Product Summary

The FGH60N60SMDF is a 600V, 60A Field Stop IGBT. Using Novel Field Stop IGBT Technology, Fairchild’s new series of Field Stop IGBTs offer the optimum performance for Solar Inverter, UPS, SMPS, IH and PFC applications where low conduction and switching losses are essential. The applications of the FGH60N60SMDF include Solar Inverter, UPS, SMPS, PFC, induction heating.

Parametrics

FGH60N60SMDF absolute maximum ratings: (1)Collector to Emitter Voltage: 600V; (2)Gate to Emitter Voltage: ±20V; (3)Collector Current @ TC = 25℃: 120A; (4)Collector Current @ TC = 100℃: 60A; (5)Pulsed Collector Current: 180A; (6)Diode Forward Current @ TC = 25℃: 60A; (7)Diode Forward Current @ TC = 100℃: 30A; (8)Pulsed Diode Maximum Forward Current: 180A; (9)Maximum Power Dissipation @ TC = 25℃: 600W; (10)Maximum Power Dissipation @ TC = 100℃: 300W; (11)Operating Junction Temperature: -55℃ to +175℃; (12)Storage Temperature Range: -55℃ to +175℃; (13) Maximum Lead Temp. for soldering Purposes, 1/8" from case for 5 seconds: 300℃.

Features

FGH60N60SMDF features: (1)Maximum Junction Temperature : TJ =175℃; (2)Positive temperature Co-efficient for easy parallel operating; (3) High current capability; (4) Low saturation voltage: VCE (sat) = 1.9V (Typ.) @ IC = 60A; (5) High input impedance; (6) Fast switching; (7) Tighten Parameter Distribution; (8) RoHS compliant.

Diagrams

FGH60N60SMDF block diagram

FGH60N60SF
FGH60N60SF

Other


Data Sheet

Negotiable 
FGH60N60SFD
FGH60N60SFD

Other


Data Sheet

Negotiable 
FGH60N60SFDTU
FGH60N60SFDTU

Fairchild Semiconductor

IGBT Transistors N-Ch/ 60A 600V FS

Data Sheet

0-1: $4.52
1-25: $3.93
25-100: $3.71
100-250: $3.41
FGH60N60SFTU
FGH60N60SFTU

Fairchild Semiconductor

IGBT Transistors N-CH / 600V 60A/ FS

Data Sheet

0-1: $3.73
1-25: $3.67
25-100: $3.06
100-250: $2.81
FGH60N60SMD
FGH60N60SMD

Fairchild Semiconductor

IGBT Transistors 600V/60A Field Stop IGBT ver. 2

Data Sheet

0-1: $4.27
1-25: $3.85
25-100: $3.16
100-250: $2.90
FGH60N60UFD
FGH60N60UFD

Other


Data Sheet

Negotiable