Details, datasheet, quote on part number: FB5002
PartFB5002
CategoryDiscrete => Bridges => Bridge Rectifiers
DescriptionIF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
CompanyFagor
DatasheetDownload FB5002 datasheet
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Features, Applications

Glass Passivated Junction UL recognized under component index file number E130180 Terminals: FASTON Max. Mounting Torque: x cm Lead and polarity identifications High surge current capability

Peak Recurrent Reverse Voltage (V) Maximum RMS Voltage (V) Recommended Input Voltage (V) Max. forward current R-load: At T case 55 C Max. forward current R-l At T case 90 oC With Al Square Chassis x 3 mm.) Tamb 45 oC Recurrent peak forward current 10 ms. peak forward current I t value for fusing = 10 ms) Operating temperature range Storage temperature range

VF IR Rthj-c Max. forward voltage drop per element 25 A Max. reverse current per element at VRRM d.c. Typical thermal resistance junction to case Isolation voltage from case to leads 5ľA 1.2 oC/W 2500 Vac Jan - 00

TYPICAL FORWARD CHARACTERISTIC MAXIMUM NON-REPETITIVE PEAK FORWARD SURGE CURRENT
VF ' instantaneous forward voltage drop (V) Number of cycles at 50Hz
Interrelation between power dissipation and the max. allowable ambient temperature.

 

Related products with the same datasheet
FB5000
FB5001
FB5003
FB5004
FB5005
FB5006
Some Part number from the same manufacture Fagor
FB5003 IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FBI1.5-4S1 IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI1.5-5S2 IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 100 1000
FBI1.5A IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI1.5F IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 100 1000
FBI1.5G IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI1.5L IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 100 1000
FBI1.5M IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI10A IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI15A IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI2.5A IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI2A IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI2B5S2 IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI2D IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI2D5S2 IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI2G IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI2J5S2 IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI2K IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI2L IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI2M IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI2M5S2 IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000

1.5SMC13A : Pot (W) = 1500 ;; VBR(V) = 6V8 220

5KP15 : Automotive TVS Pot (W) = 5000 ;; VBR(V) = 7V5 110

5KP40A : Automotive TVS Pot (W) = 5000 ;; VBR(V) = 7V5 110

5KP54 : Automotive TVS Pot (W) = 5000 ;; VBR(V) = 7V5 110

C1000 : IF(A) = 1 ;; Ifsm (A) = 40 ;; VRRM (V) = 100 900

FB2508 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000

FS3D : IF(A) = 3 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000

P4SMA47 : Pot (W) = 400 ;; VBR(V) = 6V8 220

P6SMB200C : Pot (W) = 600 ;; VBR(V) = 6V8 250

 
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