
-
-
-
-
-
-
Moduletype
Circuitconfiguration(SeeOutlineTable)
L = Fast recovery diode
Currentrating
Voltage code: Code x 100 = VRRM (See Voltage Ratings Table)
trrcode(SeeRecoveryCharacteristicsTable)
S10 = 1000 ns
S20 = 2000 ns
S30 = 3000 ns
3
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
OutlineTable
-
-
-
-
-
All dimensions in millimeters (inches)
Dimensionsarenominal
Fullengineeringdrawingsareavailableonrequest
UL identification number for cathode wire: UL 1385
UL identification number for package: UL 94V0
IRKD...
IRKC...
IRKJ...
IRKE...
150
150
IRK. L2 4 0. . S1 0/ S2 0 Se rie s
(DC) = 0.125 K/W
IRK.L240..S10/ S20 Series
R
R
(DC) = 0.125 K/W
thJC
thJC
140
130
120
110
100
90
140
130
120
110
100
90
Conduction Angle
Conduction Period
30°
60°
90°
120°
30°
60°
90°
120°
180°
180°
DC
80
80
0
50
100 150 200 250 300
0
50 100 150 200 250 300 350 400 450
Average Forward Current (A)
Average Forward Current (A)
Fig. 1 - Current Ratings Characteristics
Fig. 2 - Current Ratings Characteristics
4
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
400
350
300
250
200
150
100
50
600
500
400
300
200
100
0
180°
120°
90°
60°
30°
DC
180°
120°
90°
60°
30°
RMS Lim it
RMS Lim it
Conduction Period
Conduction Angle
IRK.L240..S10/ S20 Series
T = 150°C Per Junc tion
IRK.L240..S10/ S20 Series
Per Junc tion T = 150°C
J
J
0
0
50
100
150
200
250
0
50 100 150 200 250 300 350 400
Average Forward Current (A)
Average Forward Current (A)
Fig. 3 - Forward Power Loss Characteris-
tics
Fig. 4 - Forward Power Loss Characteristics
8500
7500
6500
5500
4500
3500
2500
1500
8000
7000
6000
5000
4000
3000
2000
At Any Rated Load Condition And With
Maximum Non Repetitive Surge Current
VersusPulse Train Duration.
Initial T = 150°C
Rated V
Applied Following Surge.
RRM
Initial T = 150°C
J
J
No Voltage Reapplied
Reapplied
RRM
@60 Hz 0.0083 s
@50 Hz 0.0100 s
Rated V
IRK.L240..S10/S20 Series
Per Junction
IRK.L240..S10/ S20 Series
Per Junc t ion
0.01
0.1
Pulse Train Duration (s)
1
1
10
100
Number Of Equal Amplitude Half Cycle Current Pulses(N)
Fig. 5 - Maximum Non-Repetitive Surge Current
Fig. 6 - Maximum Non-Repetitive Surge Current
150
150
140
130
120
110
100
90
IRK.L240..S30 Series
IRK.L240..S30 Series
R
(DC) = 0.125 K/ W
R
(DC) = 0.125 K/W
Conduction Period
thJC
thJC
140
130
120
110
100
90
Conduction Angle
30°
60°
30°
60°
90°
90°
120°
120°
180°
180°
DC
80
80
0
50
100
150
200
250
0
50 100 150 200 250 300 350 400
Average Forward Current (A)
Average Forward Current (A)
Fig. 7 - Current Ratings Characteristics
Fig. 8 - Current Ratings Characteristics
5
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
550
500
450
400
350
300
250
200
150
100
50
400
DC
180°
120°
90°
60°
30°
180°
120°
90°
60°
30°
350
300
250
200
150
100
50
RM S Lim it
RM S Lim it
Conduction Period
Conduction Angle
IRK.L240..S30 Series
Per Ju nc tio n
T = 150°C
IRK.L240..S30 Series
Per Junc tion
T = 150°C
J
J
0
0
0
50
100
150
200
250
0
50 100 150 200 250 300 350 400
Average Forward Current (A)
Average Forward Current (A)
Fig. 9 - Forward Power Loss Characteristics
Fig. 10 - Forward Power Loss Characteristics
7000
6000
5000
4000
3000
2000
8000
7000
6000
5000
4000
3000
2000
1000
Maximum Non Repetitive Surge Current
VersusPulse Train Duration.
Initial T = 150°C
At Any Rated Load Condition And With
Rated V
Applied Following Surge.
Initial T = 150°C
RRM
J
J
No Voltage Reapplied
Reapplied
@60 Hz 0.0083 s
@50 Hz 0.0100 s
Rated V
RRM
IRK.L240..S30 Series
Per Junction
IRK.L240..S30 Series
Per Junction
1
10
100
0.01
0.1
1
Number Of Equal Amplitude Half Cycle Current Pulses(N)
Fig. 11 - Maximum Non-Repetitive Surge Current
Pulse Train Duration (s)
Fig. 12 - Maximum Non-Repetitive Surge
Current
10000
10000
1000
100
IRK.L240..S10/S20 Series
Per Junction
IRK.L240..S30 Series
Pe r Jun c tio n
1000
T = 25 ° C
J
T = 25°C
J
T = 15 0° C
J
T = 1 50° C
J
100
1
1.5
2
2.5
3
3.5
0.5
1
1.5
2
2.5
3
3.5
4
4.5
InstantaneousForward Voltage (V)
Fig. 13 - Forward Voltage Drop Characteristics
InstantaneousForward Voltage (V)
Fig. 14 - Forward Voltage Drop Characteristics
6
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
150
140
130
120
110
100
90
110
100
90
80
70
60
50
40
30
20
10
IRK.L240..S10
I
= 1000A
500A
200A
100A
50A
FM
I
= 1000A
FM
T = 150° C
J
500A
200A
100A
50A
80
70
60
50
40
30
IRK.L240..S10 Series
T = 150 °C
20
J
10
10 20 30 40 50 60 70 80 90 100
10 20 30 40 50 60 70 80 90 100
Rate Of Fall Of Forward Current - di/dt (A/µs)
Fig. 15 - Reverse Recovery Charge Characteristics
Rate Of FallOf Forward Current - di/dt (A/µs)
Fig. 16 - Reverse Recovery Current Characteristics
500
300
IRK.L240..S20
IRK.L240..S20
I
= 1000A
450
400
350
300
250
200
150
100
50
FM
T = 150 °C
T = 150 °C
I
= 1000A
500A
J
J
FM
250
200
150
100
50
500A
200A
200A
100A
50A
100A
50A
0
0
0
50
100
150
200
0
50
100
150
200
Rate Of Fall Of Forward Current - di/dt (A/µs)
Rate Of Fall Of Forward Current - di/dt (A/µs)
Fig. 18 - Reverse Recovery Current Characteristics
Fig. 17 - Reverse Recovery Charge Characteris-
tics
500
450
400
350
300
250
200
150
100
50
300
250
200
150
100
50
I
= 1000A
FM
I
= 1000A
FM
500A
100A
500A
100A
IRK.L240..S30 Series
IRK.L240..S30 Series
T = 150 °C
T = 150 °C
J
J
0
0
0
50
100
150
200
0
50
100
150
200
Rate Of Fall Of Forward Current - di/dt (A/µs)
Fig. 19 - Reverse Recovery Charge Characteristics
Rate Of FallOf Forward Current - di/dt (A/µs)
Fig. 20 - Reverse Recovery Current Characteristics
7
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
1E5
1E4
20 joulesper pulse
20 joulesper pulse
10
4
10
2
4
1
2
0.4
1
0.2
0.4
0.2
0.1
0.04
0.02
0.01
0.1
0.04
0.02
1E3
1E2
1E1
1E0
0.01
IRK.L240..S10/ S20
Trapezoidal Pulse
IRK.L240..S10/ S20
Sinusoidal Pulse
tp
T = 150 °C
tp
T = 150 °C
J
J
1E4
41
1E1
1E1
1E2
1E3
1E2
1E3
1E4
Pulse Basewidth (µs)
Pu lse Ba se w id t h ( µs)
Fig. 21 - Maximum Forward Energy Power Loss Characteristics
1E5
1E4
1E3
1E2
IRK.L240..S10/S20
Sinusoidal Pulse
IRK.L240..S10/S20
Sinusoidal Pulse
tp
tp
T = 90 °C
T
= 100 °C
C
C
20000
5000
1500
2500 1000
10000
400
200
50 Hz
20000 10000 5000 2500 1500
200
50 Hz
1000
400
1E4
111E1
1E1
1E2
1E3
1E2
1E3
1E4
Pulse Basewidth (µs)
Pulse Ba se w id t h (µs)
Fig. 22 - Frequency Characteristics
1E5
1E4
1E3
1E2
IRK.L240..S10/ S20
Trapezoidal Pulse
IRK.L240..S10/ S20
Trapezoidal Pulse
= 100 °C
tp
T = 90 °C
tp
T
C
C
2500 1500
400 200
50 Hz
1000
2500
1500 1000
400
200
50 Hz
1E1
1E2
1E3
1E411E1
1E2
1E3
1E4
Pulse Basewidth (µs)
Pulse Ba se w id th (µs)
Fig. 23 - Frequency Characteristics
8
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
1E5
1E4
1E3
1E2
1E1
1E0
20 joulesper pulse
10
4
20 joulesper pulse
2
10
4
1
0.4
0.2
0.1
0.04
0.02
2
1
0.4
0.2
0.1
0.04
0.02
0.01
0.01
IRK.L240..S30
Sinusoidal Pulse
IRK.L240..S30
Trapezoidal Pulse
tp
tp
T = 150 °C
T = 150 °C
J
J
1E4
411E1
1E1
1E2
1E3
1E2
1E3
1E4
Pulse Basewidth (µs)
Pulse Basewidth (µs)
Fig. 24 - Maximum Forward Energy Power Loss Characteristics
1E5
1E4
1E3
1E2
IRK.L240..S30
Si n u so id a l Pu l se
IRK.L240..S30
Si n u so id a l Pu l se
T
= 100 °C
tp
C
tp
T = 90 °C
C
400
200
20000 10000 5000 2500 1500
1000
50 Hz
50 Hz
1000
1500
400
20000
2500
200
10000
5000
1E1
1E4
1E2
1E3
1E4
1E1
1E2
1E3
Pulse Basewidth (µs)
Pulse Basewidth (µs)
Fig. 25 - Frequency Characteristics
1E5
1E4
1E3
1E2
IRK.L240..S30
Trapezoidal Pulse
= 90 °C
IRK.L240..S30
Trapezoidal Pulse
T
T = 100 °C
tp
C
C
tp
5000 2500 1500
1000
50 Hz
400
200
5000 2500
50 Hz
1500
1000
400
200
1E4
1E1
1E2
1E3
1E4
1E1
1E2
1E3
Pulse Basewidth (µs)
Pulse Ba se wid t h (µs)
Fig. 26 - Frequency Characteristics
9
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
1
Steady State Value:
= 0.125 K/ W
R
thJC
(DC Operation)
0.1
0.01
0.001
IRK.L240.. Series
Per Junction
0.0001
0.0001
0.001
0.01
0.1
1
10
100
Square Wave Pulse Duration (s)
Fig. 27 - Thermal Impedance ZthJC Characteristics
10
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IRK.L240 Series
Bulletin I27094 rev. C 10/06
Data and specifications subject to change without notice.
This product has been designed and qualified for Industrial 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. 10/06
11
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