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    NATIONAL STEP-UP VOLTAGE CONVERTER Search Results

    NATIONAL STEP-UP VOLTAGE CONVERTER Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TB67S580FNG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=50/Iout(A)=1.6 Visit Toshiba Electronic Devices & Storage Corporation
    TB67S581FNG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=50/Iout(A)=2.5 Visit Toshiba Electronic Devices & Storage Corporation
    TB67S539FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=2/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S141AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Phase Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S149AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation

    NATIONAL STEP-UP VOLTAGE CONVERTER Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    LM4510

    Abstract: LM4510SD 22nF-25v C1608C0G1E103J National Controls Corporation Application Note National Semiconductor
    Text: National Semiconductor Application Note 1697 Jingdong Chen September 2007 Introduction Operating Conditions The LM4510 is a current mode synchronous step-up DC/DC converter designed for organic LED applications. The evaluation board is designed to provide adjustable output voltage


    Original     		PDF LM4510 AN-1697 LM4510SD 22nF-25v C1608C0G1E103J National Controls Corporation Application Note National Semiconductor

    20MHZ

    Abstract: C2012X7R2A103K LM25575 30-007-0
    Text: National Semiconductor Application Note 1578 Robert Bell January 2007 Introduction The LM25575 evaluation board is designed to provide the design engineer with a fully functional power converter based on Emulated Current Mode Control to evaluate the LM25575


    Original     		PDF LM25575 LM25575 300kHz, AN-1578 20MHZ C2012X7R2A103K 30-007-0

    capacitor 22u 63V

    Abstract: C4532X7R2A225M 20MHZ C0805C331G1GAC C2012X7R2A103K LM5576 LM557 CRCW2512 capacitor .22u
    Text: National Semiconductor Application Note 1570 Robert Bell January 2007 Introduction The LM5576 evaluation board is designed to provide the design engineer with a fully functional power converter based on Emulated Current Mode Control to evaluate the LM5576


    Original     		PDF LM5576 LM5576 300kHz, AN-1570 capacitor 22u 63V C4532X7R2A225M 20MHZ C0805C331G1GAC C2012X7R2A103K LM557 CRCW2512 capacitor .22u

    20MHZ

    Abstract: C0805C331G1GAC C2012X7R2A103K C4532X7R2A225M LM25005 AN1749
    Text: National Semiconductor Application Note 1749 Robert Bell November 7, 2007 Introduction The LM25005 evaluation board is designed to provide the design engineer with a fully functional power converter based on Emulated Current Mode Control to evaluate the LM25005


    Original     		PDF LM25005 LM25005 300kHz, AN-1749 20MHZ C0805C331G1GAC C2012X7R2A103K C4532X7R2A225M AN1749

    20MHZ

    Abstract: C2012X7R2A103K CMSH2-60M LM25574
    Text: National Semiconductor Application Note 1577 Robert Bell January 2007 Introduction The LM25574 evaluation board is designed to provide the design engineer with a fully functional power converter based on Emulated Current Mode Control to evaluate the LM25574


    Original     		PDF LM25574 LM25574 300kHz, AN-1577 20MHZ C2012X7R2A103K CMSH2-60M

    AN1748

    Abstract: C4532X7R2A225M 20MHZ C0805C331G1GAC C2012X7R2A103K LM5005 C2012X7R1C474M 6CWQ10FN capacitor 22u 63V AN-1748
    Text: National Semiconductor Application Note 1748 Robert Bell November 7, 2007 Introduction The LM5005 evaluation board is designed to provide the design engineer with a fully functional power converter based on Emulated Current Mode Control to evaluate the LM5005


    Original     		PDF LM5005 LM5005 300kHz, AN-1748 AN1748 C4532X7R2A225M 20MHZ C0805C331G1GAC C2012X7R2A103K C2012X7R1C474M 6CWQ10FN capacitor 22u 63V AN-1748

    capacitor 100nf 16v 10 0603 x7r vishay

    Abstract: MBR0540 equivalent MBR0540 SOD-123 R4 vishay resistor 0603 1 0.1W capacitor 100nf 100v 0603 x7r GRM32ER71H475K LM20242 MBR0540 J2/capacitor 100nf 50v 0603 C2012X7R2A104K
    Text: National Semiconductor LM20242 CADC Design Group November 2007 1.0 Design Specifications Inputs Output #1 VinMin=8V Vout1=3.3V VinMax=18V Iout1=2A 2.0 Design Description 3.0 Features The LM20242 demonstration board is designed to provide the design engineer with a small, fully functional buck converter


    Original     		PDF LM20242 LM20242 300KHz, CSP-9-111S2) CSP-9-111S2. capacitor 100nf 16v 10 0603 x7r vishay MBR0540 equivalent MBR0540 SOD-123 R4 vishay resistor 0603 1 0.1W capacitor 100nf 100v 0603 x7r GRM32ER71H475K MBR0540 J2/capacitor 100nf 50v 0603 C2012X7R2A104K

    C4532X6S0J107M

    Abstract: P7611-5R6M P7611 vishay resistor 0603 vj0603y332kxxat WSL2010R0100F CRCW0603103J CRCW0603105J CRCW06031242F LM2511
    Text: LM25116 Evaluation Board LM25116 Evaluation Board National Semiconductor Application Note 1617 Robert Sheehan April 2007 Introduction The LM25116 evaluation board is designed to provide the design engineer with a fully functional power converter based on Emulated Current Mode Control to evaluate the LM25116


    Original     		PDF LM25116 LM25116 250kHz, AN-1617 C4532X6S0J107M P7611-5R6M P7611 vishay resistor 0603 vj0603y332kxxat WSL2010R0100F CRCW0603103J CRCW0603105J CRCW06031242F LM2511

    WSL2010R0100F

    Abstract: ic 1596 specifications c7 series electrolytic capacitor vishay WSL2010R01 P7611-5R6M LM5116 P7611 vj0603y332kxxat CRCW0603105J LM5116MHX
    Text: LM5116 Evaluation Board LM5116 Evaluation Board National Semiconductor Application Note 1596 Robert Sheehan May 2007 Introduction The LM5116 evaluation board is designed to provide the design engineer with a fully functional power converter based on Emulated Current Mode Control to evaluate the LM5116


    Original     		PDF LM5116 LM5116 250kHz, AN-1596 WSL2010R0100F ic 1596 specifications c7 series electrolytic capacitor vishay WSL2010R01 P7611-5R6M P7611 vj0603y332kxxat CRCW0603105J LM5116MHX

    121KM1002H

    Abstract: VJ0603A150KXAA WSL2010R0100F VJ0603A101KXAA AN1713 wsl2010r0100fea CRCW06030R0J vishay resistor 0603 LM5116MHX Panasonic central
    Text: LM5116-12 Evaluation Board National Semiconductor Application Note 1713 Robert Sheehan October 2007 LM5116-12 Evaluation Board Introduction The LM5116-12 evaluation board is designed to provide the design engineer with a fully functional power converter based


    Original     		PDF LM5116-12 LM5116 250kHz, AN-1713 121KM1002H VJ0603A150KXAA WSL2010R0100F VJ0603A101KXAA AN1713 wsl2010r0100fea CRCW06030R0J vishay resistor 0603 LM5116MHX Panasonic central

    injection transformer

    Abstract: an1889 pcb step down transformer AN-1889 national step up an down transformer AN-1889 Signal Path Designer high frequency step up transformer sine National Semiconductor
    Text: National Semiconductor Application Note 1889 Frederik Dostal October 14, 2008 Introduction The regulation characteristics of most power management circuits are defined by the converter loop transfer function which can be plotted in a Bode plot. This representation of the


    Original     		PDF AN-1889 injection transformer an1889 pcb step down transformer AN-1889 national step up an down transformer AN-1889 Signal Path Designer high frequency step up transformer sine National Semiconductor

    74435566

    Abstract: LLP32 RL3720WT-R008-F 2066 AN2066 LM25119 C1608C0G1H101J UMK212B7474KG Nippon capacitors
    Text: National Semiconductor Application Note 2066 Eric Lee September 28, 2010 Introduction ed to the J6 OUT2+ and J5 (OUT2-/GND). Be sure to choose the correct connector and wire size when attaching the source power supply and the load. The LM25119EVAL evaluation board provides the design engineer with a fully functional dual output buck converter, employing the LM25119 Dual Emulated Current Mode Synchronous Buck Controller. The evaluation board is designed


    Original     		PDF LM25119EVAL LM25119 AN-2066 74435566 LLP32 RL3720WT-R008-F 2066 AN2066 C1608C0G1H101J UMK212B7474KG Nippon capacitors

    GRM188R71E474KA12

    Abstract: LM5119 LLP32 RL3720WT-R010-F C1608C0G1E682J C1608C0G1H101J PowerDI323 24v to 5V 2A SW regulator grm21br72a474ka73 PMEG6010CEH
    Text: National Semiconductor Application Note 2065 Eric Lee September 28, 2010 Introduction choose the correct connector and wire size when attaching the source power supply and the load. The LM5119EVAL evaluation board provides the design engineer with a fully functional dual output buck converter, employing the LM5119 Dual Emulated Current Mode Synchronous Buck Controller. The evaluation board is designed


    Original     		PDF LM5119EVAL LM5119 AN-2065 GRM188R71E474KA12 LLP32 RL3720WT-R010-F C1608C0G1E682J C1608C0G1H101J PowerDI323 24v to 5V 2A SW regulator grm21br72a474ka73 PMEG6010CEH

    6TPE100MPB

    Abstract: C1608C0G1H330J C1608X7R1H103K C3216X5R0J476M IHLP2525 LM2854 LM2854MHX-1000 C1608X7R C1608X7R1H AN06-03
    Text: National Semiconductor Application Note 1880 Timothy Hegarty August 25, 2008 Introduction passive components and PC board area typically necessary in a voltage mode buck converter application are reduced. An LM2854 based regulator design with type III loop compensation can be implemented with as few as eight external components. Only two small size external compensation components are required, similar to that commonly involved with


    Original     		PDF LM2854 AN-1880 6TPE100MPB C1608C0G1H330J C1608X7R1H103K C3216X5R0J476M IHLP2525 LM2854MHX-1000 C1608X7R C1608X7R1H AN06-03

    AN-1187

    Abstract: JESD51-7 LM3509 LM3509SD LM3509SDX M67C
    Text: LM3509 High Efficiency Boost for White LED's and/or OLED Displays with Dual Current Sinks and I2C Compatible Brightness Control General Description Features The LM3509 current mode boost converter offers two separate outputs. The first output MAIN is a constant current sink


    Original     		PDF LM3509 LM3509 AN-1187 JESD51-7 LM3509SD LM3509SDX M67C

    IHLP2525CZER1R5M01

    Abstract: 6TPE150MIC2 C1608C0G1H470J C1608X7R1H103K LM2854 LM2854MHX-500 TSSOP-16 schematic diagram 12v Simple DC Voltage Regulator
    Text: National Semiconductor Application Note 1786 Timothy Hegarty April 2, 2008 Introduction passive components and PC board area typically necessary in a voltage mode buck converter application are reduced. An LM2854 based regulator design with type III loop compensation can be implemented with as few as eight external components. Only two small size external compensation components are required, similar to that commonly involved with


    Original     		PDF LM2854 AN-1786 IHLP2525CZER1R5M01 6TPE150MIC2 C1608C0G1H470J C1608X7R1H103K LM2854MHX-500 TSSOP-16 schematic diagram 12v Simple DC Voltage Regulator

    mark code t4 X3 diode

    Abstract: GRM39X5R105K philips amplifier dap 650
    Text: LM3509 High Efficiency Boost for White LED's and/or OLED Displays with Dual Current Sinks and I2C Compatible Brightness Control General Description Features The LM3509 current mode boost converter offers two separate outputs. The first output MAIN is a constant current sink


    Original     		PDF LM3509 mark code t4 X3 diode GRM39X5R105K philips amplifier dap 650

    50HVH56M

    Abstract: LM315x LM3150MH C2012X7R1C474K C2012X7R1C474 CRCW08054K99FKEA lm3150 AN1900 CC0805JRNP09BN151 CRCW08051K91FKEA
    Text: National Semiconductor Application Note 1900 Maurice Eaglin October 14, 2008 Introduction The performance of the synchronous rectifier buck evaluation boards are as follows: The LM3150 evaluation boards are designed to provide the design engineer with a fully functional power converter based


    Original     		PDF LM3150 LM315x LM3150 AN-1900 50HVH56M LM3150MH C2012X7R1C474K C2012X7R1C474 CRCW08054K99FKEA AN1900 CC0805JRNP09BN151 CRCW08051K91FKEA

    GRM39X5R105K25D539

    Abstract: GP 809 DIODE Circuit diagram of 1W LED drive Nichia LED 371 SOD-723 FB 30020514 ICL 7129 Application Notes 3.6v WHITE LED 5mm OLED circuit details JESD51-7
    Text: LM3528 High Efficiency, Multi Display LED Driver with 128 Exponential Dimming Steps and Integrated OLED Power Supply in a 1.2mm x 1.6mm µSMD Package General Description Features The LM3528 current mode boost converter offers two separate outputs. The first output MAIN is a constant current sink


    Original     		PDF LM3528 LM3528 GRM39X5R105K25D539 GP 809 DIODE Circuit diagram of 1W LED drive Nichia LED 371 SOD-723 FB 30020514 ICL 7129 Application Notes 3.6v WHITE LED 5mm OLED circuit details JESD51-7

    LM5113

    Abstract: HMK325B7225K smd diode 5d SOD-323 EPC2001 GRM188R71H103KA0 AN-2149 22UF C3225X7R1C226K LM5025 RC0603FR-0710R
    Text: National Semiconductor Application Note 2149 Min Chen October 12, 2011 Introduction IC Features The LM5113 evaluation board is designed to provide the design engineers with a synchronous buck converter to evaluate the LM5113, a 100V half-bridge enhancement mode Gallium


    Original     		PDF LM5113 LM5113, LM5025 800kHz AN-2149 HMK325B7225K smd diode 5d SOD-323 EPC2001 GRM188R71H103KA0 AN-2149 22UF C3225X7R1C226K RC0603FR-0710R

    LM3530TMX-40

    Abstract: analog output Ambient light sensor LM3530UMX-25A TA 8268 analog LM3530 VLF5012 LM3530UME-40 LM3530UMX-40 UMD12 VLF3014
    Text: LM3530 High Efficiency White LED Driver with Programmable Ambient Light Sensing Capability and I2C-Compatible Interface General Description Features The LM3530 current mode boost converter supplies the power and controls the current in up to 11 series white LED’s. The


    Original     		PDF LM3530 LM3530 839mA LM3530TMX-40 analog output Ambient light sensor LM3530UMX-25A TA 8268 analog VLF5012 LM3530UME-40 LM3530UMX-40 UMD12 VLF3014

    LM25775

    Abstract: LM2577-ADJ step down United Chemi-Con 672D LM2577 down LM2577T-ADJ LM25771 AVCOM LM2577 flyback regulator LM2577M-12 LM2577M-15
    Text: LM1577/LM2577 Series National Semiconductor LM1577/LM2577 Series SIMPLE SWITCHER Step-Up Voltage Regulator General Description Features The LM1577/LM2577 are monolithic integrated circuits that provide all of the power and control functions for step-up boost , flyback, and forward converter switching regulators.


    OCR Scan     		PDF LM1577/LM2577 TL/H/11468-24 TL/H/11468-25 LM25775 LM2577-ADJ step down United Chemi-Con 672D LM2577 down LM2577T-ADJ LM25771 AVCOM LM2577 flyback regulator LM2577M-12 LM2577M-15

    D05022P-683

    Abstract: D03316-333 d05022P-104 P0848 D05022P lm2678 evaluation
    Text: Apr i l 1998 National Semiconductor LM2678 SIMPLE SWITCHER High Efficiency 5A Step-Down Voltage Regulator General Description Features The LM 2678 series of regulators are m onolithic integrated circuits which provide all of the active functions fo r a step-dow n buck sw itching regulator capable of driving up to


    OCR Scan     		PDF LM2678 260KHz) D05022P-683 D03316-333 d05022P-104 P0848 D05022P lm2678 evaluation

    6t0045

    Abstract: lm2676-adj 1200 uF 63V capacitor 2% LM2676-5 24V alternator regulator 20l diode zener capacitor 470 uf with ESR rating capacitors 100pf LM2676S LM2676S-ADJ
    Text: National Semiconductor M ay 1998 LM2676 SIMPLE SWITCHER High Efficiency 3A Step-Down Voltage Regulator General Description Features The LM 2676 series of regulators are m onolithic integrated circuits which provide all of the active functions fo r a step-dow n buck sw itching regulator capable of driving up to


    OCR Scan     		PDF LM2676 LM2676 260KHz) 6t0045 lm2676-adj 1200 uF 63V capacitor 2% LM2676-5 24V alternator regulator 20l diode zener capacitor 470 uf with ESR rating capacitors 100pf LM2676S LM2676S-ADJ