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    PHILIPS POT CORE 3F3 Search Results

    PHILIPS POT CORE 3F3 Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMPM3HMFYAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HPFYADFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP128-1420-0.50-001 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HNFDBFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP100-1414-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HLFYAUG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP64-1010-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HNFZAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP100-1414-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation

    PHILIPS POT CORE 3F3 Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    cma 00124

    Abstract: ETD34 PC40 AN1024a EE19 TDK Ferrite Core PC40 EE 25 bobbin epcos make philips 3C85 ferrite material EPC25 bobbin flyback transformer design Transformer and Inductor Design Handbook, FERRITE TRANSFORMER 20khz toroid
    Text: APPLICATION NOTE AN-1024a International Rectifier • 233 Kansas Street El Segundo CA 90245 USA Flyback Transformer Design For The IRIS40xx Series By Jonathan Adams TOPICS COVERED Introduction To Flyback Transformer Design Power Supply Design Criteria Required


    Original     		AN-1024a IRIS40xx AN1024a cma 00124 ETD34 PC40 AN1024a EE19 TDK Ferrite Core PC40 EE 25 bobbin epcos make philips 3C85 ferrite material EPC25 bobbin flyback transformer design Transformer and Inductor Design Handbook, FERRITE TRANSFORMER 20khz toroid PDF

    how to calculate ferrite core transformer

    Abstract: how to calculate turn ratio for ferrite core transformer "EI CORE" cma 00124 TDK Ferrite Core PC40 PHILIPS pot core 3f3 step down transformer winding ratio ETD 34 3c85 EE19 TDK Ferrite Core PC40 TDK Ferrite Core PC44 etd34
    Text: Application Note AN-1024 Flyback Transformer Design for the IRIS40xx Series Table of Contents Page 1. Introduction to Flyback Transformer Design . 1 2. Power Supply Design Criteria Required . 2


    Original     		AN-1024 IRIS40xx AN1024a how to calculate ferrite core transformer how to calculate turn ratio for ferrite core transformer "EI CORE" cma 00124 TDK Ferrite Core PC40 PHILIPS pot core 3f3 step down transformer winding ratio ETD 34 3c85 EE19 TDK Ferrite Core PC40 TDK Ferrite Core PC44 etd34 PDF

    24v dc power supply with uc3842

    Abstract: ST204A switching power supply transformer construction smps with uc3842 and tl431 UC3842 smps design with TL431 3842 PWM power supply application note nec2501 "Power Semiconductor Applications" Philips 3842 smps IC TOPSWITCH AN-17
    Text:  TOPSwitch Flyback Power Supply Efficiency Application Note AN-19 Introduction Efficiency should be a major consideration when designing a flyback switching power supply. It can impact many aspects of a product design, from enclosure size and ventilation to safety


    Original     		AN-19 24v dc power supply with uc3842 ST204A switching power supply transformer construction smps with uc3842 and tl431 UC3842 smps design with TL431 3842 PWM power supply application note nec2501 "Power Semiconductor Applications" Philips 3842 smps IC TOPSWITCH AN-17 PDF

    0,33 MF CAPACITOR

    Abstract: RECTIFIER DIODES PHILIPS DATA BOOK PHILIPS toroidal core 3f3 Designing Type III Compensation for Current Mode v.35 connector amplifier 5.1 surrounding system circuit diagram TO 220 Package High current N CHANNEL MOSFET 2n7000 equivalent 2N7000 MOSFET protection elna capacitor 220
    Text: a Synchronous Buck Controller with Dual Linear Regulator Controllers ADP3171 FEATURES Fixed 1.2 V N-Channel Synchronous Buck Driver Two On-Board Linear Regulator Controllers Total Accuracy ±1% over Temperature High Efficiency Current-Mode Operation Short-Circuit Protection


    Original     		ADP3171 3/05--Data 0,33 MF CAPACITOR RECTIFIER DIODES PHILIPS DATA BOOK PHILIPS toroidal core 3f3 Designing Type III Compensation for Current Mode v.35 connector amplifier 5.1 surrounding system circuit diagram TO 220 Package High current N CHANNEL MOSFET 2n7000 equivalent 2N7000 MOSFET protection elna capacitor 220 PDF

    PHILIPS toroidal core 3f3

    Abstract: PHILIPS pot core 3f3 MBR052LT1 2N7000 AD820 ADP3171 ADP3171JR FDB6982 FDS6982 IRFU014
    Text: a Synchronous Buck Controller with Dual Linear Regulator Controllers ADP3171 FEATURES Fixed 1.2 V N-Channel Synchronous Buck Driver Two On-Board Linear Regulator Controllers Total Accuracy ±1% over Temperature High Efficiency Current-Mode Operation Short Circuit Protection


    Original     		ADP3171 ADP3171 C02711 14-Lead PHILIPS toroidal core 3f3 PHILIPS pot core 3f3 MBR052LT1 2N7000 AD820 ADP3171JR FDB6982 FDS6982 IRFU014 PDF

    MBR052LT1

    Abstract: ADP3170 philips 286 motherboard AD820 ADP3170JRU FDB7045L IRL3103 RU-20 c02620 RUBYCON M 194
    Text: a FEATURES Optimally Compensated Active Voltage Positioning with Gain and Offset Adjustment ADOPT for Superior Load Transient Response Complies with VRM 8.5 Specifications with Lowest System Cost 5-Bit Digitally Programmable 1.05 V to 1.825 V Output N-Channel Synchronous Buck Controller


    Original     		ADP3170 ADP3170 20-Lead RU-20) C02620 MBR052LT1 philips 286 motherboard AD820 ADP3170JRU FDB7045L IRL3103 RU-20 RUBYCON M 194 PDF

    ADP3158

    Abstract: AD820 ADP3158JR ADP3159 MBR052LT1 SUB45N03-13L SUB75N03-07
    Text: a FEATURES Optimally Compensated Active Voltage Positioning with Gain and Offset Adjustment ADOPT for Superior Load Transient Response Complies with VRM Specifications with Lowest System Cost 4-Bit Digitally Programmable 1.3 V to 2.05 V Output N-Channel Synchronous Buck Driver


    Original     		ADP3158 C02189 ADP3158 16-Lead R-16A/SO-16) AD820 ADP3158JR ADP3159 MBR052LT1 SUB45N03-13L SUB75N03-07 PDF

    DIN 45326 MALE

    Abstract: MBR052LT1 AD820 ADP3159 ADP3159JRU ADP3179 ADP3179JRU RU-20 SUB45N03-13L sub75n03-07
    Text: a FEATURES Optimally Compensated Active Voltage Positioning with Gain and Offset Adjustment ADOPT for Superior Load Transient Response Complies with VRM 8.4 Specifications with Lowest System Cost 4-Bit Digitally Programmable 1.3 V to 2.05 V Output N-Channel Synchronous Buck Driver


    Original     		ADP3159/ADP3179 C02190 DIN 45326 MALE MBR052LT1 AD820 ADP3159 ADP3159JRU ADP3179 ADP3179JRU RU-20 SUB45N03-13L sub75n03-07 PDF

    philips 4c4 ferrite

    Abstract: No abstract text available
    Text: = 5-Bit Programmable 2-Phase Synchronous Buck Controller ADP3160 Preliminary Technical Data FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 9.0 with Lowest System Cost Active Current Balancing Between Both Output Phases


    Original     		ADP316 ADP3160 16-Lead R-16A/SO-16 philips 4c4 ferrite PDF

    4C4 ferrite

    Abstract: PHILIPS toroidal core 3f3
    Text: = 4-Bit Programmable 2-Phase Synchronous Buck Controller ADP3161 Preliminary Technical Data FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Active Current Balancing Between Both Output Phases


    Original     		ADP3161 16-Lead R-16A/SO-16 4C4 ferrite PHILIPS toroidal core 3f3 PDF

    k 2645 MOSFET

    Abstract: AD820 ADP3162 ADP3162JR ADP3412 ADP3413 ADP3414
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 8.5 with Lowest System Cost Active Current Balancing Between Both Output Phases 5-Bit Digitally Programmable 1.05 V to 1.825 V Output


    Original     		ADP3162 k 2645 MOSFET AD820 ADP3162 ADP3162JR ADP3412 ADP3413 ADP3414 PDF

    845 vrm circuit diagram

    Abstract: ADP3162 FSW-30A 450nC k 2645 MOSFET ADP3412 ADP3413 ADP3414 AD820 ADP3162JR
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 8.5 with Lowest System Cost Active Current Balancing Between Both Output Phases 5-Bit Digitally Programmable 1.05 V to 1.825 V Output


    Original     		ADP3162 C02193 16-Lead R-16A/SO-16) 845 vrm circuit diagram ADP3162 FSW-30A 450nC k 2645 MOSFET ADP3412 ADP3413 ADP3414 AD820 ADP3162JR PDF

    MBR052LT1

    Abstract: AD820 ADP3158 ADP3158JR ADP3178 ADP3178JR PHILIPS toroidal core 3f3
    Text: a FEATURES Optimally Compensated Active Voltage Positioning with Gain and Offset Adjustment ADOPT for Superior Load Transient Response Complies with VRM Specifications with Lowest System Cost 4-Bit Digitally Programmable 1.3 V to 2.05 V Output N-Channel Synchronous Buck Driver


    Original     		C02189 MBR052LT1 AD820 ADP3158 ADP3158JR ADP3178 ADP3178JR PHILIPS toroidal core 3f3 PDF

    AD820

    Abstract: ADP3159 ADP3159JRU MBR052LT1 RU-20 SUB45N03-13L SUB75N03-07 PHILIPS toroidal core 3f3 philips Power MOSFET Selection Guide
    Text: a FEATURES Optimally Compensated Active Voltage Positioning with Gain and Offset Adjustment ADOPT for Superior Load Transient Response Complies with VRM 8.4 Specifications with Lowest System Cost 4-Bit Digitally Programmable 1.3 V to 2.05 V Output N-Channel Synchronous Buck Driver


    Original     		ADP3159 ADP3159 20-Lead RU-20) C02190 AD820 ADP3159JRU MBR052LT1 RU-20 SUB45N03-13L SUB75N03-07 PHILIPS toroidal core 3f3 philips Power MOSFET Selection Guide PDF

    EIGHT MOSFET ARRAY

    Abstract: 2N3904 AD820 ADP3160 ADP3160JR ADP3412 ADP3414 amd duron PIN LAYOUT voltage ground
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 9.0 with Lowest System Cost Active Current Balancing Between Both Output Phases 5-Bit Digitally Programmable 1.1 V to 1.85 V Output


    Original     		ADP3160 EIGHT MOSFET ARRAY 2N3904 AD820 ADP3160 ADP3160JR ADP3412 ADP3414 amd duron PIN LAYOUT voltage ground PDF

    philips 0201 capacitor

    Abstract: AD820 ADP3160 ADP3160JR ADP3167 ADP3167JR ADP3414 AMD athlon design guide amd athlon 64 PIN LAYOUT voltage ground block diagram of amd Athlon II
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 9.0 with Lowest System Cost Active Current Balancing between Both Output Phases 5-Bit Digitally Programmable 1.1 V to 1.85 V Output


    Original     		ADP3160/ADP3167 philips 0201 capacitor AD820 ADP3160 ADP3160JR ADP3167 ADP3167JR ADP3414 AMD athlon design guide amd athlon 64 PIN LAYOUT voltage ground block diagram of amd Athlon II PDF

    Untitled

    Abstract: No abstract text available
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 9.1 with Lowest System Cost 4-Phase Operation at up to 500 kHz per Phase Quad Logic-Level PWM Outputs for Interface to External High-Power Drivers


    Original     		PDF

    irl3803 equivalent

    Abstract: 2N3904 AD820 ADP3161 ADP3161JR ADP3412 ADP3413 ADP3414
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Active Current Balancing Between Both Output Phases VRM 8.4-Compatible Digitally Programmable 1.3 V to 2.05 V Output Dual Logic-Level PWM Outputs for Interface to External


    Original     		ADP3161 16-Lead R-16A/SO-16) irl3803 equivalent 2N3904 AD820 ADP3161 ADP3161JR ADP3412 ADP3413 ADP3414 PDF

    ADP3163

    Abstract: ic 7404 logic symbol amd athlon II PIN LAYOUT voltage ground AD820 ADP3163JRU ADP3413 ADP3414 RU-20 TSSOP-20 IC 7404 FOR NOT GATE
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 9.0 and Intel VR Down Guideline with Lowest System Cost Digitally Selectable 2- or 3-Phase Operation at up to 500 kHz per Phase


    Original     		ADP3163 20-Lead RU-20) C02483 ADP3163 ic 7404 logic symbol amd athlon II PIN LAYOUT voltage ground AD820 ADP3163JRU ADP3413 ADP3414 RU-20 TSSOP-20 IC 7404 FOR NOT GATE PDF

    AD820

    Abstract: ADP3164 ADP3164JRU ADP3413 RU-20 TSSOP-20 3f3 ferrite material
    Text: a FEATURES ADOPT Optimal Positioning Technology for Superior Load Transient Response and Fewest Output Capacitors Complies with VRM 9.1 with Lowest System Cost 4-Phase Operation at up to 500 kHz per Phase Quad Logic-Level PWM Outputs for Interface to External High-Power Drivers


    Original     		ADP3164 20-Lead RU-20) C02484 AD820 ADP3164 ADP3164JRU ADP3413 RU-20 TSSOP-20 3f3 ferrite material PDF

    PHILIPS toroidal core 3c85

    Abstract: LT1074HV TDK Ferrite Core PC40 3C80 ferrite tapped inductor boost converter LT1074 design manual 3C80 philips LT1074 24v LT1074 COILTRONICS 50-2-52
    Text: Application Note 44 September 1991 LT1074/LT1076 Design Manual Carl Nelson INTRODUCTION The use of switching regulators increased dramatically in the 1980’s and this trend remains strong going into the 90s. The reasons for this are simple; heat and efficiency.


    Original     		LT1074/LT1076 AN44-48 PHILIPS toroidal core 3c85 LT1074HV TDK Ferrite Core PC40 3C80 ferrite tapped inductor boost converter LT1074 design manual 3C80 philips LT1074 24v LT1074 COILTRONICS 50-2-52 PDF

    laptop battery diagram schematic

    Abstract: philips rf choke ferrite 4C4 ferrite ic 4060
    Text: a High Efficiency Notebook Computer Power Supply Controller Preliminary Technical Data ADP3020 FEATURES Wide Input Voltage Range: 5.5 V to 25 V High Conversion Efficiency > 96% Integrated Current Sense – No External Resistor Required Low Shutdown Current: < 8 µA Typical


    Original     		ADP3020 38-Lead ADP3020 laptop battery diagram schematic philips rf choke ferrite 4C4 ferrite ic 4060 PDF

    adp3168 ic

    Abstract: ADP3418
    Text: PRELIMINARY TECHNICAL DATA 6-Bit Programmable 2 / 3 / 4-Phase Synchronous Buck Controller Preliminary Technical Data ADP3168 a FEATURES Selectable 2-, 3- or 4-Phase Operation at up to 1 MHz per Phase ±10 mV DAC Accuracy Over Temperature Logic-level PWM Outputs for Interface to


    Original     		ADP3168 28-Lead RU-28 adp3168 ic ADP3418 PDF

    parallel connection of MOSFETs

    Abstract: C14A LQS66C 1N4148 ADP3020 ADP3020ARU Si4410 C20A LDO elna 5.5v 1f
    Text: a High-Efficiency Notebook Computer Power Supply Controller ADP3020 FEATURES Wide Input Voltage Range: 4.5 V to 25 V High Conversion Efficiency > 96% Integrated Current Sense—No External Resistor Required Low Shutdown Current: 7 ␮A Typical Dual Synchronous Buck Controllers with Selectable


    Original     		ADP3020 38-Lead ADP3020 C3773 RU-38) parallel connection of MOSFETs C14A LQS66C 1N4148 ADP3020ARU Si4410 C20A LDO elna 5.5v 1f PDF