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Catalog Datasheet	MFG & Type	PDF	Document Tags
g25n120 Abstract: PG-TO-247-3-1 PG-TO247-3-1 G25N120 TSC Q67040-S4277 sgw25n120 M/250w smps inverter circuits Text: SGW25N120 Fast IGBT in NPT-technology C • 40% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter - SMPS • NPT-Technology offers: - very tight parameter distribution - high ruggedness, temperature stable behaviour	Original	PDF	SGW25N120 SGW25N120 g25n120 PG-TO-247-3-1 PG-TO247-3-1 G25N120 TSC Q67040-S4277 M/250w smps inverter circuits
g25n120 Abstract: SGW25N120 PG-TO-247-3-21 G25N120 TSC Text: SGW25N120 Fast IGBT in NPT-technology C • 40% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter - SMPS • NPT-Technology offers: - very tight parameter distribution - high ruggedness, temperature stable behaviour	Original	PDF	SGW25N120 PG-TO-247-3-1 O-247AC) G25N120 PG-TO-247-3-21 SGW25N120 PG-TO-247-3-21 G25N120 TSC
g25n120 Abstract: No abstract text available Text: SGW25N120 Fast IGBT in NPT-technology C • 40% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter - SMPS • NPT-Technology offers: - very tight parameter distribution - high ruggedness, temperature stable behaviour	Original	PDF	SGW25N120 SGW25N120 g25n120

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Document Tags

g25n120

Abstract: PG-TO-247-3-1 PG-TO247-3-1 G25N120 TSC Q67040-S4277 sgw25n120 M/250w smps inverter circuits
Text: SGW25N120 Fast IGBT in NPT-technology C • 40% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter - SMPS • NPT-Technology offers: - very tight parameter distribution - high ruggedness, temperature stable behaviour

Original

PDF

SGW25N120 SGW25N120 g25n120 PG-TO-247-3-1 PG-TO247-3-1 G25N120 TSC Q67040-S4277 M/250w smps inverter circuits

g25n120

Abstract: SGW25N120 PG-TO-247-3-21 G25N120 TSC
Text: SGW25N120 Fast IGBT in NPT-technology C • 40% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter - SMPS • NPT-Technology offers: - very tight parameter distribution - high ruggedness, temperature stable behaviour

Original

PDF

SGW25N120 PG-TO-247-3-1 O-247AC) G25N120 PG-TO-247-3-21 SGW25N120 PG-TO-247-3-21 G25N120 TSC

g25n120

Abstract: No abstract text available
Text: SGW25N120 Fast IGBT in NPT-technology C • 40% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter - SMPS • NPT-Technology offers: - very tight parameter distribution - high ruggedness, temperature stable behaviour

Original

PDF

SGW25N120 SGW25N120 g25n120