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| KBU800_1 Datasheet, PDF (1/1 Pages) First Components International – 8.0 Amp SINGLE PHASE SILICON BRIDGE LOW LEAKAGE CURRENT | |||
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Data Sheet
Description
8.0 Amp
SINGLE PHASE SILICON BRIDGE
Mechanical Dimensions
+~~-
Features
n COMPACT SIZE
n LOW LEAKAGE CURRENT
Mechanical Data: Weight - 0.3 Ounces. Mounting Torque -
5.1 lbs. Mounting Position - Any.
n 300 AMP SURGE OVERLOAD RATING
n MEETS UL SPECIFICATION 94V-0
KBU800 . . . 810 Series
Units
Maximum Ratings
KBU800 KBU801 KBU802 KBU804 KBU806 KBU808 KBU810
Peak Repetitive Reverse Voltage...VRRM
RMS Reverse Voltage...VR(rms)
DC Blocking Voltage...VDC
50
100
200
400 600 800 1000 Volts
35
70
140
280
420
560
700 Volts
50
100
200
400 600 800 1000 Volts
Average Forward Rectified Current...IF(av)
TA = 25°C
............................................. 8.0 ...............................................
Non-Repetitive Peak Forward Surge Current...IFSM
............................................. 300 ...............................................
8.3 ms Single ½ Sine Wave Imposed on Rated Load
Amps
Amps
Rating for Fusing (T < 8.3ms)
............................................. 167 ............................................... A2s
Operating & Storage Temperature Range...TJ, TSTRG
Electrical Characteristics
Maximum Forward Voltage...VF
Per Bridge Element @ 8.0 Amps
........................................ -55 to 150 ......................................... °C
............................................. 1.0 ............................................... Volts
Maximum DC Reverse Current Per Bridge Element...IR
@ Rated DC Blocking Voltage
TA = 25°C
............................................. 1 0 ............................................... µAmps
TA =125°C
............................................. 1.0 ............................................... mAmps
Typical Thermal Resistance...RθJC (Alum Heat Sink) ............................................. 6.0 ............................................... °C/W
Maximum Thermal Resistance...RθJA (Free Air)
............................................. 8.0 ............................................... °C/W
Typical Junction Capacitance...CJ
< .................... 210 ................ > < ............ 9 0 ............. > pF
Page 3-23
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