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    HOW TO MAKE A DIGITAL CLOCK Search Results

    HOW TO MAKE A DIGITAL CLOCK Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TB67S539FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=2/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S149AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S549FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=1.5/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S589FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver / Bipolar Type / Vout(V)=50 / Iout(A)=3.0 / CLK input type / VQFN32 Visit Toshiba Electronic Devices & Storage Corporation
    TB67S589FNG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver / Bipolar Type / Vout(V)=50 / Iout(A)=3.0 / CLK input type / HTSSOP28 Visit Toshiba Electronic Devices & Storage Corporation

    HOW TO MAKE A DIGITAL CLOCK Datasheets Context Search

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    Drift VOLTAGE REFERENCE

    Abstract: AB-063 B12 2N DIODE
    Text: WHAT DESIGNERS SHOULD KNOW ABOUT DATA CONVERTER DRIFT Understanding the Components of Worst-Case Degradation Can Help in Avoiding Overspecification Exactly how inaccurate will a change in temperature make an analog-to-digital or digital-to-analog converter? As designers are well aware, a 12-bit device may provide a much


    Original     		PDF 12-bit Drift VOLTAGE REFERENCE AB-063 B12 2N DIODE

    B12 2N DIODE

    Abstract: AB-063
    Text: WHAT DESIGNERS SHOULD KNOW ABOUT DATA CONVERTER DRIFT Understanding the Components of Worst-Case Degradation Can Help in Avoiding Overspecification Exactly how inaccurate will a change in temperature make an analog-to-digital or digital-to-analog converter? As designers are well aware, a 12-bit device may provide a much


    Original     		PDF 12-bit B12 2N DIODE AB-063

    compander

    Abstract: 74HC574 AN156 AN157 CS7620 CS7622
    Text: AN157 Application Note CS7620/22 FREQUENTLY ASKED QUESTIONS What is the status of the chip at power-up? At power up the CS7620/22 is in Normal mode with 13-bit output and compander curve turned off. What about calibration? The user, using register 0x04h bit 0, can perform calibration on demand. Calibration takes approximately 760 clock cycles. The goal of calibration is to ensure a monotonic digital output across the


    Original     		PDF AN157 CS7620/22 13-bit 0x04h 500us CS7620 CS7622. compander 74HC574 AN156 AN157 CS7622

    EM78M680

    Abstract: AN004
    Text: EM78M680 ADC Application Notes 1 Introduction This document mainly describes how to use EM78M680 ADC function. 2 How to use EM78M680 ADC In order to make use of ADC function, please refer to following steps. „ Select ADC conversion clock source by setting up R11[6:5] register.


    Original     		PDF EM78M680 0B00000111 AN004 AN004

    XMEGA Application Notes

    Abstract: avr projects XMEGA AVR1500 AVR1003 xmega a1 XMEGA DATASHEETS atmel programming in c prescalers Real Time Clock LANGUAGE C
    Text: AVR1506: Xplain training - XMEGA clock system Prerequisites • Required knowledge Basic knowledge of microcontrollers and the C programming language Completed AVR1500 Xplain Training – XMEGA Basics • Software prerequisites Atmel AVR® Studio® 4.18 SP2 or later


    Original     		PDF AVR1506: AVR1500 315A-AVR-06/10 XMEGA Application Notes avr projects XMEGA AVR1003 xmega a1 XMEGA DATASHEETS atmel programming in c prescalers Real Time Clock LANGUAGE C

    AVR1003

    Abstract: how to make a digital clock 8404A Atmel AVR XMEGA A Manual jtagice mkii xmega
    Text: AVR1518: XMEGA-A1 Xplained Training XMEGA Clock System Prerequisites • Required knowledge - Basic knowledge of microcontrollers and the C programming language - Completed AVR1512 XMEGA-A1 Xplained Training – XMEGA Basics • Software prerequisites ®


    Original     		PDF AVR1518: AVR1512 404A-AVR-07/11 AVR1003 how to make a digital clock 8404A Atmel AVR XMEGA A Manual jtagice mkii xmega

    xmega ADC

    Abstract: WinAVR Atmel AVR XMEGA dma R105 AVR1509 XMEGA Atmel AVR XMEGA A Manual XMEGA dma example atmel touch toggle automatic heat detector project using microcontroller
    Text: AVR1509: Xplain training - Low Power Prerequisites • Required knowledge Atmel XMEGA Basics training Atmel XMEGA Clock System Atmel XMEGA DMAC Optional, may be needed for understanding task 4 Atmel XMEGA ADC (Optional, may be needed for understanding task 4)


    Original     		PDF AVR1509: 318A-AVR-06/10 xmega ADC WinAVR Atmel AVR XMEGA dma R105 AVR1509 XMEGA Atmel AVR XMEGA A Manual XMEGA dma example atmel touch toggle automatic heat detector project using microcontroller

    iox128a1

    Abstract: xmega ADC xmega iox128a1 interrupt Xplain Atmel AVR XMEGA dma XMEGA dma example atmel touch toggle AVR1010
    Text: AVR1521: XMEGA-A1 Xplained training - Low Power Prerequisites • Required knowledge - Atmel XMEGA® Basics training - Atmel XMEGA Clock System - Atmel XMEGA DMAC Optional, may be needed for understanding task 4 - Atmel XMEGA ADC (Optional, may be needed for understanding task 4)


    Original     		PDF AVR1521: 407A-AVR-07/11 iox128a1 xmega ADC xmega iox128a1 interrupt Xplain Atmel AVR XMEGA dma XMEGA dma example atmel touch toggle AVR1010

    pseudo-random noise generator i.c

    Abstract: DTS2079 DTS-2079 SY55858U C-MIC-SY55858U pseudo-random noise generator
    Text: Precision Edge SY55858U Evaluation Board Final 3.3V 3.0Gbps DUAL 2 x 2 CROSSPOINT SWITCH FEATURES DESCRIPTION The SY55858U is a dual 2 × 2 crosspoint switch optimized for high-speed data and/or clock applications up to 3.0Gbps or 3.0GHz where low jitter and skew are critical. Each


    Original     		PDF SY55858U SY55858U MLF-32 pseudo-random noise generator i.c DTS2079 DTS-2079 C-MIC-SY55858U pseudo-random noise generator

    SPARTAN XC2S50

    Abstract: SPARTAN-II SPARTAN-II xc2s100 pq208 CS144 FG256 PQ208 TQ144 VQ100 XC2S100 XC2S15
    Text: Robust Feature Set • Flexible on-chip memory Distributed and Block Memory • 4 Digital Delay Lock Loops per device Efficient chip level/ board level clock management • Select I/O Technology Interface to all major bus standards HSTL, GTL, SSTL, etc…


    Original     		PDF PQ208 FG256 FG456 SPARTAN XC2S50 SPARTAN-II SPARTAN-II xc2s100 pq208 CS144 FG256 PQ208 TQ144 VQ100 XC2S100 XC2S15

    SCAA082

    Abstract: stackup franzis CDCE906 SIGNAL PATH designer
    Text: Application Report SCAA082 – November 2006 High-Speed Layout Guidelines Alexander Weiler and Alexander Pakosta . Clock Drivers ABSTRACT This application report addresses high-speed signals such as clock signals and their


    Original     		PDF SCAA082 SCAA082 stackup franzis CDCE906 SIGNAL PATH designer

    Rohde Schwarz FSW

    Abstract: AN3503 MAX9492 APP3503
    Text: Maxim > App Notes > AUDIO CIRCUITS HIGH-SPEED INTERCONNECT AUTOMOTIVE CLOCK GENERATION AND DISTRIBUTION Keywords: Spread Spectrum Clock, SSC, SS CLK, Spreading Rate, Spreading Style, Modulation Rate, Modulation Waveform, EMI Reduction Rate, EMI Suppression, Calculation of EMI Reduction, MAX9492, EMC compatible CLK


    Original     		PDF MAX9492, com/an3503 MAX9492: AN3503, APP3503, Appnote3503, Rohde Schwarz FSW AN3503 MAX9492 APP3503

    an3503

    Abstract: APP3503 MAX9492
    Text: Maxim > App Notes > Audio circuits Automotive High-speed interconnect Oscillators/delay lines/timers/counters Keywords: Spread Spectrum Clock, SSC, SS CLK, Spreading Rate, Spreading Style, Modulation Rate, Modulation Waveform, EMI Reduction Rate, EMI Suppression, Calculation of EMI Reduction, MAX9492, EMC compatible CLK


    Original     		PDF MAX9492, MAX9492 com/an3503 AN3503, APP3503, Appnote3503, an3503 APP3503

    SY-001B

    Abstract: GR-2830-CORE acy transistor diodes SY 200 smc SY GR-1244-CORE BELLCORE GR-1244-CORE
    Text: Technical Notes December 12, 1999 D. Habic T. Raphaely Product and Technology Application Notes SY -0001B Synchronous Equipment Clock / Str atum 3 Clock Unit SY-0001B Stratum Introduction The main focus of this application note is to inform marketing and sales people about the Synchronous


    Original     		PDF SY-0001B SY-0001B SY-0001B, SY-001B GR-2830-CORE acy transistor diodes SY 200 smc SY GR-1244-CORE BELLCORE GR-1244-CORE

    crystal oscillator 32.768

    Abstract: 4 mhz crystal oscillator 4 MHz crystal 32.768 khz crystal apply Quartz Clock crystal nanotron Nanotron Technologies 32.768 khz crystal 32.768 MHZ OSCILLATOR 32.768 MHZ OSCILLATOR NOT GIVING OUTPUT
    Text: Clock Supply Configuration of the nanoNET TRX Transceiver Application Note Version 1.00 NA-05-0131-0334-1.00 Keywords nanoNET TRX transceiver, clock supply, 16 MHz, 32.768 kHz, Local Oscillator, clock distribution, feature clock Document Information Clock Supply Configuration of the nanoNET TRX Transceiver


    Original     		PDF NA-05-0131-0334-1 crystal oscillator 32.768 4 mhz crystal oscillator 4 MHz crystal 32.768 khz crystal apply Quartz Clock crystal nanotron Nanotron Technologies 32.768 khz crystal 32.768 MHZ OSCILLATOR 32.768 MHZ OSCILLATOR NOT GIVING OUTPUT

    Untitled

    Abstract: No abstract text available
    Text: ELM407 Rotary Decoder - 3 wire 4x Interface Description Features The ELM407 is an 8 pin integrated circuit that is used to convert the output from a rotary encoder into three signals chip select, clock and up/down that can be used to control various devices. The low


    Original     		PDF ELM407 ELM407 ELM407, ELM406. DS1804 ELM407DSA

    nvidia chip

    Abstract: GeForce2 MX GeForce2 NV11 SP6800 7pin mini din geforce nvidia 6800 bios NVIDIA GeForce2 MX nvidia
    Text: NVIDIA GeForce2 MX 3D GRAPHIC ACCELERATOR MANUAL http://www.sparkle.com.tw/ 1. NVIDIA GeForce2 MX Memory Size: 32MB on Board with SDRAM 1.1 NVIDIA GeForce2 MX Features KEY FEATURES • NVIDIA shading rasterizer • 4 texels per clock • Integrated second-generation Transform and Lighting engines


    Original     		PDF 256-bit 32-bit 700-Mtexel 2MX32 nvidia chip GeForce2 MX GeForce2 NV11 SP6800 7pin mini din geforce nvidia 6800 bios NVIDIA GeForce2 MX nvidia

    Untitled

    Abstract: No abstract text available
    Text: 22355 Abracon CORX 2-29.qxd 3/6/00 6:55 AM Page 58 CRYSTAL OSCILLATORS QUESTIONS AND ANSWERS Q: Why the Overall frequency stability is specified in crystal oscillators but not in crystals? A: The crystal oscillator is typically used as a master clock for the microprocessor and its parameters are not affected by the


    Original     		PDF 100ppm 15ppm

    Untitled

    Abstract: No abstract text available
    Text: ELM406 Rotary Decoder - 3 wire 2x Interface Description Features The ELM406 is an 8 pin integrated circuit that is used to convert the output from a rotary encoder into three signals chip select, clock and up/down that can be used to control various devices. The low


    Original     		PDF ELM406 ELM406 ELM406, ELM406. DS1804 ELM406DSA

    omap1510

    Abstract: omap1510 datasheet TPS62200
    Text: Application Report SLVA123 - December 2002 DVS for OMAP1510 Using TPS62200 Jeff Falin PMP Portable Power ABSTRACT Portable electronics with long battery lives are unquestionably more marketable. Power consumption of the microprocessor can be reduced by lowering the internal clock frequency


    Original     		PDF SLVA123 OMAP1510 TPS62200 TPS62200 OMAP1510 omap1510 datasheet

    Propeller Clock circuit

    Abstract: basic stamp program with adc0831 circuit diagram of line follower robot lm358 555 pwm
    Text: Basic Analog and Digital Student Guide VERSION 1.4 WARRANTY Parallax, Inc. warrants its products against defects in materials and workmanship for a period of 90 days. If you discover a defect, Parallax will, at its option, repair, replace, or refund the purchase price. Simply call for a Return


    Original     		PDF 14-DAY Propeller Clock circuit basic stamp program with adc0831 circuit diagram of line follower robot lm358 555 pwm

    Untitled

    Abstract: No abstract text available
    Text: H18GPL21M Data Sheet Preliminary 1. General Description H18GPL21M is a fully integrated analog programmable frequency synthesizer based on a charge pump type PLL. The output frequency range of H18GPL21M is 250 ~ 700 MHz. 2. Features . . . . . . . . . . On-chip charge pump type PLL clock generator including loop filter


    Original     		PDF H18GPL21M H18GPL21M 500um 300um H18GPL22S

    Untitled

    Abstract: No abstract text available
    Text: H18GPL22S Data Sheet Preliminary 1. General Description H18GPL22S is a fully integrated analog programmable frequency synthesizer based on a charge pump type PLL. The output frequency range of H18GPL22S is 125 ~ 500 MHz 2. Features . On-chip charge pump type PLL clock generator including loop filter


    Original     		PDF H18GPL22S H18GPL22S 500um 300um

    Untitled

    Abstract: No abstract text available
    Text: H18GPL22S Data Sheet Preliminary 1. General Description H18GPL22S is a fully integrated analog programmable frequency synthesizer based on a charge pump type PLL. The output frequency range of H18GPL22S is 125 ~ 500 MHz 2. Features . On-chip charge pump type PLL clock generator including loop filter


    Original     		PDF H18GPL22S H18GPL22S 500um 300um