International Rectifier SD300OC04K, SD300OC08K, SD300OC10K Datasheet
SD3000C..K SERIES
STANDARD RECOVERY DIODES
Hockey Puk Version
3800A
Bulletin I2090/B
Typical Applications
Converters
Power supplies
High power drives
Auxiliary system supplies for traction applications
Features
Wide current range
High voltage ratings up to 1000V
High surge current capabilities
Diffused junction
Hockey Puk version
Case style DO-200AC (K-PUK)
Major Ratings and Characteristics
I
F(AV)
3800 A
@ T
hs
55 °C
I
F(RMS)
6230 A
@ T
hs
25 °C
I
FSM
@ 50Hz 35800 A
@ 60Hz 37500 A
I
2
t @ 50Hz 6410 KA2s
@ 60Hz 5850 KA
2
s
V
RRM
range 400 to 1000 V
T
J
- 40 to 180 °C
Parameters SD3000C..K Units
case style DO-200AC (K-PUK)
SD3000C..K Series
Voltage V
RRM
, maximum repetitive V
RSM
, maximum non- I
RRM
max.
Type number Code peak reverse voltage repetitive peak rev. voltage
@ TJ = 180°C
V V mA
04 400 500
SD3000C..K 08 800 900 75
10 1000 1100
ELECTRICAL SPECIFICATIONS
Voltage Ratings
I
F(AV)
Max. average forward current 3800 (1925) A 180° conduction, half sine wave
@ Heatsink temperature 55 (85) °C Double side (single side) cooled
I
F(RMS)
Max. RMS forward current 6230 A @ 25°C heatsink temperature double side cooled
I
FSM
Max. peak, one-cycle forward, 35800 t = 10ms No voltage
non-repetitive surge current 37500 t = 8.3ms reapplied
30100 t = 10ms 100% V
RRM
31500 t = 8.3ms reapplied Sinusoidal halfwave,
I
2
t Maximum I2t for fusing 6410 t = 10ms No voltage Initial TJ = TJ max.
5850 t = 8.3ms reapplied
4530 t = 10ms 100% V
RRM
4135 t = 8.3ms reapplied
I
2
√t Maximum I2√t for fusing 64100 KA2√s t = 0.1 to 10ms, no voltage reapplied
V
F(TO)1
Low level value of threshold
voltage
V
F(TO)2
High level value of threshold
voltage
r
f
1
Low level value of forward
slope resistance
r
f
2
High level value of forward
slope resistance
V
FM
Max. forward voltage drop 1.22 V Ipk= 6000A, TJ = TJ max, tp = 10ms sinusoidal wave
A
KA2s
0.74 (16.7% x π x I
F(AV)
< I < π x I
F(AV)
), TJ = TJ max.
Parameter SD3000C..K Units Conditions
Forward Conduction
V
mΩ
0.08 (16.7% x π x I
F(AV)
< I < π x I
F(AV)
), TJ = TJ max.
0.86 (I > π x I
F(AV)
),TJ = TJ max.
0.07 (I > π x I
F(AV)
),TJ = TJ max.
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