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    CORE EDDY CURRENT HYSTERESIS LOSS Search Results

    CORE EDDY CURRENT HYSTERESIS LOSS Result Highlights (6)

    Part ECAD Model Manufacturer Description Download Buy
    TLX9188 Toshiba Electronic Devices & Storage Corporation Photocoupler (phototransistor output), DC input, 3750 Vrms, SO6, Automotive Visit Toshiba Electronic Devices & Storage Corporation
    TPD4207F Toshiba Electronic Devices & Storage Corporation Intelligent power device 600V (High voltage PWM DC brushless motor driver) Visit Toshiba Electronic Devices & Storage Corporation
    TPD4204F Toshiba Electronic Devices & Storage Corporation Intelligent power device 600V (High voltage PWM DC brushless motor driver) Visit Toshiba Electronic Devices & Storage Corporation
    TLP294-4 Toshiba Electronic Devices & Storage Corporation Photocoupler (phototransistor output), AC input, 3750 Vrms, 4 channel, SO16 Visit Toshiba Electronic Devices & Storage Corporation
    TLP295-4 Toshiba Electronic Devices & Storage Corporation Photocoupler (phototransistor output), DC input, 3750 Vrms, 4 channel, SO16 Visit Toshiba Electronic Devices & Storage Corporation
    TPD4162F Toshiba Electronic Devices & Storage Corporation Intelligent power device 600V (High voltage PWM DC brushless motor driver) Visit Toshiba Electronic Devices & Storage Corporation

    CORE EDDY CURRENT HYSTERESIS LOSS Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    TDK Ferrite Core PC44

    Abstract: TDK Ferrite Core PC40 ferrite eddy current hysteresis loss TDK PC44 tdk ferrite pc44 high power FERRITE TRANSFORMER EER FERRITE transformer TDK pc40 TDK Ferrite Core PC33 tdk ferrite pc40
    Text: Low-loss And High Saturation Magnetic Flux Density Power Ferrite For Power Transformers And Choke Coils, PC90 material Conforming to RoHS Directive Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not


    Original     		PDF 2002/95/EC, BSF-D06EA TDK Ferrite Core PC44 TDK Ferrite Core PC40 ferrite eddy current hysteresis loss TDK PC44 tdk ferrite pc44 high power FERRITE TRANSFORMER EER FERRITE transformer TDK pc40 TDK Ferrite Core PC33 tdk ferrite pc40

    Spice model xfmr

    Abstract: ideal transformer SUBCKT XFMR 1 2 3 4. RP 1 2 1MEG Spice model saturable inductor SATURABLE CORE spice model of power TRANSFORMER spice TRANSFORMER simulation xfmr spice Saturable "ideal transformer"
    Text: Article Title: "SPICE Models For Power Electronics" Author: L.G. Meares and Charles E. Hymowitz Abstract: Due to the increasing complexity of power systems and the costs involved in breadboarding and testing preliminary designs, engineers have been turning to


    Original     		PDF ERL-M520, Spice model xfmr ideal transformer SUBCKT XFMR 1 2 3 4. RP 1 2 1MEG Spice model saturable inductor SATURABLE CORE spice model of power TRANSFORMER spice TRANSFORMER simulation xfmr spice Saturable "ideal transformer"

    ring core permalloy bh curve

    Abstract: Arnold Magnetics ferrite eddy current hysteresis loss relative magnet permeability supermalloy bh curve iron core transformer schematic eddy current hysteresis loss silectron electro magnetic flow meter magnet permeability
    Text: Soft Magnetics Application Guide p. 30.1 March 2000 GROUP ARNOLD Table of Contents Introduction . 30.3 Basics of Magnetics . 30.4 – 30.11 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Energy. 30.4


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    ferrite eddy current hysteresis loss

    Abstract: eddy current hysteresis loss core eddy current hysteresis loss Summit Microelectronics
    Text: Application Note 60 Achieving High Efficiency in a High-current Integrated Buck Switching Regulator Shadi Hawawini Introduction Many of today’s modern mobile electronics require more power and higher current than ever before. Mobile electronics are becoming increasingly feature rich, and


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    thomrex

    Abstract: THOMREX fils at cables cofelec Cofelec 432 FP 14 x 8 SE TDA0161 TDA0161DP TDA0161FP eddy current hysteresis loss 4700/THOMREX fils at cables
    Text: TDA0161 PROXIMITY DETECTORS . . OUTPUT CURRENT : 10mA OSCILLATOR FREQUENCY : 10 MHz SUPPLY VOLTAGE : + 4 TO + 35 V Minidip ORDERING NUMBER : TDA0161DP SO8 ORDERING NUMBER : TDA0161FP DESCRIPTION These monolithic integrated circuits are designed for metallic body detection by detecting the variations in high frequency Eddy current losses. With


    Original     		PDF TDA0161 TDA0161DP TDA0161FP thomrex THOMREX fils at cables cofelec Cofelec 432 FP 14 x 8 SE TDA0161 TDA0161DP TDA0161FP eddy current hysteresis loss 4700/THOMREX fils at cables

    thomrex

    Abstract: Cofelec 432 FP 14 x 8 SE TDA0161DP cofelec capacitor 4700/50 TDA0161 TDA0161FP 0/Cofelec 432 FP 14 x 8 SE
    Text: TDA0161 PROXIMITY DETECTORS . . OUTPUT CURRENT : 10mA OSCILLATOR FREQUENCY : 10 MHz SUPPLY VOLTAGE : + 4 TO + 35 V Minidip ORDERING NUMBER : TDA0161DP SO8 ORDERING NUMBER : TDA0161FP DESCRIPTION These monolithic integrated circuits are designed for metallic body detection by detecting the variations in high frequency Eddy current losses. With


    Original     		PDF TDA0161 TDA0161DP TDA0161FP thomrex Cofelec 432 FP 14 x 8 SE TDA0161DP cofelec capacitor 4700/50 TDA0161 TDA0161FP 0/Cofelec 432 FP 14 x 8 SE

    Untitled

    Abstract: No abstract text available
    Text: TDA0161 PROXIMITY DETECTORS . . OUTPUT CURRENT : 10mA OSCILLATOR FREQUENCY : 10 MHz SUPPLY VOLTAGE : + 4 TO + 35 V Minidip ORDERING NUMBER : TDA0161DP SO8 ORDERING NUMBER : TDA0161FP DESCRIPTION These monolithic integrated circuits are designed for metallic body detection by detecting the variations in high frequency Eddy current losses. With


    Original     		PDF TDA0161 TDA0161DP TDA0161FP

    schematic inductive proximity sensor

    Abstract: proximity switch block diagram schematic DC inductive proximity sensor AN2863 inductive proximity sensor transistor schematic BS361 eddy current type of proximity switch inductive sensor oscillator circuit inductive proximity sensor schematic schematic coil inductive proximity sensor
    Text: AN2863 Application note Smart inductive proximity switch with SPT01-335DEE 1 Introduction The STEVAL-IFS006V2 demonstration board shows an inductive proximity switch based on the principle of metal body detection using the eddy current effect on the HF losses of


    Original     		PDF AN2863 SPT01-335DEE STEVAL-IFS006V2 TDE1708DFT SPT01-335DEE schematic inductive proximity sensor proximity switch block diagram schematic DC inductive proximity sensor AN2863 inductive proximity sensor transistor schematic BS361 eddy current type of proximity switch inductive sensor oscillator circuit inductive proximity sensor schematic schematic coil inductive proximity sensor

    1 microhenry inductor

    Abstract: ring ferrite inductor design toroidal ring core choke ferrite eddy current hysteresis loss ferrite core transformer construction nickel magnetic properties Q vs frequency axial power choke eddy current hysteresis loss General Purpose Toroidal Transformer FERRITE TOROIDAL CORE DATA
    Text: TOKEN What is a Inductor What is a Inductor A passive component designed to resist changes in current. Inductors are often referred to as “AC resistors”. The ability to resist changes in current and store energy in its magnetic field account for the bulk


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    schematic inductive proximity sensor

    Abstract: proximity switch schematic proximity switch block diagram inductive proximity sensor transistor schematic schematic inductive sensor AN2679 BES070815 military Proximity Sensor B65933A0000X022 inductive proximity sensor schematic
    Text: AN2679 Application note Smart inductive proximity switch Introduction The STEVAL-IFS006V1 inductive proximity switch demonstration board is designed based on the principle of metal body detection using the eddy current effect on the HF losses of a coil. It consists of a single transistor HF oscillator, an ST7LITEUS5 microcontroller and the


    Original     		PDF AN2679 STEVAL-IFS006V1 TDE1708DFT schematic inductive proximity sensor proximity switch schematic proximity switch block diagram inductive proximity sensor transistor schematic schematic inductive sensor AN2679 BES070815 military Proximity Sensor B65933A0000X022 inductive proximity sensor schematic

    thomrex

    Abstract: TDA0161 TDA0161DP Cofelec 432 FP 14 x 8 SE cofelec thomrex 130 TDA0161FP TDA0161FPT litz wire table THOMREX fils at cables
    Text: TDA0161 Proximity Detectors Features • 10mA Output Current ■ Oscillator Frequency 10MHz ■ Supply Voltage +4 to +35V Description These monolithic integrated circuits are designed for metallic body detection by sensing variations in high frequency Eddy current losses. Using an


    Original     		PDF TDA0161 10MHz thomrex TDA0161 TDA0161DP Cofelec 432 FP 14 x 8 SE cofelec thomrex 130 TDA0161FP TDA0161FPT litz wire table THOMREX fils at cables

    COIL metal detector schematic

    Abstract: cf rh transistor eddy current hysteresis loss cofelec TDE0160 TDE0160DP metal detector coil DIAGRAM SGS-Thomson COFELEC 432FP coil eddy current
    Text: TDE0160 PROXIMITY DETECTOR . . . SUPPLY VOLTAGE : +4 TO +36V SUPPLY CURRENT : < 1.2mA OUTPUT TRANSISTORS : I = 20mA ; VCE sat ≤ 1100mV OSCILLATOR FREQUENCY : < 1MHz LOSS RESISTANCE : 5 TO 50kΩ. DIP14 DESCRIPTION The TDE0160 is designed to detect metal bodies


    Original     		PDF TDE0160 1100mV DIP14 TDE0160 TDE0160DP DIP14) 0160FP COIL metal detector schematic cf rh transistor eddy current hysteresis loss cofelec TDE0160DP metal detector coil DIAGRAM SGS-Thomson COFELEC 432FP coil eddy current

    COFELEC 432FP

    Abstract: 432FP cf rh transistor coil eddy current cofelec
    Text: TDE0160 PROXIMITY DETECTOR . . . SUPPLY VOLTAGE : +4 TO +36V SUPPLY CURRENT : < 1.2mA OUTPUT TRANSISTORS : I = 20mA ; VCE sat ≤ 1100mV OSCILLATOR FREQUENCY : < 1MHz LOSS RESISTANCE : 5 TO 50kΩ. DIP14 DESCRIPTION The TDE0160 is designed to detect metal bodies


    Original     		PDF TDE0160 1100mV DIP14 TDE0160 TDE0160DP DIP14) 0160FP COFELEC 432FP 432FP cf rh transistor coil eddy current cofelec

    TDE0160

    Abstract: TDE0160DP TDE01
    Text: TDE0160 PROXIMITY DETECTOR . . . SUPPLY VOLTAGE : +4 TO +36V SUPPLY CURRENT : < 1.2mA OUTPUT TRANSISTORS : I = 20mA ; VCE sat ≤ 1100mV OSCILLATOR FREQUENCY : < 1MHz LOSS RESISTANCE : 5 TO 50kΩ. DIP14 DESCRIPTION The TDE0160 is designed to detect metal bodies


    Original     		PDF TDE0160 1100mV DIP14 TDE0160 TDE0160DP DIP14) 0160FP TDE0160DP TDE01

    copper permittivity

    Abstract: airgap Vs Al Value in Ferrite Core relative permittivity of nickel ferrite core transformer calculation formula relative permittivity copper Magnetic Products, Soft Ferrites, Data Handbook M Mn-Zn Ferrites nickel bh curve Mg-Zn Ferrites application Mg-Zn Ferrites
    Text: Ferroxcube Soft Ferrites Introduction THE NATURE OF SOFT FERRITES PRE-SINTERING Composition The mixed oxides are calcined at approximately 1000 °C. A solid state reaction takes place between the constituents and, at this stage, a ferrite is already formed.


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    34053

    Abstract: Dale 1uH Variable Inductor 103uH ferrite core transformer manufacturing process flow chart 1 microhenry inductor rod ferrite inductor design alloy eddy current for resistivity iron eddy current hysteresis loss axial power inductor Q and frequency Q vs frequency axial power choke
    Text: Definitions Vishay Dale Inductor and Magnetic Product Terminology INTRODUCTION ILB IFC LPT IMC IHSM LPE IM TJ IRF LPC IHB The scope of this application note is to define the terminology associated with inductors and their applications. Some of these terms are listed in the component data sheets. Many terms go beyond the specification of inductors. These terms describe


    Original     		PDF 29-Apr-99 34053 Dale 1uH Variable Inductor 103uH ferrite core transformer manufacturing process flow chart 1 microhenry inductor rod ferrite inductor design alloy eddy current for resistivity iron eddy current hysteresis loss axial power inductor Q and frequency Q vs frequency axial power choke

    TDA0161

    Abstract: THOMREX fils at cables coil eddy current cofelec
    Text: TDA0161 Proximity Detectors Features • 10mA Output Current ■ Oscillator Frequency 10MHz ■ Supply Voltage +4 to +35V Description These monolithic integrated circuits are designed for metallic body detection by sensing variations in high frequency Eddy current losses. Using an


    Original     		PDF TDA0161 10MHz TDA0161 THOMREX fils at cables coil eddy current cofelec

    Untitled

    Abstract: No abstract text available
    Text: TOKEN Inductors Glossary Inductors Glossary A-C Air Core Inductors Bobbin Core see Ceramic Core and Phenolic Core A core with the shape of a bobbin or spool which contains flanges. Bobbin cores are available with and without leads and in the axial and radial form. (see Axial Inductor and Radial


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    core eddy current hysteresis loss

    Abstract: eddy current hysteresis loss coil eddy current
    Text: TERMS AND DEFINITIONS C> AC initial permeability, [Mac T h e AC in itia l p erm eab ility , f*\ac is th e lim itin g v alu e o f th e p erm eab ility at th e p o in t o f the magnetization curve and is given by the following equation: 1 x /ia c = W here B


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    Indiana general ferrite core

    Abstract: No abstract text available
    Text: HIGH FREQUENCY MAGNETICS ATutorial In recent years, magnetic components for power supply circuits have entered a new frontier, identified by such terms as high frequency, high efficiency, high density, switchers, switchmode, distributed power supplies and DC-DC converters. Regardless of


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    Untitled

    Abstract: No abstract text available
    Text: GENERAL INFORMATION Power TVansformers and Inductors POWER TRANSFORMERS Rp Xi Rs A power transformer transforms voltage and currents to higher or lower magnitudes with the purpose of converting prime supply voltages to specific application requirements. t


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    TDA 0162 cm

    Abstract: TDA0162 FLC 100 metal detector TDA0161CM lc proximity detector ic cofelec thomson capacitor THOMREX metal detector proximity Cofelec 432 FP 14 x 8 SE
    Text: THOMSON 7ñC D § T T 2 e}5'3-7 T 1 PROXIMITY DETECTORS PROXIMITY DETECTORS These monolhfiic integrated circuits are designed for metallic body detection by detecting the variations in high frequency Eddy current losses. W ith an exter­ nal tuned circuit they act as oscillators. Output signal level is altered by an


    OCR Scan     		PDF TDA0162 TDA0161) iTDA0162) TDA0161 TDA0162 CB-342 CB-98 CB-342 CB-11 TDA 0162 cm FLC 100 metal detector TDA0161CM lc proximity detector ic cofelec thomson capacitor THOMREX metal detector proximity Cofelec 432 FP 14 x 8 SE

    RU3Y

    Abstract: No abstract text available
    Text: 5 7 , SCS-THOMSON TDE0160 :u PROXIMITY DETECTOR • SUPPLY VOLTAGE : +4 TO +36V ■ S U P P L Y C U R R E N T :< 1.2mA ■ OUTPUT TRANSISTORS : I = 20m A; Vce sat ^ 1100mV ■ OSCILLATOR FREQUENCY : < 1 MHz ■ LOSS RESISTANCE : 5 TO 5 0 k a DESCRIPTION


    OCR Scan     		PDF TDE0160 1100mV TDE0160 TDE0160DP DIP14) 0160FP RU3Y

    Untitled

    Abstract: No abstract text available
    Text: SGS-THOMSON TDE0160 H[l g^ i[LI©¥[S(ô !HO(gi PROXIMITY DETECTOR • SUPPLY VOLTAGE : +4TO +36V ■ SUPPLY CURRENT : < 1.2mA ■ OUTPUT TRANSISTORS : I = 20mA; V ce (sat) ¿ 1 100mV ■ OSCILLATOR FREQUENCY : < 1MHz ■ LOSS RESISTANCE : 5 TO 5 0 k il DIP14


    OCR Scan     		PDF TDE0160 100mV DIP14 TDE0160 TDE0160DP DIP14) 7121E37