Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    ADVANTAGE OF USING CRYSTAL OSCILLATOR Search Results

    ADVANTAGE OF USING CRYSTAL OSCILLATOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    74LS626N Rochester Electronics LLC 74LS626 - Voltage Controlled Oscillator Visit Rochester Electronics LLC Buy
    ICL7182CPL Rochester Electronics LLC ICL7182 - LCD Bargraph ADC Visit Rochester Electronics LLC Buy
    ICM7211AIM44 Rochester Electronics LLC ICM7211 - Liquid Crystal Driver, 28-Segment, CMOS, PQFP44 Visit Rochester Electronics LLC Buy
    UPD78F0362GB-UEU-A Renesas Electronics Corporation Compact, Low-power 8-bit Microcontrollers for Applications Using LCD Display (Non Promotion) Visit Renesas Electronics Corporation
    UPD78F0374GC-UBT-A Renesas Electronics Corporation Compact, Low-power 8-bit Microcontrollers for Applications Using LCD Display (Non Promotion) Visit Renesas Electronics Corporation

    ADVANTAGE OF USING CRYSTAL OSCILLATOR Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    VCC1

    Abstract: TDS7254D VCC1-B3A-125M000
    Text: Application Bulletin Comparing Vectron’s Crystal-Based 125MHz Oscillator with a SAW-based solution Jitter is a difficult parameter to clearly understand and compare by reviewing manufactures data sheets. Although largely unintentional, variations in jitter specifications include the method of test


    Original     		125MHz 125MHz VCC1-B3A-125M000, 000MHz TDS7254D 1-88-VECTRON-1 1-888-FAX-VECTRON VCC1 VCC1-B3A-125M000 PDF

    VCC6

    Abstract: 155.52MHZ crystal-based vectron oscillator
    Text: Application Bulletin Comparing Vectron’s Crystal-Based PECL Oscillator with a SAW-Based Equivalent Jitter is a difficult parameter to clearly understand and compare by reviewing manufactures data sheets. Although largely unintentional, variations in jitter specifications include the method of test


    Original     		52MHz 1-88-VECTRON-1 1-888-FAX-VECTRON VCC6 155.52MHZ crystal-based vectron oscillator PDF

    AN3886

    Abstract: ferroelectric APP3886 DS32B35 DS32C35 DS32X35
    Text: Maxim > App Notes > OSCILLATORS/DELAY LINES/TIMERS/COUNTERS TIME AND TEMPERATURE RECORDERS REAL-TIME CLOCKS Mar 22, 2007 Keywords: NV Memory, FRAM, RTC, NV SRAM, Battery Backed Memory APPLICATION NOTE 3886 Benefits of the DS32X35 Accurate Real-Time Clock with Ferroelectric


    Original     		DS32X35 768kHz com/an3886 AN3886, APP3886, Appnote3886, AN3886 ferroelectric APP3886 DS32B35 DS32C35 PDF

    STK300

    Abstract: ATTINY28 AVR042 avr isp programmer schematic Capacitive PCB AT90S8535 AVR040 STK500 STK500 drawing
    Text: AVR042: AVR Hardware Design Considerations Features • • • • Providing robust supply voltage, digital and analog. Connection of RESET line. SPI interface for In-System Programming. Using external crystal or ceramic resonator oscillators. 8-bit Microcontrollers


    Original     		AVR042: 2521E-AVR-06/06 STK300 ATTINY28 AVR042 avr isp programmer schematic Capacitive PCB AT90S8535 AVR040 STK500 STK500 drawing PDF

    avr042

    Abstract: STK300 circuit STK300 avr adc AT90S8515 AT90S8535 AVR040 STK500 STK200 7M372
    Text: AVR042: AVR Hardware Design Considerations Features • • • • Providing robust supply voltage, digital and analog. Connection of RESET line. SPI interface for In-System Programming. Using external crystal or ceramic resonator oscillators. 1 Introduction


    Original     		AVR042: 2521H-AVR-01/10 avr042 STK300 circuit STK300 avr adc AT90S8515 AT90S8535 AVR040 STK500 STK200 7M372 PDF

    AVR042

    Abstract: crystal oscillator safety factor avr adc Capacitive PCB STK300 AT90S8515 AT90S8535 AVR040 STK500 AVR atmega8515
    Text: AVR042: AVR Hardware Design Considerations Features • • • • Providing robust supply voltage, digital and analog. Connection of RESET line. SPI interface for In-System Programming. Using external crystal or ceramic resonator oscillators. 8-bit Microcontrollers


    Original     		AVR042: 2521I-AVR-03/10 AVR042 crystal oscillator safety factor avr adc Capacitive PCB STK300 AT90S8515 AT90S8535 AVR040 STK500 AVR atmega8515 PDF

    CRYSTAL 32.768KHz 12.5PF 20PPM EPSON

    Abstract: ISL12020M CM200S ISL12022 alpha Resistors AB26T MC-156 ALPHA YEAR CODE alpha date code System
    Text: ISL12022 RTC Accuracy Optimization Calibration Procedure Application Note May 6, 2008 AN1400.0 Introduction Temperature Sensor Real Time Clock RTC devices contain an oscillator and normally require a crystal to operate with the required accuracy. Most commonly used 32.768kHz crystal oscillators have a


    Original     		ISL12022 AN1400 768kHz 20ppm 034ppm/ 10-bit ISL12022 CRYSTAL 32.768KHz 12.5PF 20PPM EPSON ISL12020M CM200S alpha Resistors AB26T MC-156 ALPHA YEAR CODE alpha date code System PDF

    Si570

    Abstract: I2C address translator C8051F320 GTL2002 Si571 Si57xEVBSoftware
    Text: Si57x FAQ Rev. 0.2 Overview This document is intended to address common questions about the Silicon Laboratories programmable oscillator Si570 XO and Si571 VCXO products. The term Si57x stands for both the Si570 and Si571. FAQ 1. What is the tuning resolution of the Si57x?


    Original     		Si57x Si570 Si571 Si571. Si57x? I2C address translator C8051F320 GTL2002 Si57xEVBSoftware 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     		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 PDF

    AVR Hardware Design Considerations Features

    Abstract: Atmel STK600 schematic STK-300 AVR jtagice circuit ATXMEGA32A4 Designing Products with Atmel Capacitive AVR040 AVR042 STK500 STK600
    Text: Atmel AVR042: AVR Hardware Design Considerations Features • • • • Providing robust supply voltage, digital and analog. Connection of RESET line. SPI interface for In-System Programming. Using external crystal or ceramic resonator oscillators. 8-bit Atmel


    Original     		AVR042: 2521K-AVR-03/11 AVR Hardware Design Considerations Features Atmel STK600 schematic STK-300 AVR jtagice circuit ATXMEGA32A4 Designing Products with Atmel Capacitive AVR040 AVR042 STK500 STK600 PDF

    AVR042

    Abstract: XMEGA Application Notes AVR jtagice circuit STK300 avr isp programmer schematic AVR Hardware Design Considerations Features isp stk300 programmer in detail advantage of crystal oscillator Programmer stk500 STK300 circuit
    Text: AVR042: AVR Hardware Design Considerations Features • • • • Providing robust supply voltage, digital and analog. Connection of RESET line. SPI interface for In-System Programming. Using external crystal or ceramic resonator oscillators. 8-bit Microcontrollers


    Original     		AVR042: 2521J-AVR-06/10 AVR042 XMEGA Application Notes AVR jtagice circuit STK300 avr isp programmer schematic AVR Hardware Design Considerations Features isp stk300 programmer in detail advantage of crystal oscillator Programmer stk500 STK300 circuit PDF

    crystal oscillator 8MHz 4 pins

    Abstract: 56F83xx 56800E 56F8322 56F8323 AN1991 AN1994
    Text: Freescale Semiconductor, Inc. Order by AN1994/D Motorola Order Number Rev. 0, 3/04 Start-up Considerations for 56F83xx Family Devices 1 Introduction .1 Oscillator Start-up .1 Reset Timing .3


    Original     		AN1994/D 56F83xx 56F8322/3. 56F8345/46/47 56F8355/56/57. crystal oscillator 8MHz 4 pins 56800E 56F8322 56F8323 AN1991 AN1994 PDF

    AT908515

    Abstract: avr isp programmer schematic isp stk300 programmer AVR042 ISP10PIN AVR Hardware Design Considerations Features avr microcontroller STK200 stk300 schematic AT90S8515
    Text: AVR042: AVR Hardware Design Considerations Features • • • • Providing Robust Supply Voltage, Digital and Analog Connecting the RESET Line SPI Interface for In-System Programming Using External Crystal or Ceramic Resonator Oscillators 8-bit RISC Microcontroller


    Original     		AVR042: 2521B AT908515 avr isp programmer schematic isp stk300 programmer AVR042 ISP10PIN AVR Hardware Design Considerations Features avr microcontroller STK200 stk300 schematic AT90S8515 PDF

    AN9334

    Abstract: HA7210 5mhz crystal oscillator 10khz crystal oscillator oscillator 32,768KHz 5V 1.5V 10mhz crystal oscillator 32.768ka 825s OSCILLATOR 32.768K Data Sheet C-001R
    Text: Harris Semiconductor No. AN9334.1 Harris Linear October 1996 Improving Start-up Time at 32kHz for the HA7210 Low Power Crystal Oscillator Author: Robert Rood The HA7210 is a very low power crystal-controlled oscillator that can be programmed to operate between 10kHz and


    Original     		AN9334 32kHz HA7210 10kHz 10MHz. 100kHz) 5mhz crystal oscillator 10khz crystal oscillator oscillator 32,768KHz 5V 1.5V 10mhz crystal oscillator 32.768ka 825s OSCILLATOR 32.768K Data Sheet C-001R PDF

    practical application of schmitt trigger

    Abstract: AN006022-2 CMOS ring oscillators MM74C14 rc oscillator AN-118 AN-90 TTL Oscillators AN006022-11 AN006022
    Text: Fairchild Semiconductor Application Note 118 October 1974 INTRODUCTION This note describes several square wave oscillators that can be built using CMOS logic elements. These circuits offer the following advantages: switches with finite propagation delays rather than as amplifiers with 180˚ phase shift. It then becomes obvious that a “1”


    Original     		AN-90) practical application of schmitt trigger AN006022-2 CMOS ring oscillators MM74C14 rc oscillator AN-118 AN-90 TTL Oscillators AN006022-11 AN006022 PDF

    AN8080

    Abstract: pierce oscillator 1MHz crystal oscillator CIRCUIT 3rd Overtone crystal equivalent circuit calculation 50mhz crystal oscillator 4000ZE HCM49 Pierce Citizen oscillator 25Mhz 16pF crystal
    Text: Using a Discrete Crystal as a PLD Clock Source June 2009 Application Note AN8080 Introduction Clocks are a necessary part of synchronous PLD designs e.g. Lattice Semiconductor’s ispMACH 4000ZE and MachXO . Designers will typically use integrated oscillators but there are other, less expensive options. This document will discuss the generation of a clock signal using an inexpensive crystal circuit to minimize board costs.


    Original     		AN8080 4000ZE AN8080 pierce oscillator 1MHz crystal oscillator CIRCUIT 3rd Overtone crystal equivalent circuit calculation 50mhz crystal oscillator HCM49 Pierce Citizen oscillator 25Mhz 16pF crystal PDF

    p 4712

    Abstract: 4712 im47021 2.4576mhz crystal im47021je 4.712 4702B 4712n HD-4702 IM4702IPE
    Text: Baud Rate Generator GENERAL DESCRIPTION FEATURES The IM4702/12 Baud Rate Generators provide neces­ sary clock signals for digital data transmission systems, such as UARTs, using a 2.4576MHz crystal oscillator as an input. They control up to 8 output channels and can be cas­


    OCR Scan     		IM4702/4712 IM4702/12 4576MHz IM4712 IM4702 T--75 IM6402 p 4712 4712 im47021 2.4576mhz crystal im47021je 4.712 4702B 4712n HD-4702 IM4702IPE PDF

    APN5001 Theory and Application of Sampling Phase

    Abstract: APN5001 Theory and Application of Sampling Phase Detector comb generator Schematic diagram of DRO Sampling Phase Detector digital phase detector phase detector Sampling Phase Detectors step down transformer
    Text: APPLICATION NOTE APN5001: Theory and Application of Sampling Phase Detector The phase lock of a Voltage Controlled Oscillator VCO for VHF, UHF and microwave frequencies is very important in communications and radar application. It combines the far-out phase noise of fundamental oscillators, especially in the microwave frequency range


    Original     		APN5001: APN5001 Theory and Application of Sampling Phase APN5001 Theory and Application of Sampling Phase Detector comb generator Schematic diagram of DRO Sampling Phase Detector digital phase detector phase detector Sampling Phase Detectors step down transformer PDF

    practical application of schmitt trigger

    Abstract: CMOS ring oscillators RC phase shift oscillator AN-118 AN-90 C1995 MM54C00 MM54C02 MM54C04 AN-118 national
    Text: National Semiconductor Application Note 118 Mike Watts October 1974 INTRODUCTION This note describes several square wave oscillators that can be built using CMOS logic elements These circuits offer the following advantages Y Guaranteed startability Y Relatively good stability with respect to power supply


    Original     		AN-90) practical application of schmitt trigger CMOS ring oscillators RC phase shift oscillator AN-118 AN-90 C1995 MM54C00 MM54C02 MM54C04 AN-118 national PDF

    AN9334

    Abstract: HA7210 C-001R epson 32.768k C-001R 32.768K-a
    Text: Improving Start-up Time at 32kHz for the HA7210 Low Power Crystal Oscillator TM Application Note December 2000 AN9334.2 providing faster start-up times 32kHz crystals with ESR greater than 50kΩ should be avoided . Using the circuit in Figure 1 the start-up characteristic of a 32.768kHz crystal, set in


    Original     		32kHz HA7210 AN9334 768kHz HA7210 10kHz 10MHz. C-001R epson 32.768k C-001R 32.768K-a PDF

    AN9334

    Abstract: crystal 32kHZ C-001R HA7210 10khz crystal oscillator epson 32.768k 1MHz crystal oscillator CIRCUIT 2 pin 10mhz crystal oscillator epson 32.768KHZ CRYSTALS epson 32.768KHZ CRYSTALS -oscillator
    Text: Improving Start-up Time at 32kHz for the HA7210 Low Power Crystal Oscillator Application Note October 1996 AN9334.1 providing faster start-up times 32kHz crystals with ESR greater than 50kΩ should be avoided . Using the circuit in Figure 1 the start-up characteristic of a 32.768kHz crystal, set in


    Original     		32kHz HA7210 AN9334 768kHz HA7210 10kHz 10MHz. crystal 32kHZ C-001R 10khz crystal oscillator epson 32.768k 1MHz crystal oscillator CIRCUIT 2 pin 10mhz crystal oscillator epson 32.768KHZ CRYSTALS epson 32.768KHZ CRYSTALS -oscillator PDF

    MC145145P1

    Abstract: ML145145-6P MC145145-2 MC145145DW2 ML12061 ML12079 ML145145 ML145145VP lansdale gold book
    Text: ML145145 4–Bit Data Bus Input PLL Frequency Synthesizer INTERFACES WITH SINGLE–MODULUS PRESCALERS Legacy Device: Motorola MC145145-2 The ML145145 is programmed by a 4–bit input, with strobe and address lines. The device features consist of a reference oscillator, 12–bit programmable reference


    Original     		ML145145 MC145145-2 ML145145 MC145145P1 ML145145-6P MC145145-2 MC145145DW2 ML12061 ML12079 ML145145VP lansdale gold book PDF

    MC145145-2

    Abstract: LANSDALE SEMICONDUCTOR P-DIP-18 MC145145DW2 MC145145P1 ML12061 ML12079 ML145145 ML145145-6P ML145145VP
    Text: ML145145 4–Bit Data Bus Input PLL Frequency Synthesizer INTERFACES WITH SINGLE–MODULUS PRESCALERS Legacy Device: Motorola MC145145-2 The ML145145 is programmed by a 4–bit input, with strobe and address lines. The device features consist of a reference oscillator, 12–bit programmable reference


    Original     		ML145145 MC145145-2 ML145145 MC145145-2 LANSDALE SEMICONDUCTOR P-DIP-18 MC145145DW2 MC145145P1 ML12061 ML12079 ML145145-6P ML145145VP PDF

    Untitled

    Abstract: No abstract text available
    Text: ML145145 4–Bit Data Bus Input PLL Frequency Synthesizer INTERFACES WITH SINGLE–MODULUS PRESCALERS Legacy Device: Motorola MC145145-2 The ML145145 is programmed by a 4–bit input, with strobe and address lines. The device features consist of a reference oscillator, 12–bit programmable reference


    Original     		ML145145 MC145145-2 ML145145 PDF