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    DC-DC CONVERTER USING PIC Search Results

    DC-DC CONVERTER USING PIC Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    MYC0409-NA-EVM Murata Manufacturing Co Ltd 72W, Charge Pump Module, non-isolated DC/DC Converter, Evaluation board Visit Murata Manufacturing Co Ltd
    MGN1S1208MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-8V GAN Visit Murata Manufacturing Co Ltd
    MGN1D120603MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-6/-3V GAN Visit Murata Manufacturing Co Ltd
    MGN1S1212MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-12V GAN Visit Murata Manufacturing Co Ltd
    MGN1S0508MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 5-8V GAN Visit Murata Manufacturing Co Ltd

    DC-DC CONVERTER USING PIC Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Philips KS capacitors

    Abstract: ferrite core transformer calculation formula Full bridge converter 200 watt ,50 KHz flyback transformer philips PHILIPS ferrite transformer cores 4558 smd planar transformer formula half-bridge converter half bridge converter Philips KS 40 Temperature Control
    Text: application note 10 Watt DC/DC Converter using IIC Magnetics Philips Components 10 Watt DC/DC Converter using IIC Magnetics Contents 1 Introduction 3 Converter specification 4 Topology selection 4 Design of IIC magnetics 5 Electrical measurements 8 Thermal measurements


    Original     		PDF COD19 Philips KS capacitors ferrite core transformer calculation formula Full bridge converter 200 watt ,50 KHz flyback transformer philips PHILIPS ferrite transformer cores 4558 smd planar transformer formula half-bridge converter half bridge converter Philips KS 40 Temperature Control

    mathcad forward converter design

    Abstract: TDK PC44 how to calculate ferrite core transformer mathcad flyback design tdk pc50 UCC3801 schematic TDK Ferrite Core PC44 general transformer design schematic diagram dc-dc flyback converter CURRENT TRANSFORMER
    Text: A 50W, 48V-to-5V DC-DC Converter Using the HIP2100 Application Note April 1996 AN9605 Author: Greg J. Miller Introduction HIP2100 Half-Bridge Driver The most popular DC-DC converter topologies are also the simplest - the flyback converter and the forward converter.


    Original     		PDF HIP2100 AN9605 HIP2100 mathcad forward converter design TDK PC44 how to calculate ferrite core transformer mathcad flyback design tdk pc50 UCC3801 schematic TDK Ferrite Core PC44 general transformer design schematic diagram dc-dc flyback converter CURRENT TRANSFORMER

    general transformer design

    Abstract: TDK PC44 TM 9605 mathcad flyback UCC3801 schematic TDK Ferrite Core PC44 mathcad flyback design tdk pc50 pc50 core pulse transformer driver ic
    Text: A 50W, 48V-to-5V DC-DC Converter Using the HIP2100 TM Application Note April 1996 AN9605 Author: Greg J. Miller Introduction HIP2100 Half-Bridge Driver The most popular DC-DC converter topologies are also the simplest - the flyback converter and the forward converter.


    Original     		PDF HIP2100 AN9605 HIP2100 general transformer design TDK PC44 TM 9605 mathcad flyback UCC3801 schematic TDK Ferrite Core PC44 mathcad flyback design tdk pc50 pc50 core pulse transformer driver ic

    UCC3801 schematic

    Abstract: EPC-19 TRANSFORMER TDK PC44 sheet TDK Ferrite Core PC44 schematic diagram converter input 12v to 19v TDK PC44 tdk pc50 zener diode c18 5t how to calculate turn ratio for ferrite core transformer TDK TRANSFORMER CATALOG
    Text: Harris Semiconductor No. AN9605 Harris Intelligent Power April 1996 A 50W, 48V-to-5V DC-DC Converter Using the HIP2100 Author: Greg J. Miller Introduction HIP2100 Half-Bridge Driver The most popular DC-DC converter topologies are also the simplest - the flyback converter and the forward converter.


    Original     		PDF AN9605 HIP2100 HIP2100 UCC3801 schematic EPC-19 TRANSFORMER TDK PC44 sheet TDK Ferrite Core PC44 schematic diagram converter input 12v to 19v TDK PC44 tdk pc50 zener diode c18 5t how to calculate turn ratio for ferrite core transformer TDK TRANSFORMER CATALOG

    how to calculate turn ratio for ferrite core transformer

    Abstract: mathcad forward converter design mathcad flyback design TDK PC44 tdk pc50 TDK Ferrite Core PC44 EPC-19 TRANSFORMER UCC3801 schematic mathcad INDUCTOR DESIGN HIP2100
    Text: A 50W, 48V-to-5V DC-DC Converter Using the HIP2100 Application Note April 1996 AN9605 Author: Greg J. Miller The most popular DC-DC converter topologies are also the simplest - the flyback converter and the forward converter. Much of their simplicity is because they employ a single power


    Original     		PDF HIP2100 AN9605 how to calculate turn ratio for ferrite core transformer mathcad forward converter design mathcad flyback design TDK PC44 tdk pc50 TDK Ferrite Core PC44 EPC-19 TRANSFORMER UCC3801 schematic mathcad INDUCTOR DESIGN HIP2100

    "SMPS Controller"

    Abstract: smps 12 volt SMPS IC 16C620A 3002 ic equivalent constant current smps circuit diagram DC/DC converter pulse width modulator for smps smps control ic with 6 pin dc/dc converter 1N5821
    Text: AN216 DC/DC Converter Controller Using a PICmicro Microcontroller Author: Hartono Darmawaskita Microchip Technology Inc. INTRODUCTION In many applications, a DC/DC Converter is used to produce a regulated voltage or current, derived from an unregulated power supply, or from a battery. Examples


    Original     		PDF AN216 DS00216A-page "SMPS Controller" smps 12 volt SMPS IC 16C620A 3002 ic equivalent constant current smps circuit diagram DC/DC converter pulse width modulator for smps smps control ic with 6 pin dc/dc converter 1N5821

    smps 12 volt

    Abstract: 16C620A "SMPS Controller" 12 VOLT 100 AMP smps 12 VOLT 150 AMP smps 1N5821 AN216 AN701 PIC16C620A PIC16C72A
    Text: AN216 DC/DC Converter Controller Using a PICmicro Microcontroller Author: Hartono Darmawaskita Microchip Technology Inc. INTRODUCTION In many applications, a DC/DC Converter is used to produce a regulated voltage or current, derived from an unregulated power supply, or from a battery. Examples


    Original     		PDF AN216 D-81739 smps 12 volt 16C620A "SMPS Controller" 12 VOLT 100 AMP smps 12 VOLT 150 AMP smps 1N5821 AN216 AN701 PIC16C620A PIC16C72A

    multi gap inductor core design

    Abstract: 18122R105K9BB0D exact difference between smps dc-dc converter ferroxcube bobbin ceramic capacitor, .1uF 50v multi gap inductor core 12062R104K9BB0D 2R2 choke BAV70 sgs-thomson power supply
    Text: 14 Watt DC/DC Converter using Integrated Inductive Components Application Note A Y A G E O C O M P A N Y 14Watt DC/DC Converter using Integrated Inductive Components Summary In compact step down converters, bobbin cores are often used as output inductor. A reference circuit has been modified in order to substitute a


    Original     		PDF 14Watt RC1206JR-0720R 20Ohm, RC1206JR-071M RC1206JR-07100K 100kOhm, RC1206JR-073R RC1206JR-071K MAX1710EEG 24-QSOP multi gap inductor core design 18122R105K9BB0D exact difference between smps dc-dc converter ferroxcube bobbin ceramic capacitor, .1uF 50v multi gap inductor core 12062R104K9BB0D 2R2 choke BAV70 sgs-thomson power supply

    Full-bridge LLC resonant converter

    Abstract: PWM simulation matlab DC-AC Design Reference for LLC Resonant Power Transformers resonant converter theory simulink matlab PFC boost converter buck boost converter closed loop in matlab epcos ferrites pi controller dsp microchip 047s AN1336
    Text: AN1336 DC/DC LLC Reference Design Using the dsPIC DSC Authors: Resonant Converter Theory Antonio Bersani, Alex Dumais and Sagar Khare Microchip Technology Inc. Of the many DC/DC converter topologies available today, a designer usually selects one of them as a


    Original     		PDF AN1336 volt18 DS01336A-page Full-bridge LLC resonant converter PWM simulation matlab DC-AC Design Reference for LLC Resonant Power Transformers resonant converter theory simulink matlab PFC boost converter buck boost converter closed loop in matlab epcos ferrites pi controller dsp microchip 047s AN1336

    14 pin ic 7404 datasheet

    Abstract: 7404 not gate ic 3v ic 7404 datasheet logic diagram of ic 7404 14 pin ic 7404 not gate datasheet 7404 not gate ic 800V 40A mosfet WORKBENCH 1.01 AN1626 L6917
    Text: AN1626 APPLICATION NOTE DESIGNING TWO PHASE INTERLEAVED HIGH DENSITY DC/DC CONVERTER USING L6917B by Raimondo Vai Initially developed for CPU power supply, the Multi-Phase topology is now appliable also to high density DC/DC converter, tipically where the voltage conversion starts from the 12V bus output of an


    Original     		PDF AN1626 L6917B L6917B 14 pin ic 7404 datasheet 7404 not gate ic 3v ic 7404 datasheet logic diagram of ic 7404 14 pin ic 7404 not gate datasheet 7404 not gate ic 800V 40A mosfet WORKBENCH 1.01 AN1626 L6917

    800V 40A mosfet

    Abstract: AN1626 L6917 L6917B STS11NF30L 7404 ls
    Text: AN1626 APPLICATION NOTE DESIGNING TWO PHASE INTERLEAVED HIGH DENSITY DC/DC CONVERTER USING L6917B by Raimondo Vai Initially developed for CPU power supply, the Multi-Phase topology is now appliable also to high density DC/DC converter, tipically where the voltage conversion starts from the 12V bus output of an


    Original     		PDF AN1626 L6917B L6917B 800V 40A mosfet AN1626 L6917 STS11NF30L 7404 ls

    TC962EPA

    Abstract: Si7661 DIP zener 18V ICL7660S ICL7662 LTC1044 SI7661 TC7662 TC962 TC962COE
    Text: M TC962 High Current Charge Pump DC-to-DC Converter Features General Description • • • • • • • • The TC962 is an advanced version of the industry standard TC7662 high voltage DC-to-DC converter. Using improved design techniques and CMOS construction, the TC962 can source as much as 80mA


    Original     		PDF TC962 TC962 TC7662 TC7662/ICL7662/SI7661 D-81739 DS21484B-page TC962EPA Si7661 DIP zener 18V ICL7660S ICL7662 LTC1044 SI7661 TC962COE

    Untitled

    Abstract: No abstract text available
    Text: TC962 High Current Charge Pump DC-to-DC Converter Features: General Description: • • • • • • • • The TC962 is an advanced version of the industry standard TC7662 high voltage DC-to-DC converter. Using improved design techniques and CMOS construction, the TC962 can source as much as 80 mA


    Original     		PDF TC962 TC7662/ICL7662/SI7661 TC962 TC7662 o778-366 DS21484D-page

    2nc7

    Abstract: TC962EPA Si7661 DIP zener 18V ICL7660S ICL7662 LTC1044 SI7661 TC7662 TC962
    Text: TC962 High Current Charge Pump DC-to-DC Converter Features: General Description: • • • • • • • • The TC962 is an advanced version of the industry standard TC7662 high voltage DC-to-DC converter. Using improved design techniques and CMOS construction, the TC962 can source as much as 80 mA


    Original     		PDF TC962 TC962 TC7662 TC7662/ICL7662/SI7661 DS21484C-page 2nc7 TC962EPA Si7661 DIP zener 18V ICL7660S ICL7662 LTC1044 SI7661

    LTC1517-5

    Abstract: LTC1530
    Text: LTC1530 Constant-Frequency Synchronous DC/DC Converter Description: Demonstration Circuit DC235A is a constant-frequency, high efficiency boost converter using the LTC1530 switching regulator and the LTC1517-5 charge pump. This demo board is optimized for use with


    Original     		PDF LTC1530 DC235A LTC1517-5

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN TypeF series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN typeA series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN TypeF series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN TypeF series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN typeA series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN TypeF series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN typeA series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: LXDC2HN typeA series Micro DC-DC converter 1. Features 2  Low EMI noise and small footprint 5mm using inductor-embedded ferrite substrate  High efficiency using synchronous rectifier technology at 3MHz operation  PFM/PWM automatic mode switching function


    Original     		PDF 600mA

    Untitled

    Abstract: No abstract text available
    Text: Enpirion Power Evaluation Board User Guide EP5368 PowerSoC Enpirion EP5368QI DC/DC Converter Module Evaluation Board Introduction This application note describes how to test the EP5368QI converter using the Altera Enpirion 3x3 Module EVAL BOARD shown in Fig. 1. In addition to this document you


    Original     		PDF EP5368 EP5368QI