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    SERIES AND PARALLEL RESONANCE CIRCUIT Search Results

    SERIES AND PARALLEL RESONANCE CIRCUIT Result Highlights (6)

    Part ECAD Model Manufacturer Description Download Buy
    TLP2701 Toshiba Electronic Devices & Storage Corporation Photocoupler (photo-IC output), 5000 Vrms, 4pin SO6L Visit Toshiba Electronic Devices & Storage Corporation
    74HC4053FT Toshiba Electronic Devices & Storage Corporation CMOS Logic IC, SPDT(1:2)/Analog Multiplexer, TSSOP16B, -40 to 125 degC Visit Toshiba Electronic Devices & Storage Corporation
    74HC4051FT Toshiba Electronic Devices & Storage Corporation CMOS Logic IC, SP8T(1:8)/Analog Multiplexer, TSSOP16B, -40 to 125 degC Visit Toshiba Electronic Devices & Storage Corporation
    TCKE800NA Toshiba Electronic Devices & Storage Corporation eFuse IC (electronic Fuse), 4.4 to 18 V, 5.0 A, Auto-retry, WSON10B Visit Toshiba Electronic Devices & Storage Corporation
    TCKE800NL Toshiba Electronic Devices & Storage Corporation eFuse IC (electronic Fuse), 4.4 to 18 V, 5.0 A, Latch, WSON10B Visit Toshiba Electronic Devices & Storage Corporation
    TCKE812NL Toshiba Electronic Devices & Storage Corporation eFuse IC (electronic Fuse), 4.4 to 18 V, 5.0 A, Latch, Fixed Over Voltage Clamp, WSON10B Visit Toshiba Electronic Devices & Storage Corporation

    SERIES AND PARALLEL RESONANCE CIRCUIT Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    10mhz crystal oscillator

    Abstract: Design Guidelines for Quartz Crystal Oscillators Quartz Crystal 32.768KHz 5mhz crystal oscillator 50mhz crystal oscillator Quartz Crystal 10mhz Quartz Crystals overtone and fundamental electric 10Mhz crystal 32.768khz crystal Crystal 10mhz
    Text: Maxim > App Notes > MICROCONTROLLERS Keywords: resonance frequency, resonance mode, series resonance, parallel resonance, overtones, fundamental mode, anti-resonance, quality factor, q, load capacitance, series resistance, holder capacitance, motional inductance and capacitance, drive level, crys


    Original     		PDF inductan401: MAX1402: MAX1403: MAX1407: MAX1408: MAX1409: MAX1414: MAX4455: MAX7651: MAX7652: 10mhz crystal oscillator Design Guidelines for Quartz Crystal Oscillators Quartz Crystal 32.768KHz 5mhz crystal oscillator 50mhz crystal oscillator Quartz Crystal 10mhz Quartz Crystals overtone and fundamental electric 10Mhz crystal 32.768khz crystal Crystal 10mhz

    QUAD HIFREQ

    Abstract: No abstract text available
    Text: 2014 Super 12 Products QUAD HiFREQ Series MLCCs for RF Applications QUAD HiFREQ Series MLCCs for RF Applications • Features • Ultra-stable high Q dielectric material • Ultra-low ESR and ESL • Very high serial and parallel resonance frequency SRF, PRF


    Original     		PDF

    4 MHz crystal 2pin

    Abstract: series and parallel resonance Chrontel an-06 2 pin crystal 12 mhz oscillator 12 Mhz in crystal oscillator AN06 chrontel crystal 2pin 30PPM AN-06 4 pin 20 MHz crystal oscillator
    Text: AN-06 Application Notes CHRONTEL Crystal Oscillator This application note addresses issues commonly raised during the selection of the reference crystal, typically 14.318 MHz, for Chrontel's product line. Pierce Oscillator A simplified schematic of the oscillator circuit used in Chrontel products is shown in Figure 1. Note that the


    Original     		PDF AN-06 4 MHz crystal 2pin series and parallel resonance Chrontel an-06 2 pin crystal 12 mhz oscillator 12 Mhz in crystal oscillator AN06 chrontel crystal 2pin 30PPM AN-06 4 pin 20 MHz crystal oscillator

    C17CF

    Abstract: C17AH1R5 C17CF102 C17AH271 C17AH0R9 C17AH2R4 C17AH C17CG C17AH270 C17CG300
    Text: C17 .110" x .110" High Q, High performance RF/Microwave capacitors with voltage ratings to 500 Vdc. For use in higher power circuits where Low Loss contributes to performance. dielectric laboratories Porcelain High Performance High Q Part Number C 17 AH 102 J 5 U X L TL


    Original     		PDF 500Vdc 300Vdc 200Vdc 100Vdc 50Vdc 1000pF C17NA200 C17NA220 C17NA240 C17NA270 C17CF C17AH1R5 C17CF102 C17AH271 C17AH0R9 C17AH2R4 C17AH C17CG C17AH270 C17CG300

    Untitled

    Abstract: No abstract text available
    Text: 22355 Abracon CORX 2-29.qxd 3/6/00 6:53 AM Page 28 QUARTZ CRYSTALS CHARACTERISTICS CHANGE OF LOAD CAPACITANCE AND PULLABILITY CRYSTAL EQUIVALENT CIRCUIT Figure 1 The equivalent circuit of a quartz crystal is shown to explain the basic elements governing crystal characteristics and performance. It consists


    Original     		PDF

    Quartz Crystal Glossary of Terms

    Abstract: quartz crystal 6 MHZ crystal tuning fork quartz MHz
    Text: APPLICATION NOTES QUARTZ CRYSTAL GLOSSARY OF TERMS Nominal frequency: The specified center frequency of the crystal. Unit of frequency is Hertz Hz . Quartz crystals are specified in kHz or MHz. Crystal equivalent circuit: The crystal equivalent circuit of the quartz


    Original     		PDF

    Crystal oscillator 12 MHz

    Abstract: sine wave inverter circuit diagram SN74xx ttl crystal oscillator disadvantages of astable multivibrator SN74HC logic family SN74S124 sn74ls628 spike guard circuit diagram 4 mhz crystal oscillator
    Text: EB155E Crystal Oscillators EB155E Crystal Oscillators with TTL and HCMOS Circuits Author: Axel Streicher Date: November 1984 Revised: Eilhard Haseloff Date: May 1996 Rev.: * 1 Applikationslabor EB155E Crystal Oscillators Important Notice Texas Instruments TI reserves the right to make changes to its products or to discontinue any semiconductor product or


    Original     		PDF EB155E warrantSN74AS1000 Crystal oscillator 12 MHz sine wave inverter circuit diagram SN74xx ttl crystal oscillator disadvantages of astable multivibrator SN74HC logic family SN74S124 sn74ls628 spike guard circuit diagram 4 mhz crystal oscillator

    practical application of schmitt trigger

    Abstract: 3 phase SCR dimmer triac diac applications circuit diagram 3 phase SCR dimmer circuits 2 coil electromagnetic induction POWER AMPLIFIERS CIRCUIT DIAGRAMS FULL WAVE mosfet RECTIFIER CIRCUITS Triac based Lamp Dimmer power control diac mosfet series and parallel resonance circuit
    Text: Electricity & Electronics Trainers 12-300 Series Features Description „ Suitable for a wide range of courses „ Hands-on practical work „ Pre-constructed circuit elements for rapid configuration „ Through-hole and surface mount components „ Complete with all teaching


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    AN826 crystal oscillator basic

    Abstract: 150 KHz colpitts oscillator construction DS00826 AN826 crystal AN826 microchip colpitts oscillator construction basic block oscillator Crystal oscillator 12 MHz RFPIC12C509AF applications of blocking oscillator
    Text: AN826 Crystal Oscillator Basics and Crystal Selection for rfPICTM and PICmicro Devices Author: Steven Bible Microchip Technology Inc. INTRODUCTION Oscillators are an important component of radio frequency RF and digital devices. Today, product design engineers often do not find themselves designing oscillators because the oscillator circuitry is provided on the


    Original     		PDF AN826 D-81739 DS00826A-page AN826 crystal oscillator basic 150 KHz colpitts oscillator construction DS00826 AN826 crystal AN826 microchip colpitts oscillator construction basic block oscillator Crystal oscillator 12 MHz RFPIC12C509AF applications of blocking oscillator

    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     		PDF 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

    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     		PDF 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

    Parallel resonance inverter

    Abstract: inverter circuits explained IC 744 3 phase inverter circuit design 3 phase inverter circuits datasheet series and parallel resonance circuit LINEAR INVERTER circuit diagram WE 744 2 pin crystal oscillator application note inverter phase
    Text: APPLICATION NOTE Crystal Oscillator Circuit Design In this application note we shall discuss our recommended crystal oscillator circuit, explain each component in the circuit and provide some guidelines on selecting values for these components. Finally, we shall give a few precautions to take in


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    HC 240

    Abstract: HC-49 Crystals crystal HC 49 HC-49/U HC-49 3.579545 HC49 4H0801 HC49 U3H
    Text: Quartz Crystal Units HC-49/U-2H, HC-49/U-3H & HC-49/U-4H FAMILY Actual Size HC-49/U-3H PART NUMBERING GUIDE HC-49/U-4H 3L SMI PART NO. Package Frequency Circuit Calibration Condition 4H080-16 4H = HC-49/U-4H 080 = 8.000 MHz Parallel resonance CL = 16 pF 2H221-18


    Original     		PDF HC-49/U-2H, HC-49/U-3H HC-49/U-4H 4H080-16 HC-49/U-4H 2H221-18 HC-49/U-2H 4H135-12 HC 240 HC-49 Crystals crystal HC 49 HC-49/U HC-49 3.579545 HC49 4H0801 HC49 U3H

    ne602

    Abstract: NE602 application note Signal mixing NE602 NE602 equivalent NE602 application overtone butler oscillator rf ne602 AN1983 NE602 NE5212 variable inductor values for 10MHz- 100MHz oscillator variable inductor for 100MHz oscillator
    Text: INTEGRATED CIRCUITS AN1983 Crystal oscillators and frequency multipliers using the NE602 and NE5212 1991 Dec Philips Semiconductors Philips Semiconductors Application note Crystal oscillators and frequency multipliers using the NE602 and NE5212 AN1983 than their LC counterparts. Figure 1 shows the equivalent circuit of


    Original     		PDF AN1983 NE602 NE5212 NE5212 NE602 application note Signal mixing NE602 NE602 equivalent NE602 application overtone butler oscillator rf ne602 AN1983 NE602 NE5212 variable inductor values for 10MHz- 100MHz oscillator variable inductor for 100MHz oscillator

    ROHM capacitor 100nf 50v 0603 x7r

    Abstract: 80pf philips Trimmer capacitors MCH185C103KK application notes sa602 DFC2R SA620 0805CG569C9BB0 DFC2R881 SA601 SMV 142
    Text: INTEGRATED CIRCUITS AN1777 Low voltage front-end circuits: SA601, SA620 M. B. Judson Philips Semiconductors 1997 Aug 20 Philips Semiconductors Application note Low voltage front-end circuits: SA601, SA620 AN1777 Author: M. B. Judson CONTENTS I. Introduction . . . . . . . . . . . . . . . . . . . . . . . . .


    Original     		PDF AN1777 SA601, SA620 SA601 SA620 ROHM capacitor 100nf 50v 0603 x7r 80pf philips Trimmer capacitors MCH185C103KK application notes sa602 DFC2R 0805CG569C9BB0 DFC2R881 SMV 142

    MC68302

    Abstract: MC68360 MPC860
    Text: Some Characteristics and Design Notes for Crystal Feedback Oscillators Motorola Applications Engineering 1. Introduction This note is written to assist engineers in the production of reliable clock circuits which may be used with devices such as the MPC860, MC68360 and MC68302 and their derivatives. All these devices offer more than one method for the


    Original     		PDF MPC860, MC68360 MC68302 33KHz 194MHz MPC860

    waveform for inverting amplifier

    Abstract: series and parallel resonance circuit
    Text: Seiko Instruments Inc. Electronic Components Low-CL Technology Standby current = 32 kHz oscillation + RTC + other components < 0.7 µA 4. What is the source of oscillation? Oscillation is the phenomenon whereby an electronic circuit a crystal oscillator causes vibration on its


    Original     		PDF 45sec waveform for inverting amplifier series and parallel resonance circuit

    MC68302

    Abstract: MC68360 MPC860 design procedure for a single phase inverter
    Text: Freescale Semiconductor, Inc. Some Characteristics and Design Notes for Crystal Feedback Oscillators Motorola Applications Engineering 1. Introduction Freescale Semiconductor, Inc. This note is written to assist engineers in the production of reliable clock circuits which may be used with devices such


    Original     		PDF MPC860, MC68360 MC68302 33KHz 194MHz MPC860 design procedure for a single phase inverter

    MC68302

    Abstract: MC68360 MPC860 design procedure for a single phase inverter
    Text: Freescale Semiconductor, Inc. Some Characteristics and Design Notes for Crystal Feedback Oscillators Motorola Applications Engineering 1. Introduction Freescale Semiconductor, Inc. This note is written to assist engineers in the production of reliable clock circuits which may be used with devices such


    Original     		PDF MPC860, MC68360 MC68302 33KHz 194MHz MPC860 design procedure for a single phase inverter

    Untitled

    Abstract: No abstract text available
    Text: SPIRAL INDUCTOR NOTES Spiral Inductors Equivalent Circuits Spiral inductors are used extensively in microwave circuit resonant elements and as a choke in power supplies. When used as a choke, a low Q is generally desirable to obtain a broadband characteristic. To


    OCR Scan     		PDF

    Untitled

    Abstract: No abstract text available
    Text: SPIRAL INDUCTOR NOTES j~ i V Spiral Inductors Equivalent Circuits Spiral inductors are used extensively in microwave circuit resonant elements and as a choke in power supplies. When used as a choke, a low Q is generally desirable to obtain a broadband characteristic. To


    OCR Scan     		PDF

    MC12060

    Abstract: series and parallel resonance AN-756 MC12561 trim capacitor IC1206 MC120S1 MC12061
    Text: c IV1C12060 EB-59 and John Hatchett Roger Janikowski, Applications Engineering MC12061 By: Predict Frequency Accuracy For MC12060 Änd MC120S1 Crystal O scillator Circuits Crystal Characteristics As show n by the equivalent circuit o f Figure l , crystals


    OCR Scan     		PDF MC12060 MC120S1 series and parallel resonance AN-756 MC12561 trim capacitor IC1206 MC12061

    Untitled

    Abstract: No abstract text available
    Text: CRYSTALS CTS Reeves Crystal Basics FREQUENCY PRODUCTS Quartz plates show a mechanical move­ fa = ANTI-RESONANCE ment or strain when subjected to an elec­ Unless it is stated otherwise, AT cut param eters of the equivalent circuit crystals will operate on the fundamental


    OCR Scan     		PDF 500Hz. 200Hz)

    SCN68542

    Abstract: N413 transistor inverter circuit schematics Oscillator 3.6864MHz AN413
    Text: Application note Philips Semiconductors Data Communications Products Using the datacomm product’s on-chip oscillator AN413 Author: D. Ibarra total circuit capacitance matches the capacitance specified for the crystal. DESCRIPTION This application note discusses how to use the on-chip oscillator


    OCR Scan     		PDF SCC2691, SCC2692, SCN68681, SCN26562, SCN68562, SCN26542 SCN68542. AN413 12-32pF 7456MHz SCN68542 N413 transistor inverter circuit schematics Oscillator 3.6864MHz AN413