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    SQUARE LOOP ANTENNA REACTANCE Search Results

    SQUARE LOOP ANTENNA REACTANCE Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TB67B001BFTG Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=25/Iout(A)=3/Square Wave Visit Toshiba Electronic Devices & Storage Corporation
    TC78B011FTG Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=30/Square, Sine Wave Visit Toshiba Electronic Devices & Storage Corporation
    TB67B001AFTG Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=25/Iout(A)=3/Square Wave Visit Toshiba Electronic Devices & Storage Corporation
    SF-QSFPLOOPBK-002 Amphenol Cables on Demand Amphenol SF-QSFPLOOPBK-002 QSFP+ 40G Loopback Adapter Module for QSFP/QSFP+ Port Testing - 0dB Attenuation & 0W Power Consumption [Copper+Optical Ready] Datasheet
    SF-QSFPLOOPBK-001 Amphenol Cables on Demand Amphenol SF-QSFPLOOPBK-001 QSFP+ 40G Loopback Adapter Module for QSFP/QSFP+ Port Testing - 0dB Attenuation & 1.5W Power Consumption [Copper+Optical Ready] Datasheet

    SQUARE LOOP ANTENNA REACTANCE Datasheets Context Search

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    small loop antenna

    Abstract: AN831 transformer calculation formula square loop antenna reactance Antenna design magnetic loop antennas transformer winding milliohm meter circuit RF loop antenna MODELS 248, 249 RF pcb antenna 434 200B
    Text: AN831 Matching Small Loop Antennas to rfPIC Devices EQUATION 2: Author: Jan van Niekerk Microchip Technology Inc. INTRODUCTION In close proximity to the human body, small loop antennas outperform small dipole and monopole antennas [1]. Their size, robustness and low manufacturing cost


    Original     		AN831 D-81739 DS00831B-page small loop antenna AN831 transformer calculation formula square loop antenna reactance Antenna design magnetic loop antennas transformer winding milliohm meter circuit RF loop antenna MODELS 248, 249 RF pcb antenna 434 200B PDF

    PCB helix antenna

    Abstract: AN4302 RF pcb antenna max7044 square loop antenna reactance small loop antenna application loop antenna RF loop antenna small loop antenna network analyzer measure antenna tv Antenna design
    Text: Page 1 of 7 Maxim > App Notes > High-Speed Interconnect Wireless, RF, and Cable Keywords: antenna, transmitter, loop, whip, power amplifier, PA, PCB, helix, impedance, capacitance, inductance, resistance, patch, remote keyless entry, RKE, tire pressure monitor, TPM, remote control, garage


    Original     		300MHz 450MHz com/an4302 MAX7044: AN4302, APP4302, Appnote4302, PCB helix antenna AN4302 RF pcb antenna max7044 square loop antenna reactance small loop antenna application loop antenna RF loop antenna small loop antenna network analyzer measure antenna tv Antenna design PDF

    Ferrite core 13.56 MHz RFID tag inductor antennas

    Abstract: 0.156 microhenry inductor Ferrite core 125 KHz RFID tag inductor antennas 13.56 MHz spiral antenna LC resonant RFID loop antenna 13.56MHz inductors 10 micro henry RFID loop antenna design reader 13.56 MHz 13,56 MHz RFID antenna RFID loop antenna 13.56MHz spiral
    Text: AN710 Antenna Circuit Design Author: Dr. Youbok Lee, Ph.D. Microchip Technology Inc. INTRODUCTION Passive RFID tags utilize an induced antenna coil voltage for operation. This induced AC voltage is rectified to provide a voltage source for the device. As the DC


    Original     		AN710 Ferrite core 13.56 MHz RFID tag inductor antennas 0.156 microhenry inductor Ferrite core 125 KHz RFID tag inductor antennas 13.56 MHz spiral antenna LC resonant RFID loop antenna 13.56MHz inductors 10 micro henry RFID loop antenna design reader 13.56 MHz 13,56 MHz RFID antenna RFID loop antenna 13.56MHz spiral PDF

    RFID Antenna design

    Abstract: Ferrite core 13.56 MHz RFID tag inductor antennas magnetic flux density for different material 2303L passive rfid tags 13.56 MHz spiral antenna 125 k LONG RANGE reader up/AN707 RFID
    Text: AN710 Antenna Circuit Design Author: Dr. Youbok Lee, Ph.D. Microchip Technology Inc. INTRODUCTION Passive RFID tags utilize an induced antenna coil voltage for operation. This induced AC voltage is rectified to provide a voltage source for the device. As the DC


    Original     		AN710 RFID Antenna design Ferrite core 13.56 MHz RFID tag inductor antennas magnetic flux density for different material 2303L passive rfid tags 13.56 MHz spiral antenna 125 k LONG RANGE reader up/AN707 RFID PDF

    MARCONI antennas

    Abstract: SWRA046 SWRA046A helical antenna 434 small loop antenna grounded MARCONI antennas monopole pcb antenna MSP430 TRF4903 TRF6901
    Text: Application Report SWRA046A - March 2005 − Revised August 2005 ISM-Band and Short Range Device Antennas Matthew Loy / Iboun Sylla Editors High-Speed and RF ABSTRACT This application report discusses antenna fundamentals and the various types of antennas


    Original     		SWRA046A MARCONI antennas SWRA046 helical antenna 434 small loop antenna grounded MARCONI antennas monopole pcb antenna MSP430 TRF4903 TRF6901 PDF

    125 kHz RFID parallel antenna

    Abstract: 125 kHz RFID parallel antenna center 125 kHz RFID antenna design guide Antenna Coil 125 kHz RFID design 125 kHz "reader coil" 153 kHz RFID square credit card reader vlf antenna 125 kHz RFID tag antenna LENZ 480
    Text: M Author: AN678 RFID Coil Design Youbok Lee Microchip Technology Inc. REVIEW OF A BASIC THEORY FOR ANTENNA COIL DESIGN Current and Magnetic Fields INTRODUCTION In a Radio Frequency Identification RFID application, an antenna coil is needed for two main reasons:


    Original     		AN678 DS00678B-page 125 kHz RFID parallel antenna 125 kHz RFID parallel antenna center 125 kHz RFID antenna design guide Antenna Coil 125 kHz RFID design 125 kHz "reader coil" 153 kHz RFID square credit card reader vlf antenna 125 kHz RFID tag antenna LENZ 480 PDF

    125 kHz RFID parallel antenna center

    Abstract: 125 kHz RFID antenna design guide 125 kHz RFID Antenna 125 kHz RFID parallel antenna 125 kHz "reader coil" Antenna Coil Antenna Coil 125 kHz RFID design conductivity meter circuit matching RFID loop antenna Q vlf antenna
    Text: M Author: AN678 RFID Coil Design Youbok Lee Microchip Technology Inc. REVIEW OF A BASIC THEORY FOR ANTENNA COIL DESIGN Current and Magnetic Fields INTRODUCTION In a Radio Frequency Identification RFID application, an antenna coil is needed for two main reasons:


    Original     		AN678 D-81739 125 kHz RFID parallel antenna center 125 kHz RFID antenna design guide 125 kHz RFID Antenna 125 kHz RFID parallel antenna 125 kHz "reader coil" Antenna Coil Antenna Coil 125 kHz RFID design conductivity meter circuit matching RFID loop antenna Q vlf antenna PDF

    125 kHz RFID antenna

    Abstract: ATA5777 antenna retarded square loop antenna reactance 125 kHz RFID parallel antenna square loop antenna matching RFID loop antenna RFID loop antenna ATA5275 Wake-up Driver uv meter
    Text: Proof of ETSI and FCC Compliance of RFID Reader and Wake-up Driver ICs U2270B Atmel Products Applicable The following calculations would apply to the Atmel U2270B Reader and the ATA5777 and ATA5275 Wake-up Driver ICs. Application Note ETSI and FCC Regulations


    Original     		U2270B U2270B ATA5777 ATA5275 EN300330 125 kHz RFID antenna ATA5777 antenna retarded square loop antenna reactance 125 kHz RFID parallel antenna square loop antenna matching RFID loop antenna RFID loop antenna ATA5275 Wake-up Driver uv meter PDF

    RF loop antenna

    Abstract: nAN400-03 small loop antenna nAN400-04 RF MODULE 434Mhz PCB Antenna matching antenna 434MHz uhf loop antenna NRF0433 nRF401
    Text: APPLICATION NOTE Small loop antennas 1. nAN400-03 General For RF designers developing low-power radio devices for short-range applications, antenna design has become an important issue for the total radio system design. Taking the demand for small size and low cost into account in the development of


    Original     		nAN400-03 N-7075 RF loop antenna nAN400-03 small loop antenna nAN400-04 RF MODULE 434Mhz PCB Antenna matching antenna 434MHz uhf loop antenna NRF0433 nRF401 PDF

    LM48511

    Abstract: National Semiconductor Audio Handbook class d amplifier theory bipole EMC for PCB Layout radar modulator board spread spectrum D Amplifier Signal Path Designer Seminar national semiconductor
    Text: 8/29/2007 Reducing EMI in Class D Audio Applications The Basics 1 1 8/29/2007 Reducing EMI in Class D Audio Applications: The Basics Bill McCulley Sr. Tech Marketing Engineer Americas Audio & LV/LP Amps 2 2 8/29/2007 Outline • What is EMI? • The Class D Amplifer and EMI


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    chip antenna rfid UHF

    Abstract: UHF rfid antenna RFID loop antenna design nxp proximity antenna design NXP antenna design guide RFID loop antenna uhf rfid nxp nxp rfid uhf transponder Types of Radar Antenna antenna and wave propagation
    Text: AN 1629 UHF RFID Label Antenna Design UHF Antenna Design Rev. 1.0 — 05.09.2008 Application note Document information Info Content Keywords UHF, label antenna design, UCODE Abstract This document provides a general overview on basics of UHF wave propagation, as well as practical considerations of UHF label antenna


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    small loop antenna

    Abstract: bifa antenna printed antenna 868 AN421 RF pcb antenna 434 RF loop antenna 868 printed antenna design Si4320 Si4020 868mhz chip antenna
    Text: AN422 Antenna Development Guide for the Si4020, Si4320 & Si4420 ISM Band FSK EZRadio Chipsets Application Note Version 1.51 1 2009, Silicon Laboratories, Inc. AN422 REV 1.51 1105 Silicon Laboratories, Inc. 400 Cesar Chavez Austin, TX 78701 Tel: 512.416.8500


    Original     		AN422 Si4020, Si4320 Si4420 AN422 small loop antenna bifa antenna printed antenna 868 AN421 RF pcb antenna 434 RF loop antenna 868 printed antenna design Si4320 Si4020 868mhz chip antenna PDF

    Untitled

    Abstract: No abstract text available
    Text: ANTENNAS APPLICATIONS FOR RF MODULE Introduction: There seems to be little information on compact antenna design for the low power wireless field. Good antenna design is required to realize good range performance. A good antenna requires it to be the right type for the


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    helical antenna 434

    Abstract: RF transmitter 433.9 tracking grounded MARCONI antennas printed spiral antenna Design and construction Wave FM radio transmitter circular fm broadcast antenna antenna 434 916 MHz helical coil antenna AN36A-070898 short whip
    Text: ANTENNAS FOR LOW POWER APPLICATIONS By Kent Smith Introduction: There seems to be little information on compact antenna design for the low power wireless field. Good antenna design is required to realize good range performance. A good antenna requires it to be the right


    Original     		inv10 AN36A-070898 helical antenna 434 RF transmitter 433.9 tracking grounded MARCONI antennas printed spiral antenna Design and construction Wave FM radio transmitter circular fm broadcast antenna antenna 434 916 MHz helical coil antenna AN36A-070898 short whip PDF

    00710c

    Abstract: planar spiral coil Ferrite core 13.56 MHz RFID tag inductor antennas Ferrite core 125 KHz RFID tag inductor antennas RFID pcb antenna 13.56MHz RFID loop antenna 13.56MHz 13.56 MHz spiral antenna AN710 RFID loop antenna 13.56MHz spiral RFID antenna 13.56MHz
    Text: AN710 Antenna Circuit Design for RFID Applications Author: Youbok Lee, Ph.D. Microchip Technology Inc. REVIEW OF A BASIC THEORY FOR RFID ANTENNA DESIGN INTRODUCTION Current and Magnetic Fields Passive RFID tags utilize an induced antenna coil voltage for operation. This induced AC voltage is


    Original     		AN710 D-85737 DS00710C-page 00710c planar spiral coil Ferrite core 13.56 MHz RFID tag inductor antennas Ferrite core 125 KHz RFID tag inductor antennas RFID pcb antenna 13.56MHz RFID loop antenna 13.56MHz 13.56 MHz spiral antenna AN710 RFID loop antenna 13.56MHz spiral RFID antenna 13.56MHz PDF

    philips 4c65

    Abstract: RG58 CABLE 50 OHM HF RFID loop antenna design antenna matching 13,56 mhz calculation matching RFID loop antenna 13.56 Ferrite core 13.56 MHz RFID tag inductor antennas RFID loop antenna 13.56MHz 50ohm circuit and working lcr meter philips ferroxcube 4c65 Coax signal Splitter schematic
    Text: HF Antenna Design Notes Technical Application Report 11-08-26-003 September 2002 A TEXAS INSTRUMENTS TECHNOLOGY Literature Number: 11-08-26-003 HF Antenna Design Notes Contents Edition 3 – September 2002 .i


    Original     		MFJ-259B philips 4c65 RG58 CABLE 50 OHM HF RFID loop antenna design antenna matching 13,56 mhz calculation matching RFID loop antenna 13.56 Ferrite core 13.56 MHz RFID tag inductor antennas RFID loop antenna 13.56MHz 50ohm circuit and working lcr meter philips ferroxcube 4c65 Coax signal Splitter schematic PDF

    Untitled

    Abstract: No abstract text available
    Text: Electromagnetic Compatibility Design Considerations fo r ISDN Terminal Equipment Advanced Micro Device» ISDN Systems Engineering ISD N Terminal Equipment often contains high speed digital circuitry as well as a communications interface to an external bus.


    OCR Scan     		PDF

    Ferrite core 13.56 MHz RFID tag inductor antennas

    Abstract: AN707 RFID 3 phase inverter schematic diagram pic ac motor code hex Hf spiral loop antenna design RFID Antenna design passive rfid tag circuit diagram fed board 512 812 relay Bandpass filter SAW 2.4 GHz 50 Ohm up/AN707 RFID sot-23 MARKING CODE CR
    Text: microID 13.56 MHz RFID SYSTEM DESIGN GUIDE microID™ 13.56 MHz RFID System Design Guide INCLUDES: • • • • • • • • Passive RFID Basics Application Note MCRF355/360 Data Sheet Microchip Development Kit Sample Format MCRF355/360 Factory Programming Support


    Original     		MCRF355/360 /DS21299A DS21299A-page DS21299 Ferrite core 13.56 MHz RFID tag inductor antennas AN707 RFID 3 phase inverter schematic diagram pic ac motor code hex Hf spiral loop antenna design RFID Antenna design passive rfid tag circuit diagram fed board 512 812 relay Bandpass filter SAW 2.4 GHz 50 Ohm up/AN707 RFID sot-23 MARKING CODE CR PDF

    short whip

    Abstract: helical antenna 434 circular fm broadcast antenna 433.92 Antenna design trapezoidal antenna 433.92 printed spiral antenna slot antenna AN0036 antenna 434 433.92 Antenna design pcb
    Text: Antennas for Low Power Wireless Applications By Kent Smith Introduction A suitable antenna design is critical to achieving adequate range and link robustness in a low power wireless radio system. The best antenna choice will depend on the nature of the application - hand-held, wall


    Original     		AN0036 short whip helical antenna 434 circular fm broadcast antenna 433.92 Antenna design trapezoidal antenna 433.92 printed spiral antenna slot antenna antenna 434 433.92 Antenna design pcb PDF

    TH70211

    Abstract: TH72011 RF Transmitter 315MHz square loop antenna reactance "Rf Transmitter" 433mhz transmitter DESIGN TH71 TH7107 TH71071 TH71072
    Text: Applications Note RF Transmitter and Antenna Design Hints This application note covers the Single Frequency Transmitters. These transmitters have different features and cover different bands but they all have common features, which make them very easy to use for different


    Original     		TH7107 TH71071 TH71072 TH7108 TH71081 TH71082 TH72011 TH72031 TH7204 400MHz, TH70211 RF Transmitter 315MHz square loop antenna reactance "Rf Transmitter" 433mhz transmitter DESIGN TH71 PDF

    Ferrite core 13.56 MHz RFID tag inductor antennas

    Abstract: OMRON TIMER H2a RFID loop antenna 13.56MHz 3-pin D128 transistor RFID pcb antenna 13.56MHz TB031 CIRCUIT SCHEMATIC CAR ECU PIC16C63A-04/SP schematic diagram of active rfid tag RFID loop antenna 13.56MHz spiral
    Text: microID 13.56 MHz RFID System Design Guide INCLUDES: • • • • • • • • Passive RFID Basics Application Note MCRF355/360 Data Sheet Microchip Development Kit Sample Format MCRF355/360 Factory Programming Support SQTPSM MCRF355/360 Applications Application Note


    Original     		MCRF355/360 /DS21299C Ferrite core 13.56 MHz RFID tag inductor antennas OMRON TIMER H2a RFID loop antenna 13.56MHz 3-pin D128 transistor RFID pcb antenna 13.56MHz TB031 CIRCUIT SCHEMATIC CAR ECU PIC16C63A-04/SP schematic diagram of active rfid tag RFID loop antenna 13.56MHz spiral PDF

    13.56 MHz RFID reader ic 2 meter range

    Abstract: Ferrite core 13.56 MHz RFID tag inductor antennas RFID 125khz coil PIC lm 7407 buffer chip Microwave Oven Inverter Control IC marking RES BH led bcf AN707 RFID RFID PSK reader SOURCE CODE ,microchip 2.4 ghz active rfid tag circuit diagram
    Text: microID 13.56 MHz RFID System Design Guide INCLUDES: • • • • • • • • Passive RFID Basics Application Note MCRF355/360 Data Sheet Microchip Development Kit Sample Format MCRF355/360 Factory Programming Support SQTPSM MCRF355/360 Applications Application Note


    Original     		MCRF355/360 /DS21299B DS21299B-page 13.56 MHz RFID reader ic 2 meter range Ferrite core 13.56 MHz RFID tag inductor antennas RFID 125khz coil PIC lm 7407 buffer chip Microwave Oven Inverter Control IC marking RES BH led bcf AN707 RFID RFID PSK reader SOURCE CODE ,microchip 2.4 ghz active rfid tag circuit diagram PDF

    exs00a

    Abstract: 4835b 433.92 receiver module, pcb layout for TPMS smd transistor j340 EXS00A-02342 4835bs ATA5756 EXS00A AT Kyocera Kinseki CRYSTAL CX ATA5757
    Text: Reference Design for UHF ASK/FSK Transmitter ATA5756 and ATA5757 Features • PLL Transmitter IC With Single-ended Output • High Output Power 6 dBm at 8.1 mA (315 MHz) and 8.5 mA (433 MHz) Typical Values • Divide by 24 (ATA5756) and 32 (ATA5757) Blocks for 13-MHz Crystal Frequencies and


    Original     		ATA5756 ATA5757 ATA5756) ATA5757) 13-MHz 4835BS exs00a 4835b 433.92 receiver module, pcb layout for TPMS smd transistor j340 EXS00A-02342 EXS00A AT Kyocera Kinseki CRYSTAL CX ATA5757 PDF

    ferrite antenna

    Abstract: ferrite TRANSFORMER calculation AN383 Si47xx Si4735 monopole fm antenna TG-UTB01527S Si472x AM antenna ferrite loop antenna SI4734
    Text: AN383 S i 4 7 X X A NTE N NA , S C H E M A T I C , L A Y O U T , AND D E S I G N G U I D E L I N E S 1. Introduction This document provides general Si47xx design guidelines and AM/FM/SW/LW/WB antenna selections which includes schematic, BOM, layout and design checklist.


    Original     		AN383 Si47xx ferrite antenna ferrite TRANSFORMER calculation AN383 Si4735 monopole fm antenna TG-UTB01527S Si472x AM antenna ferrite loop antenna SI4734 PDF