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    INDUCTOR SWITCHING MOSFET Search Results

    INDUCTOR SWITCHING MOSFET Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    MG800FXF1JMS3 Toshiba Electronic Devices & Storage Corporation N-ch SiC MOSFET Module, 3300 V, 800 A, iXPLV, High-side: SiC SBD、Low-side: SiC MOSFET Visit Toshiba Electronic Devices & Storage Corporation
    TK190U65Z Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 650 V, 15 A, 0.19 Ohm@10V, TOLL Visit Toshiba Electronic Devices & Storage Corporation
    TK7R0E08QM Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 80 V, 64 A, 0.0070 Ohm@10V, TO-220AB Visit Toshiba Electronic Devices & Storage Corporation
    XPJ1R004PB Toshiba Electronic Devices & Storage Corporation N-ch MOSFET, 40 V, 160 A, 0.001 Ω@10V, S-TOGL Visit Toshiba Electronic Devices & Storage Corporation
    TK4K1A60F Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 600 V, 2.0 A, 4.1 Ohm@10V, TO-220SIS Visit Toshiba Electronic Devices & Storage Corporation

    INDUCTOR SWITCHING MOSFET Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    APP4215

    Abstract: DS2712 DS2715
    Text: Maxim > App Notes > BATTERY MANAGEMENT Keywords: switching speed, switchmode, frequency, calculation, inductor, inductor selection, battery charger ics, battery chargers, nimh charge controllers, smart charger, nimh, chargers, batteries, packs, ds2712, ics,


    Original     		PDF ds2712, DS2712 com/an4215 DS2712: AN4215, APP4215, Appnote4215, APP4215 DS2715

    DS2715

    Abstract: APP4214
    Text: Maxim > App Notes > BATTERY MANAGEMENT Keywords: switching speed, frequency, calculation, inductor, inductor selection, battery charger ics, battery chargers, nimh charge controllers, smart charger, nimh, chargers, batteries, packs, ds2715, ics, circuits, low


    Original     		PDF ds2715, DS2715 com/an4214 DS2715: AN4214, APP4214, Appnote4214, APP4214

    Inductor

    Abstract: TOROIDS Design Considerations AB-12
    Text: www.fairchildsemi.com Application Bulletin AB-12 Insight into Inductor Current Introduction The design of the main power inductor in a switching power supply provides many challenges to the engineer. Not only must an inductance value be chosen, but also how much current the inductor can handle, the winding resistance,


    Original     		PDF AB-12 AB00000012 Inductor TOROIDS Design Considerations AB-12

    pot core inductor

    Abstract: mpp schematic FDV0620 inductor footprint FDV0620-0 FDV0630 inductor datasheets toko FDV FDV0620-1 FDV630-1
    Text: Maxim > App Notes > POWER-SUPPLY CIRCUITS Keywords: Inductor, DC-DC converter, step-up, effciency Feb 12, 2007 APPLICATION NOTE 3988 Inductor Choice Yields Performance Tradeoffs in DC-DC Converters Abstract: Cost, size, resistance, and current capability drive the choice of inductor for most step-down DC-DC switching


    Original     		PDF com/an3988 MAX8646: AN3988, APP3988, Appnote3988, pot core inductor mpp schematic FDV0620 inductor footprint FDV0620-0 FDV0630 inductor datasheets toko FDV FDV0620-1 FDV630-1

    Untitled

    Abstract: No abstract text available
    Text: LTC1430 High Power Step-Down Switching Regulator Controller U DESCRIPTIO FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ High Power 5V to 3.xV Switching Controller: Can Exceed 10A Output All N-Channel External MOSFETs Constant Frequency Operation—Small Inductor


    Original     		PDF LTC1430 000pF 16-Lead LTC1873 LTC1929 1430fa

    m1b marking

    Abstract: 1N4148 LTC1430 LTC1430CN8 LTC1430CS8 LTC3830 MTD20N03HL 12V DC to 35V dC converter circuit diagram G1M1
    Text: LTC1430 High Power Step-Down Switching Regulator Controller U DESCRIPTIO FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ High Power 5V to 3.xV Switching Controller: Can Exceed 10A Output All N-Channel External MOSFETs Constant Frequency Operation—Small Inductor


    Original     		PDF LTC1430 000pF 16-Lead LTC1873 LTC1929 1430fa m1b marking 1N4148 LTC1430 LTC1430CN8 LTC1430CS8 LTC3830 MTD20N03HL 12V DC to 35V dC converter circuit diagram G1M1

    mosfet short circuit protection schematic diagra

    Abstract: m1b marking 1N4148 LTC1430 LTC1430C LTC1430CN8 LTC1430CS8 MTD20N03HL
    Text: LTC1430 High Power Step-Down Switching Regulator Controller U DESCRIPTIO FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ High Power 5V to 3.xV Switching Controller: Can Exceed 10A Output All N-Channel External MOSFETs Constant Frequency Operation—Small Inductor


    Original     		PDF LTC1430 000pF 16-Lead LTC1873 LTC1929 1430fa mosfet short circuit protection schematic diagra m1b marking 1N4148 LTC1430 LTC1430C LTC1430CN8 LTC1430CS8 MTD20N03HL

    smd diode ss14 data

    Abstract: quad p-CHANNEL smd diode ss14 D10 TRANSISTOR Diode smd d20 1a, 40v schottky diode "PNP Transistor array" SS14 DIODE SS14 VISHAY C2012X5R1A225K
    Text: Application Hint 59 Driving 20 White LEDs with a Single MIC2291 Step-Up Switching Regulator using a Simple Inductor Introduction Circuit Description With duty cycle limitations of typical step-up switching regulators it is very difficult to drive 20 white LEDs in


    Original     		PDF MIC2291 MIC2291) M9999-061705 smd diode ss14 data quad p-CHANNEL smd diode ss14 D10 TRANSISTOR Diode smd d20 1a, 40v schottky diode "PNP Transistor array" SS14 DIODE SS14 VISHAY C2012X5R1A225K

    scr preregulator

    Abstract: UC 3245 220 microfarad 35v electrolytic capacitor UNITRODE application note u132 ic u1 741 opamp U132 capacitor, 1 microfarad 16v Design equations of high-power-factor flyback flyback pfc using voltage mode control pwm any circuit using irf830
    Text: U-132 APPLICATION NOTE POWER FACTOR CORRECTION USING THE UC3852 CONTROLLED ON-TIME ZERO CURRENT SWITCHING TECHNIQUE BILL ANDREYCAK INTRODUCTION The controlled on-time, zero current switching technique provides a simple and efficient solution to obtaining high power factor correction. This discontinuous inductor current approach


    Original     		PDF U-132 UC3852 IRF830 scr preregulator UC 3245 220 microfarad 35v electrolytic capacitor UNITRODE application note u132 ic u1 741 opamp U132 capacitor, 1 microfarad 16v Design equations of high-power-factor flyback flyback pfc using voltage mode control pwm any circuit using irf830

    flyback pfc using constant on-time

    Abstract: N4006 scr preregulator ic u1 741 opamp ic 741 working as comparator OP-AMP ic 741 used as summing amplifier PM 3000 pin configuration transistor AT u132 IC 741 OPAMP using transistor rms 600 watt mosfet schematic
    Text: U-132 APPLICATION NOTE POWER FACTOR CORRECTION USING THE UC3852 CONTROLLED ON-TIME ZERO CURRENT SWITCHING TECHNIQUE BILL ANDREYCAK INTRODUCTION The controlled on-time, zero current switching technique provides a simple and efficient solution to obtaining high power factor correction. This discontinuous inductor current approach


    Original     		PDF U-132 UC3852 flyback pfc using constant on-time N4006 scr preregulator ic u1 741 opamp ic 741 working as comparator OP-AMP ic 741 used as summing amplifier PM 3000 pin configuration transistor AT u132 IC 741 OPAMP using transistor rms 600 watt mosfet schematic

    Untitled

    Abstract: No abstract text available
    Text: AOZ1905 EZBoost 2A General Purpose Regulator General Description Features The AOZ1905 EZBoost is a high-performance, currentmode, constant frequency step-up regulator with internal MOSFET. 600kHz/1.2MHz switching frequency allows the use of low-profile inductor and capacitors. The


    Original     		PDF AOZ1905 AOZ1905 600kHz/1

    DFN 3X3_EP LAND PATTERN

    Abstract: 1905I aoz1905 AOZ1905FI AOZ1905DI AOZ1905FIL DFN-10 1905i msop8 DFN 3x3
    Text: AOZ1905 EZBoost 2A General Purpose Regulator General Description Features The AOZ1905 EZBoost is a high-performance, currentmode, constant frequency step-up regulator with internal MOSFET. 600kHz/1.2MHz switching frequency allows the use of low-profile inductor and capacitors. The


    Original     		PDF AOZ1905 AOZ1905 600kHz/1 DFN 3X3_EP LAND PATTERN 1905I AOZ1905FI AOZ1905DI AOZ1905FIL DFN-10 1905i msop8 DFN 3x3

    LTM4619

    Abstract: LTM4619V aluminum cap schematic diagram 24V to 19V converter TK Capacitors 375424b00034g
    Text: LTM4619 Dual, 26VIN, 4A DC/DC µModule Regulator FEATURES DESCRIPTION n The LTM 4619 is a complete dual 4A step-down switching mode DC/DC power supply. Included in the package are the switching controller, power FETs, inductor, and all support components. Operating over input voltage ranges


    Original     		PDF LTM4619 26VIN, LTM4619 4619f LTM4614 LTM4615 LTM4616 LTM4619V aluminum cap schematic diagram 24V to 19V converter TK Capacitors 375424b00034g

    4606 mosfet

    Abstract: 227A capacitor 4606 fet 4606 MOSFET circuit diagram A 4606 4606 LTM4612 MOSFET 4606 LTM4606V CPA9231A
    Text: LTM4606 Ultralow EMI 28VIN, 6A DC/DC µModule FEATURES DESCRIPTION n The LTM 4606 is a complete ultralow noise high voltage 6A switching mode DC/DC power supply. Included in the package are the switching controller, power FETs, inductor, and all support components. The on-board input filter and


    Original     		PDF LTM4606 28VIN, LTM4606 LTM4612 15VOUT LTM8020 LTM8021 LTM8022/LTM8023 36VIN, 4606 mosfet 227A capacitor 4606 fet 4606 MOSFET circuit diagram A 4606 4606 LTM4612 MOSFET 4606 LTM4606V CPA9231A

    IXAN0068

    Abstract: IXTP220N04T2 IXTP110N055T2 IXTP90n055 IXTA200N055T2 IXTA220N04T2 IXTA70N075T2 IXTA90N055T2 IXTP200N055T2 IXTP70N075T2
    Text: DC to DC Synchronous Converter Design Abdus Sattar, IXYS Corporation IXAN0068 Modern power electronics products require small size and lighter weight of power electronics parts. Filter inductor and capacitor sizes must be small. With the small filter, the switching semiconductor devices must have small switching loss. And heat sink also


    Original     		PDF IXAN0068 210uF 200mV AN-6005, ISL6594D IXAN0068 IXTP220N04T2 IXTP110N055T2 IXTP90n055 IXTA200N055T2 IXTA220N04T2 IXTA70N075T2 IXTA90N055T2 IXTP200N055T2 IXTP70N075T2

    lp2937

    Abstract: mbrs0520 sanyo capacitor 6SVPC220M GRM319R71H104KA01 sl22-E3/2C lp293 IRF6609 IRF6633 LM2747 CRCW060310R0
    Text: National Semiconductor Application Note 1641 Ricardo Capetillo May 2007 Introduction Note, increasing the switching frequency results in a lower inductor current ripple and input and output voltage ripple if the component values are kept the same . Monitor the MOSFET junction temperature since switching losses will increase, and do not exceed the maximum junction temperature of the MOSFET. Refer to the MOSFET manufacturer


    Original     		PDF LM2747 AN-1641 lp2937 mbrs0520 sanyo capacitor 6SVPC220M GRM319R71H104KA01 sl22-E3/2C lp293 IRF6609 IRF6633 CRCW060310R0

    Transformer and Inductor Design Handbook,

    Abstract: hall ic 01e 3C80 ferrite 3C80 transformer MC33262 3c80 material mbrs360 MC33072 flyback transformer high voltage copier 4n35 optocoupler
    Text: AND8024/D Off-Line Critical Conduction Switching Power Supply with Voltage and Current Limiting http://onsemi.com Prepared by: Larry Hayes, Jim Spangler ON Semiconductor Phoenix, AZ 85008 APPLICATION NOTE current through the primary of the coupled inductor


    Original     		PDF AND8024/D r14525 Transformer and Inductor Design Handbook, hall ic 01e 3C80 ferrite 3C80 transformer MC33262 3c80 material mbrs360 MC33072 flyback transformer high voltage copier 4n35 optocoupler

    LTM4628EV

    Abstract: Zener Diode 4148 4148 diode 4628 47-470F GRM43ER61C226KE01 LTM4619 t 4148 diode pbf LTM4628 LTM4628E
    Text: LTM4628 Dual 8A or Single 16A DC/DC µModule Regulator FEATURES DESCRIPTION n The LTM 4628 is a complete dual 8A output switching mode DC/DC power supply and can be easily configured to provide a single 2-phase 16A output. Included in the package are the switching controller, power FETs, inductor,


    Original     		PDF LTM4628 LTM4628 16A5V LTM4619 26VIN, LTM4615 LTM4616 LTM4614 LTM4627 4628f LTM4628EV Zener Diode 4148 4148 diode 4628 47-470F GRM43ER61C226KE01 LTM4619 t 4148 diode pbf LTM4628E

    Untitled

    Abstract: No abstract text available
    Text: MIC33050 Evaluation Board 4MHz Internal Inductor PWM Buck Regulator with HyperLight Load General Description Getting Started The MIC33050 is a 600mA 4MHz switching regulator ® featuring HyperLight Load mode. The MIC33050 is highly efficient throughout the entire output current


    Original     		PDF MIC33050 600mA

    how to check ic on motherboard

    Abstract: PC MOTHERBOARD FDB7030L RC5051 13mh inductor design FDP7030L RC5051M 1N4735A 1N5820 AN53 FDP6030L
    Text: www.fairchildsemi.com Application Note 53 Implementing an RC5051 DC-DC Converter on Pentium II Motherboards Introduction This document describes how to implement a switching voltage regulator using an RC5051 high speed controller, a power inductor, a Schottky diode, appropriate capacitors,


    Original     		PDF RC5051 AN30000053 how to check ic on motherboard PC MOTHERBOARD FDB7030L 13mh inductor design FDP7030L RC5051M 1N4735A 1N5820 AN53 FDP6030L

    lp2937

    Abstract: capacitor 3.3nf 16v 10 0603 x7r vishay MBRS0520 lp293 IRF6609 IRF6633 LM2743 CRCW06032R21F AN1640
    Text: National Semiconductor Application Note 1640 Ricardo Capetillo May 2007 Introduction cy is user adjustable; note increasing the switching frequency results in a lower inductor current ripple and input and output voltage ripple if the component values are the same . Monitor


    Original     		PDF LM2743 AN-1640 lp2937 capacitor 3.3nf 16v 10 0603 x7r vishay MBRS0520 lp293 IRF6609 IRF6633 CRCW06032R21F AN1640

    ISL8201M

    Abstract: ISL8201MEVAL1Z ISL8201MIRZ TB347 TB363 TB379
    Text: ISL8201M Data Sheet October 21, 2010 10A, High Efficiency DC/DC Module Features The ISL8201M is a 20V, 10A output current, variable output step-down power supply. Included in the 15mmx15mm package is a high performance PWM controller switching at 600kHz, power MOSFETs, an inductor, and all the passive


    Original     		PDF ISL8201M ISL8201M 15mmx15mm 600kHz, FN6657 ISL8201MEVAL1Z ISL8201MIRZ TB347 TB363 TB379

    scr preregulator

    Abstract: U132 SEM-800 dixon 1N4037 teslas flyback xfmr 3.5 mh flyback pfc using constant on-time transistor ad 3000 watt half bridge converter
    Text: U-132 APPLICATION NOTE POWER FACTOR CORRECTION USING THE UC3852 CONTROLLED ON-TIME ZERO CURRENT SWITCHING TECHNIQUE BILL ANDREYCAK INTRODUCTION The controlled on-time, zero current switching technique provides a simple and efficient so­ lution to obtaining high power factor correction. This discontinuous inductor current approach


    OCR Scan     		PDF U-132 UC3852 IRF830 UC3852 scr preregulator U132 SEM-800 dixon 1N4037 teslas flyback xfmr 3.5 mh flyback pfc using constant on-time transistor ad 3000 watt half bridge converter

    mosfet smd code pq

    Abstract: motorola diode smd 35v smd TRANSISTOR code YW RECTIFIER 638 MOTOROLA
    Text: ' i , r 19- 1313; Rev 0, 11/97 jy \j\y L \jy \ •Down Controller with for CPU Power The switching frequency is pin-selectable for 300kHz, 600kHz, or 1MHz. High switching frequencies allow the use of a small surface-mount inductor and decrease out­ put filter capacitor requirements, reducing board area


    OCR Scan     		PDF MAX1638 mosfet smd code pq motorola diode smd 35v smd TRANSISTOR code YW RECTIFIER 638 MOTOROLA