No. | Partie # | Fabricant | Description | Fiche Technique |
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Fairchild Semiconductor |
FSQ0765R Optimized for Quasi-Resonant Converter (QRC) Low EMI through Variable Frequency Control and AVS Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched conve |
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Fairchild Semiconductor |
(FSQ0x65RN) Green Mode Fairchild Power Switch Optimized for Quasi-Resonant Converter (QRC) Low EMI through Variable Frequency Control and Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched converter |
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Fairchild Semiconductor |
FSQ0765RQ ! Optimized for Quasi-Resonant Converter (QRC) ! Low EMI through Variable Frequency Control and AVS Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched conve |
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Fairchild Semiconductor |
FSQ0165R Optimized for Valley Switching (VSC) Low EMI through Variable Frequency Control and Description A Valley Switching Converter generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched converter with a fixe |
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Fairchild Semiconductor |
Green-Mode Fairchild Power Switch ! Optimized for Quasi-Resonant Converters (QRC) ! Low EMI through Variable Frequency Control and AVS Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched conv |
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ON Semiconductor |
Green Mode Power Switch • Optimized for Valley Switching Converter (VSC) • Low EMI through Variable Frequency Control and Inherent Frequency Modulation • High Efficiency through Minimum Voltage Switching • Narrow Frequency Variation Range Over Wide Load and Input Voltage Va |
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Fairchild Semiconductor |
Green Mode Fairchild Power Switch Optimized for Valley Switching Converter (VSC) Low EMI through Variable Frequency Control and Inherent Frequency Modulation High Efficiency through Minimum Voltage Switching Narrow Frequency Variation Range Over Wide Load and Input Voltage Va |
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Fairchild Semiconductor |
Green Mode Fairchild Power Switch Optimized for Valley Switching Converter (VSC) Low EMI through Variable Frequency Control and Inherent Frequency Modulation High Efficiency through Minimum Voltage Switching Narrow Frequency Variation Range Over Wide Load and Input Voltage Va |
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Fairchild Semiconductor |
FSQ0765R Optimized for Quasi-Resonant Converter (QRC) Low EMI through Variable Frequency Control and AVS www.DataSheet4U.com Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional |
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Fairchild Semiconductor |
(FSQ0x65RN) Green Mode Fairchild Power Switch Optimized for Quasi-Resonant Converter (QRC) Low EMI through Variable Frequency Control and Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched converter |
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Fairchild Semiconductor |
Green Mode Fairchild Power Switch Uses a DMOS Integrated Power Switch Optimized for Quasi-Resonant Converter (QRC) Low EMI through Variable Frequency Control and Inherent Frequency Modulation Applications Cell Phone Chargers Auxiliary Power Supplies for PC and White Goods |
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Fairchild Semiconductor |
(FSQ0x65RN) Green Mode Fairchild Power Switch Optimized for Quasi-Resonant Converter (QRC) Low EMI through Variable Frequency Control and Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched converter |
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Fairchild Semiconductor |
Green Mode Fairchild Power Switch Optimized for Valley Switching Converter (VSC) Low EMI through Variable Frequency Control and Inherent Frequency Modulation High Efficiency through Minimum Voltage Switching Narrow Frequency Variation Range Over Wide Load and Input Voltage Va |
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Fairchild Semiconductor |
(FSQ0565R / FSQ0765R) Green-Mode Fairchild Power Switch Optimized for Quasi-Resonant Converter (QRC) Low EMI through Variable Frequency Control and AVS www.DataSheet4U.com Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional |
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Fairchild Semiconductor |
Green Mode Fairchild Power Switch Internal Avalanche-Rugged 650V SenseFET Consumes only 0.65W at 230 VAC & 0.3W Load with Description The FSQ110 consists of an integrated, current-mode, Pulse Width Modulator (PWM) and an avalanche-rugged 650V SenseFET. It is specifically designe |
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Fairchild Semiconductor |
Green-Mode Fairchild Power Switch ! Optimized for Quasi-Resonant Converters (QRC) ! Low EMI through Variable Frequency Control and AVS Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched conv |
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Fairchild Semiconductor |
Green-Mode Fairchild Power Switch ! Optimized for Quasi-Resonant Converters (QRC) ! Low EMI through Variable Frequency Control and AVS Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched conv |
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Fairchild Semiconductor |
Green-Mode Fairchild Power Switch ! Optimized for Quasi-Resonant Converters (QRC) ! Low EMI through Variable Frequency Control and AVS Description A Quasi-Resonant Converter (QRC) generally shows lower EMI and higher power conversion efficiency than a conventional hard-switched conv |
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ON Semiconductor |
Green Mode Power Switch • Optimized for Valley Switching Converter (VSC) • Low EMI through Variable Frequency Control and Inherent Frequency Modulation • High Efficiency through Minimum Voltage Switching • Narrow Frequency Variation Range Over Wide Load and Input Voltage Va |
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Fairchild Semiconductor |
Green Mode Fairchild Power Switch Internal Avalanche Rugged 700V SenseFET Consumes only 0.8W at 230 VAC & 0.5W Load with Burst-Mode Operation Precision Fixed Operating Frequency, 100kHz Internal Start-up Circuit and Built-in Soft-Start Pulse-by-Pulse Current Limiting and Au |
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