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    MATHCAD INDUCTOR DESIGN Search Results

    MATHCAD INDUCTOR DESIGN Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    LQW18CN4N9D0HD
    		Murata Manufacturing Co Ltd Fixed IND 4.9nH 2600mA POWRTRN PDF
    LQW18CNR33J0HD
    		Murata Manufacturing Co Ltd Fixed IND 330nH 630mA POWRTRN PDF
    DFE322520F-R47M=P2
    		Murata Manufacturing Co Ltd Fixed IND 0.47uH 8500mA NONAUTO PDF
    DFE32CAH4R7MR0L
    		Murata Manufacturing Co Ltd Fixed IND 4.7uH 2800mA POWRTRN PDF
    LQW18CNR27J0HD
    		Murata Manufacturing Co Ltd Fixed IND 270nH 750mA POWRTRN PDF

    MATHCAD INDUCTOR DESIGN Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    sirio

    Abstract: mathcad INDUCTOR DESIGN mathcad buck INDUCTOR DESIGN two switch resonant buck converter McMurray Delta electronics resonant converter calculation of IGBT snubber zvs using op amps ZCS buck converter PSIM 9
    Contextual Info: Achieving ZVS in a Two Quadrant Converter Using a Simplified Auxiliary Circuit with Novel Control Doudousakis, T. and Sirio, C. Lee P.E. TDK-Lambda, Low Power Division Abstract- This paper proposes a new soft-switching scheme as well as a novel control approach for a two quadrant


    Original     		1109/APEC 50-kHz IECEC-97. 1109/IECEC sirio mathcad INDUCTOR DESIGN mathcad buck INDUCTOR DESIGN two switch resonant buck converter McMurray Delta electronics resonant converter calculation of IGBT snubber zvs using op amps ZCS buck converter PSIM 9 PDF

    H. Dean Venable

    Abstract: Severns mathcad INDUCTOR DESIGN mathcad forward converter design bruce carsten Z13i High power inductor for series LC resonant design of a switching power supply dean venable
    Contextual Info: Input Filter Design for Switching Power Supplies Michele Sclocchi Application Engineer National Semiconductor The design of a switching power supply has always been considered a kind of magic and art, for all the engineers that design one for the first time. Fortunately, today the


    Original     		PDF

    MOSFET 50N06

    Abstract: Equivalent 50N06 rfp50n06 equivalent 50N06 equivalent 1N4148 DL-35 50N06 DATASHEET 50N06 floating mosfet driver rfp50n06 substitute AN9664
    Contextual Info: Harris Semiconductor No. AN9664 Harris Intelligent Power December 1996 A Pentium Pro Voltage Regulator Module VRM Using the HIP6003 PWM Controller (HIP6003EVAL1) Author: Greg J. Miller Introduction HIP6003EVAL1 Reference Design Today’s high-performance microprocessors, such as the


    Original     		AN9664 HIP6003 HIP6003EVAL1) HIP6003EVAL1 1-800-4-HARRIS MOSFET 50N06 Equivalent 50N06 rfp50n06 equivalent 50N06 equivalent 1N4148 DL-35 50N06 DATASHEET 50N06 floating mosfet driver rfp50n06 substitute AN9664 PDF

    SN2 357

    Abstract: triac cf 406 ZNR 10K 271 TRANSISTOR REPLACEMENT ECG ERJ-6ENF1001V HV9931 ZENER DIODE z91 Vishay Q81 Heatsink-TO220 transistor pnp ecg 180
    Contextual Info: Supertex inc. HV9931DB2v1 LED Driver Demo Board Input 230VAC // Output 350mA, 40V 14W General Description The HV9931 LED driver is primarily targeted at low to medium power LED lighting applications where galvanic isolation of the LED string is not an essential requirement.


    Original     		HV9931DB2v1 230VAC 350mA, HV9931 SN2 357 triac cf 406 ZNR 10K 271 TRANSISTOR REPLACEMENT ECG ERJ-6ENF1001V ZENER DIODE z91 Vishay Q81 Heatsink-TO220 transistor pnp ecg 180 PDF

    ZENER DIODE z91

    Abstract: ZNR 10K 271 TRANSISTOR REPLACEMENT ECG triac cf 406 panasonic ZNR MOV TRANSISTOR REPLACEMENT ECG 130 X2 MKP SH mr 504 diode SN2 357 hv9931 LED driver
    Contextual Info: Supertex inc. HV9931DB1v2 LED Driver Demo Board Input 120VAC // Output 350mA, 40V 14W General Description The HV9931 LED driver is primarily targeted at low to medium power LED lighting applications where galvanic isolation of the LED string is not an essential requirement.


    Original     		HV9931DB1v2 120VAC 350mA, HV9931 ZENER DIODE z91 ZNR 10K 271 TRANSISTOR REPLACEMENT ECG triac cf 406 panasonic ZNR MOV TRANSISTOR REPLACEMENT ECG 130 X2 MKP SH mr 504 diode SN2 357 hv9931 LED driver PDF

    12 VOLT 2 AMP smps circuit

    Abstract: circuit for 12 VOLT 6 AMP smps mathcad forward converter design mathcad MOSFET and parallel Schottky diode 12 VOLT 10 AMP smps mathcad pfc Cree SiC diode die mathcad INDUCTOR DESIGN diode schottky 600v
    Contextual Info: Selection Guide of SiC Schottky Diode in CCM PFC Applications - August 2006 Selection Guide of SiC Schottky Diode in CCM PFC Applications Silicon Carbide Schottky diodes are ideal devices for CCM PFC boost diode applications because of the superior reverse recovery characteristics – zero reverse recovery current. Selection of


    Original     		CPWR-AN05, 12 VOLT 2 AMP smps circuit circuit for 12 VOLT 6 AMP smps mathcad forward converter design mathcad MOSFET and parallel Schottky diode 12 VOLT 10 AMP smps mathcad pfc Cree SiC diode die mathcad INDUCTOR DESIGN diode schottky 600v PDF

    SLVU246

    Abstract: mps 2107 SLVA305 KMPS SLVS853 TPS23753EVM-002 schematic diagram dc-dc flyback converter bob smith termination schematic diagram converter input 12v mathcad flyback design
    Contextual Info: Application Report SLVA305 – July 2008 Designing with the TPS23753 Powered-Device and Power Supply Controller Eric Wright . HPA/Power Interface ABSTRACT


    Original     		SLVA305 TPS23753 3-2005-compliant TPS23753EVM-002 SLVU246 mps 2107 SLVA305 KMPS SLVS853 schematic diagram dc-dc flyback converter bob smith termination schematic diagram converter input 12v mathcad flyback design PDF

    mathcad

    Abstract: mathcad calculates output capacitors MIC2169 dean venable
    Contextual Info: Application Note 44a Micrel, Inc. Application Note 44a Type II Stability Program for the MIC2168/69 Stability Analysis for the MIC2168/69 Voltage Mode Converter Using a Type II Transconductance Error Amplifier simply changing the gm error amplifier gain and the peak


    Original     		MIC2168/69 50kHz) mathcad mathcad calculates output capacitors MIC2169 dean venable PDF

    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
    Contextual Info: 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     		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 PDF

    HBT 00 01

    Abstract: IBM43RF0100 HBT 01 05G HBT 01 05 HBT transistor mathcad ERJ-3GSYJ100 sige hbt HK10052N7S UMK105B102KW
    Contextual Info: Application Note Evaluating the IBM43RF0100 SiGe HBT for CDMA Driver Applications at 1.9 GHz The IBM43RF0100 Silicon-Germanium SiGe High Dynamic Range, Low-Noise Transistor is a discrete heterojunction bipolar transistor (HBT) suitable for a wide range of RF driver applications including


    Original     		IBM43RF0100 IBM43RF0100EV-19 0100cdmadrv HBT 00 01 HBT 01 05G HBT 01 05 HBT transistor mathcad ERJ-3GSYJ100 sige hbt HK10052N7S UMK105B102KW PDF

    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
    Contextual Info: 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     		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 PDF

    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
    Contextual Info: 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     		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 PDF

    1e55

    Abstract: mathcad MIC2169
    Contextual Info: Application Note 44b Micrel, Inc. Application Note 44b Type III Stability Program for the MIC2168/69 Stability Analysis for the MIC2168/69 Voltage Mode Converter Using a Type III Transconductance Error Amplifier simply changing the gm error amplifier gain and the peak


    Original     		MIC2168/69 50kHz) 1e55 mathcad MIC2169 PDF

    A Tutorial Introduction to Simulating Current Mode Power Stages

    Abstract: K0115 mathcad DCM flyback boost ridley spice TRANSFORMER simulation DCM flyback transfer function vorperian analysis of PWM converters using model of PWM switch mathcad flyback design K0135 Christophe Basso
    Contextual Info: A Tutorial Introduction to Simulating Current Mode Power Stages Christophe BASSO, consultant, Sinard, France Manuscript for PCIM, February 1997 SPICE simulation of Current Mode Control CMC switch Mode Power Supplies (SMPS) is certainly not a new topic. A lot of people have contributed to make this domain affordable to the design engineer and


    Original     		PDF

    RUTTONSHA all diodes datasheet

    Abstract: RUTTONSHA POWER DIODE mathcad forward converter design Lloyd H. Dixon mathcad 2 mosfet forward converter cookbook DL118/D Motorola Optoelectronics DL118 high frequency step up transformer Optoelectronics Device Data DL118/D
    Contextual Info: APPLICATION NOTE U-164 Philip Cooke THE UCC3884 FREQUENCY FOLDBACK PULSE WIDTH MODULATOR APPLICATION NOTE U-164 UNITRODE CORPORATION The UCC3884 Frequency Foldback Pulse Width Modulator by Philip Cooke ABSTRACT This application note focuses on the UCC3884 frequency foldback peak current mode controller. The


    Original     		U-164 UCC3884 RUTTONSHA all diodes datasheet RUTTONSHA POWER DIODE mathcad forward converter design Lloyd H. Dixon mathcad 2 mosfet forward converter cookbook DL118/D Motorola Optoelectronics DL118 high frequency step up transformer Optoelectronics Device Data DL118/D PDF

    unitrode SEM-1100

    Contextual Info: UNITRODE CORPORATION APPLICATION NOTE U-164 The UCC3884 Frequency Foldback Pulse Width Modulator by Philip Cooke ABSTRACT This application note focuses on the UCC3884 frequency foldback peak current mode controller. The UCC3884 provides a solution to the current tail problem often seen in high frequency converters under


    OCR Scan     		U-164 UCC3884 unitrode SEM-1100 PDF

    Equivalent 50N06

    Abstract: MOSFET 50N06 po345 50N06 rfp50n06 equivalent 50N06 DATASHEET AN9664 HIP6002 HIP6003 RFP70N03
    Contextual Info: A Pentium Pro Voltage Regulator Module VRM Using the HIP6003 PWM Controller Application Note December 1996 AN9664 Introduction HIP6003EVAL1 Reference Design Today’s high-performance microprocessors, such as the Intel Pentium Pro, present many challenges to their power


    Original     		HIP6003 AN9664 HIP6003EVAL1 Equivalent 50N06 MOSFET 50N06 po345 50N06 rfp50n06 equivalent 50N06 DATASHEET AN9664 HIP6002 RFP70N03 PDF

    si4432

    Abstract: Si443x AN427 mathcad Si433X SI4432-V2
    Contextual Info: AN427 EZRADIOPRO Si433X & Si443X RX LNA MATCHING 1. Introduction The purpose of this application note is to provide a description of the impedance matching of the RX differential low noise amplifier LNA on the Si433x and Si443x family of RFICs. We desire to simultaneously achieve two goals with the matching network:


    Original     		AN427 Si433X Si443X Si433x si4432 AN427 mathcad SI4432-V2 PDF

    1N5800

    Abstract: capacitor 10nf 50V LOW ESR mathcad buck INDUCTOR DESIGN 1N5400 Capacitor Electrolytic Low ESR PCB 100uf 50V 20 220uf, 25v electrolytic capacitor
    Contextual Info: Application Note 1033 Design Consideration with AP3005 Prepared by Yong Wang System Engineering Dept. 1. Introduction The AP3005 is a 420kHz fixed frequency PWM buck step-down DC-DC converter, capable of driving a 2A load with high efficiency, low ripple and excellent


    Original     		AP3005 AP3005 420kHz AP3005, 1N5800 capacitor 10nf 50V LOW ESR mathcad buck INDUCTOR DESIGN 1N5400 Capacitor Electrolytic Low ESR PCB 100uf 50V 20 220uf, 25v electrolytic capacitor PDF

    boost uc3842 application note

    Contextual Info: TK75005 ADVANCED INFORMATION Power Conversion ICs LOW-COST FLEXIBLE PWM CONTROLLER FEATURES APPLICATIONS • Can Be Used For Power Factor Correction/Line ■ Power Factor Correction Converters Harmonics Reduction to Meet IEC1000-3-2 ■ Off-Line Power Supplies


    OCR Scan     		TK75005 IEC1000-3-2 TK75005 boost uc3842 application note PDF

    irf840 uc3842

    Abstract: uc3842 theory of pin diagram CT 1975 circuit uc3842 power factor uc3842 battery charger power supply with uc3842 UC3842 mosfet driver 1N4148 ETD-29 IEC1000-3-2
    Contextual Info: TK75005 ADVANCED INFORMATION LOW-COST FLEXIBLE PWM CONTROLLER FEATURES APPLICATIONS • Can Be Used For Power Factor Correction/Line Harmonics Reduction to Meet IEC1000-3-2 Requirements ■ Maximum Duty Ratio 89% typ. ■ Low Standby Current for Current-Fed Start-Up


    Original     		TK75005 IEC1000-3-2 TK75005 no2375 IC-xxx-TK75005 0798O0 irf840 uc3842 uc3842 theory of pin diagram CT 1975 circuit uc3842 power factor uc3842 battery charger power supply with uc3842 UC3842 mosfet driver 1N4148 ETD-29 IEC1000-3-2 PDF

    Designing Type II Compensation for Current Mode

    Abstract: Designing Type III Compensation for Current Mode TB-417 mathcad buck INDUCTOR DESIGN peak Current Mode Type II Compensation Type III Compensation mathcad 987n ISL6520A TB417
    Contextual Info: Designing Stable Compensation Networks for Single Phase Voltage Mode Buck Regulators Technical Brief December 2003 TB417.1 Author: Doug Mattingly Assumptions Output Filter This Technical Brief makes the following assumptions: The output filter consists of the output inductor and all of the


    Original     		TB417 Designing Type II Compensation for Current Mode Designing Type III Compensation for Current Mode TB-417 mathcad buck INDUCTOR DESIGN peak Current Mode Type II Compensation Type III Compensation mathcad 987n ISL6520A PDF

    mathcad flyback design

    Abstract: mathcad flyback HV Flyback TRANSFORMERS mathcad forward converter design SMALL high frequency transformer mathcad flyback converter switching transformer winding pulse transformer fet power transformer flyback transformer high-voltages
    Contextual Info: High voltage, single chip DC/DC regulator optimized for flyback, boost, or forward power converter applications Application Brief 126 Highlights • 1.25 MHz current-mode regulator integrated with 80 V @ 2 A power MOSFET • Single chip family of SIP modules


    Original     		LM5000) mathcad flyback design mathcad flyback HV Flyback TRANSFORMERS mathcad forward converter design SMALL high frequency transformer mathcad flyback converter switching transformer winding pulse transformer fet power transformer flyback transformer high-voltages PDF

    TPS61175EVM

    Abstract: HPA326 TPS61175 mathcad INDUCTOR DESIGN
    Contextual Info: User's Guide SLVU260 – December 2008 TPS61175EVM-326 This user's guide describes the characteristics, operation, and use of the TPS61175EVM-326 evaluation module EVM . This EVM contains the Texas Instruments TPS61175 high-efficiency boost converter that


    Original     		SLVU260 TPS61175EVM-326 TPS61175EVM-326 TPS61175 TPS61175EVM HPA326 mathcad INDUCTOR DESIGN PDF