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    BUCK-CONVERTER APPLICATION NOTE Search Results

    BUCK-CONVERTER APPLICATION NOTE Result Highlights (6)

    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
    MGN1S0512MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 5-12V GAN Visit Murata Manufacturing Co Ltd

    BUCK-CONVERTER APPLICATION NOTE Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    transistor 3l2

    Abstract: DIODE 3L2 rrcs2 HV9930 IC03b 506K AT9933 FDS3692 0942a 3L2 diode
    Text: AN-H51 Application Note Designing a Boost-Buck Ĉuk Converter with the HV9930 / AT9933 A boost-buck (also known as a Ĉuk) converter is a singleswitch converter, which consists of a cascade of a boost converter followed by a buck converter. A typical boost-buck


    Original     		PDF AN-H51 HV9930 AT9933 transistor 3l2 DIODE 3L2 rrcs2 IC03b 506K AT9933 FDS3692 0942a 3L2 diode

    120v input buck converter

    Abstract: AN-959 AN959 APP959 MAX1970
    Text: Maxim > App Notes > Power-supply circuits Keywords: buck converter, step-down regulator, 1V core supply, 1V logic supply Feb 06, 2002 APPLICATION NOTE 959 Dual 600mA buck converter for logic supply and core supply at 1V or less Abstract: This application note shows how to reconfigure the MAX1970 2.5V buck converter for logic and core supplies less than


    Original     		PDF 600mA MAX1970 600mA. 750mA com/an959 AN959, 120v input buck converter AN-959 AN959 APP959

    IEC55015

    Abstract: tdg rm10 tp4 AN10876 TDG TP4 loss rm8 epcos transformer SSL1623 pot core epcos RM8 3f3 ferrite smps SSL1523 RM7 series bobbins
    Text: AN10876 Buck converter for SSL applications Rev. 01 — 14 October 2009 Application note Document information Info Content Keywords Buck, down, converter, driver, topology, AC/DC, DC/DC, SMPS, LED Abstract This document describes how to design a buck converter that can, for


    Original     		PDF AN10876 AN10876 IEC55015 tdg rm10 tp4 TDG TP4 loss rm8 epcos transformer SSL1623 pot core epcos RM8 3f3 ferrite smps SSL1523 RM7 series bobbins

    HM00-07559LFTR

    Abstract: 12v dc choke circuit HM00-07559 APP4596 12v 5a dc dc converter resistance ALUMINUM
    Text: Maxim > App Notes > Hot-Swap and Power Switching Circuits Power-Supply Circuits Keywords: buck converter, two-phase, coupled-choke, synchronous buck converter, interleaved multiphase converters, reduced phase ripple, Sep 28, 2009 APPLICATION NOTE 4596 Improve Two-Phase Buck Converter Performance with a Coupled-Choke Topology


    Original     		PDF MAX8686: com/an4596 AN4596, APP4596, Appnote4596, HM00-07559LFTR 12v dc choke circuit HM00-07559 APP4596 12v 5a dc dc converter resistance ALUMINUM

    AN10876

    Abstract: TDG TP4 loss 3f3 ferrite smps
    Text: AN10876 Buck converter for SSL applications Rev. 2 — 23 June 2011 Application note Document information Info Content Keywords Buck, down, converter, driver, topology, AC/DC, DC/DC, SMPS, LED Abstract This document describes how to design a buck converter that can be used


    Original     		PDF AN10876 AN10876 TDG TP4 loss 3f3 ferrite smps

    HM00-07559LFTR

    Abstract: AN4596 12v dc choke circuit APP4596 resistance ALUMINUM HM00-07559
    Text: Maxim > App Notes > Hot-Swap and Power Switching Circuits Power-Supply Circuits Keywords: buck converter, two-phase, coupled-choke, synchronous buck converter, interleaved multiphase converters, reduced phase ripple, Sep 28, 2009 APPLICATION NOTE 4596 Improve Two-Phase Buck Converter Performance with a Coupled-Choke Topology


    Original     		PDF MAX8686: com/an4596 AN4596, APP4596, Appnote4596, HM00-07559LFTR AN4596 12v dc choke circuit APP4596 resistance ALUMINUM HM00-07559

    VoltageControlled Voltage Source

    Abstract: 912 MOSFET AN912 APP912 MAX1744 MAX1745 NDS9407 asynchronous Buck controller si9407
    Text: Maxim > App Notes > BATTERY MANAGEMENT POWER-SUPPLY CIRCUITS Keywords: Turn-On Switching Loss of An Asynchronous Buck Converter Dec 27, 2001 APPLICATION NOTE 912 Turn-On Switching Loss of An Asynchronous Buck Converter Figure 1 shows a simplified buck converter with asynchronous rectification based on the MAX1744/5 controller


    Original     		PDF MAX1744/5 com/an912 MAX1744: MAX1745: AN912, APP912, Appnote912, VoltageControlled Voltage Source 912 MOSFET AN912 APP912 MAX1744 MAX1745 NDS9407 asynchronous Buck controller si9407

    ST VIPER 22A

    Abstract: DIODE BA159 VIPER22A VIPER22A not isolated buck zener 5.6v VIPER22A using smps VIPER22A not isolated viper22a 5v power supply design VIPER 22A application notes VIPER22A Application Note
    Text:  AN1514 - APPLICATION NOTE VIPower: DOUBLE OUTPUT BUCK OR BUCK-BOOST CONVERTER USING VIPer12/22A N. Aiello - F. Gennaro ABSTRACT This paper introduces two double output off-line non isolated SMPS based on VIPerX2A family. The first SMPS is a Buck converter with two positive outputs and the second one is a Buck-Boost converter with


    Original     		PDF AN1514 VIPer12/22A VIPer12A VIPer22A 285Vac. ST VIPER 22A DIODE BA159 VIPER22A not isolated buck zener 5.6v VIPER22A using smps VIPER22A not isolated viper22a 5v power supply design VIPER 22A application notes VIPER22A Application Note

    ST VIPER 22A

    Abstract: DIODE BA159 VIPER22A VIPER22A not isolated VIPER22A using smps VIPER22A not isolated buck VIPER22A not isolated SMPS viper22a 5v power supply design AN1514 VIPER22A Application Note
    Text: AN1514 - APPLICATION NOTE VIPower: DOUBLE OUTPUT BUCK OR BUCK-BOOST CONVERTER USING VIPer12/22A N. Aiello - F. Gennaro ABSTRACT This paper introduces two double output off-line non isolated SMPS based on VIPerX2A family. The first SMPS is a Buck converter with two positive outputs and the second one is a Buck-Boost converter with


    Original     		PDF AN1514 VIPer12/22A VIPer12A VIPer22A 285Vac. ST VIPER 22A DIODE BA159 VIPER22A not isolated VIPER22A using smps VIPER22A not isolated buck VIPER22A not isolated SMPS viper22a 5v power supply design AN1514 VIPER22A Application Note

    SSL2129

    Abstract: No abstract text available
    Text: AN11041 SSL21081, SSL21083, and SSL2109 non-dimmable buck converter in low ripple configurations Rev. 1.3 — 23 October 2012 Application note Document information Info Content Keywords SSL21081, SSL21083, SSL2109, buck converter, down converter, driver, topology, AC/DC, retrofit SSL, LED


    Original     		PDF AN11041 SSL21081, SSL21083, SSL2109 SSL2109, SSL21083 SSL2129

    AN-H51

    Abstract: compute voltage in kcl 115U HV9930 AN-H58 406a
    Text: AN-H58 Application Note Improving the Efficiency of a HV9930/AT9933 Controlled Boost-Buck Converter Introduction Description The HV9930 based Boost-Buck converter offers many advantages - tight regulation of the output current, ability to boost or buck the input voltage and continuous input and


    Original     		PDF AN-H58 HV9930/AT9933 HV9930 AN-H51 compute voltage in kcl 115U AN-H58 406a

    ST VIPER 22A

    Abstract: viper 22a ic ST VIPER 27 VIPER 22A application notes VIPer smps 24v viper 22a VIPER IC VIPer22A-E VIPER22A not isolated buck VIPER22A
    Text: AN1514 Application note VIPower: double output buck or buck-boost converter using VIPer12A-E/22A-E Introduction This paper introduces two double output off-line non isolated SMPS based on the VIPerX2A-E family. The first SMPS is a Buck converter with two positive outputs and the


    Original     		PDF AN1514 VIPer12A-E/22A-E VIPer12A-E VIPer22A-E ST VIPER 22A viper 22a ic ST VIPER 27 VIPER 22A application notes VIPer smps 24v viper 22a VIPER IC VIPER22A not isolated buck VIPER22A

    Untitled

    Abstract: No abstract text available
    Text: Freescale Semiconductor Document Number: AN4716 Rev. 1, 05/2013 Application Note Digital Peak Current Mode Control of Buck Converter Using MC56F8257 DSC by: Raghavan Sampath Contents 1 Introduction As the simplest form of DC-DC converter, the buck converter steps down the input voltage


    Original     		PDF AN4716 MC56F8257

    NCP105x

    Abstract: zener diode c5 NCP1052 595D106X9025B2 595D106X9025B2T MMSZ5260BT1G NCP1055 DN06028 NCP1055ST136G CRCW12062K00JNEA
    Text: DN06028/D Design Note – DN06028/D 7 W, Non-Isolated Buck AC-DC Converter Device NCP1055 Application Input Voltage 1 Output AC to DC converter 108-132 Vac Output Power Topology I/O Isolation 7 Watts Non-Isolated Buck Converter No Other Specifications Output


    Original     		PDF DN06028/D NCP1055 NCP1052 AND8098/D) 2V/100mA 1V/75mA. NCP105x zener diode c5 595D106X9025B2 595D106X9025B2T MMSZ5260BT1G NCP1055 DN06028 NCP1055ST136G CRCW12062K00JNEA

    AN10739

    Abstract: pnp transistor 313 smd inductor 1612 footprint dimension LED driver INDUCTOR smd schottky diode sot363 SOT363 flash BC847BPN LQH55D PBSS5220T PMEG2010EJ
    Text: AN10739 Discrete LED driver Rev. 2 — 21 June 2010 Application note Document information Info Content Keywords LED, constant current source, buck converter Abstract This application note describes a 300 mA discrete LED driver, based on a buck-converter principle, with a cycle-by-cycle current control. It includes a


    Original     		PDF AN10739 AN10739 pnp transistor 313 smd inductor 1612 footprint dimension LED driver INDUCTOR smd schottky diode sot363 SOT363 flash BC847BPN LQH55D PBSS5220T PMEG2010EJ

    AN10739

    Abstract: LQH55D pnp transistor 313 smd SOT363 flash BC847BPN PBSS5220T PMEG2010EJ Led driver schematic sot23 TR3 discrete LED driver
    Text: AN10739 Discrete LED driver Rev. 01 — 11 February 2009 Application note Document information Info Content Keywords LED, constant current source, buck converter Abstract This application note describes a 300 mA discrete LED driver, based on a buck-converter principle, with a cycle-by-cycle current control. It includes a


    Original     		PDF AN10739 AN10739 LQH55D pnp transistor 313 smd SOT363 flash BC847BPN PBSS5220T PMEG2010EJ Led driver schematic sot23 TR3 discrete LED driver

    Dale R015F

    Abstract: grm42-2 x7r 226k 5uH inductor R015F CAPACITOR TANTALUM 2.2UF 50V vishay vishay-Dale R015F VJ0603Y102KXAAT MIC2182 CDRH6D38-5R0 MIC2182BSM
    Text: Application Hint 71 MIC2182 All Ceramic Capacitor Synchronous Buck Converter Application Circuit By Steven Chenetz General Description The MIC2182 controller is used in a Synchronous Buck El. Capacitors are large enough to add a “zero” within converter using ceramic capacitors on both the input


    Original     		PDF MIC2182 300kHz, M9999-062506 Dale R015F grm42-2 x7r 226k 5uH inductor R015F CAPACITOR TANTALUM 2.2UF 50V vishay vishay-Dale R015F VJ0603Y102KXAAT CDRH6D38-5R0 MIC2182BSM

    SPCJ-123-01

    Abstract: JOLO SPCJ-123-01 C38 06 DIODE
    Text: Application Note 1881 Author: Billy Yang ISL8115EVAL1Z Synchronous Buck Converter User Guide Introduction ISL8115 Key Features The ISL8115EVAL1Z is a Synchronous Buck Converter implementing Intersil’s wide input range PWM controller ISL8115. Utilizing voltage mode control with input


    Original     		PDF ISL8115EVAL1Z ISL8115 ISL8115. ISL8115 AN1881 SPCJ-123-01 JOLO SPCJ-123-01 C38 06 DIODE

    adsl2 modem

    Abstract: adapter 12v 1a ADSL2 chipset an363 AC adapter 12V APP3638 MAX5072 FREQUENCY CONVERTER
    Text: Maxim > App Notes > AMPLIFIER AND COMPARATOR CIRCUITS POWER-SUPPLY CIRCUITS Keywords: xDSL, ADSL, ADSL2, ADSL2+, Multiple DSL, ADSL, 2.2MHz, Buck Converter, Boost Converter Nov 04, 2005 APPLICATION NOTE 3638 2.2MHz Buck or Boost Power Supply for ADSL2+ Chipset


    Original     		PDF MAX5072 com/an3638 MAX5072: AN3638, APP3638, Appnote3638, adsl2 modem adapter 12v 1a ADSL2 chipset an363 AC adapter 12V APP3638 FREQUENCY CONVERTER

    Untitled

    Abstract: No abstract text available
    Text: Application Note 1919 ISL8115DEMO1Z Synchronous Buck Converter User Guide Introduction Key Features The ISL8115DEMO1Z is a compact reference design Synchronous Buck Converter 28.19mmx16.89mm implementing Intersil’s wide input range PWM controller ISL8115. Utilizing voltage mode control with input


    Original     		PDF ISL8115DEMO1Z 19mmx16 ISL8115. ISL8115 ISL8115 AN1919

    vishay 0402 SMD capacitors

    Abstract: AN-4150 SMD resistors 0402 JMK107BJ475MA-T EMK105BJ104KV ic buck convertor 5440 EMK107BJ105KA-T NIPPON CAPACITORS RL1220T 0402 smd
    Text: Maxim > App Notes > POWER-SUPPLY CIRCUITS Keywords: dual buck, dual step-down, dual controller, 5V converter, DC/DC converter Nov 19, 2007 APPLICATION NOTE 4150 Reference Design Using the MAX5066 for a High Performance Application Abstract: The MAX5066 high performance dual buck regulator provides outstanding performance. The reference design in this


    Original     		PDF MAX5066 com/an4150 MAX5066: AN4150, APP4150, Appnote4150, vishay 0402 SMD capacitors AN-4150 SMD resistors 0402 JMK107BJ475MA-T EMK105BJ104KV ic buck convertor 5440 EMK107BJ105KA-T NIPPON CAPACITORS RL1220T 0402 smd

    AN959

    Abstract: APP959 MAX1970 120v input buck converter
    Text: Maxim > App Notes > POWER-SUPPLY CIRCUITS Keywords: Dual 600mA Buck Converter for Logic Supply and Core Supply at 1V or Less Feb 06, 2002 APPLICATION NOTE 959 Dual 600mA Buck Converter for Logic Supply and Core Supply at 1V or Less The MAX1970 was developed as a dual 600mA buck converter for input voltages as low as 2.6V and output


    Original     		PDF 600mA MAX1970 MAX1970? 600mA 600mA. com/an959 AN959 APP959 120v input buck converter

    Untitled

    Abstract: No abstract text available
    Text: ROHM Switching Regulator Solutions Evaluation Board: Synchronous Buck Converter Integrated FET No.000000000 BU90002GWZEVK-101 3.3V | 1A Output •    Introduction This application note will provide the steps necessary to operate and evaluate ROHM’s synchronous buck DC/DC converter


    Original     		PDF BU90002GWZEVK-101 BU90002GWZ BU90002GWZ. 250mOhm 220mOhm

    Untitled

    Abstract: No abstract text available
    Text: A Product Line of Diodes Incorporated AP3418 APPLICATION NOTE 1126 1.5A, 1.4MHZ HIGH EFFICIENCY SYNCHRONOUS DC-DC BUCK CONVERTER Introduction The AP3418 is a 1.4MHz fixed frequency, current mode, PWM synchronous buck step-down DC-DC converter, capable of driving a 1.5A load


    Original     		PDF AP3418 AP3418 AP3418.