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    DP83640

    Abstract: pps digital pll synchronize DP83640 software
    Text: National Semiconductor Application Note 1838 David Rosselot April 28, 2008 1.0 Introduction National Semiconductor’s DP83640 Precision PHYTER implements time-critical portions of the IEEE 1588 Precision Time Protocol PTP , allowing high precision IEEE 1588 node


    Original     		PDF DP83640 pps digital pll synchronize DP83640 software

    DP83640TVV

    Abstract: Advanced Basestation pcf 1021 transformer 6B-0F DP83640 100BASE-FX FREQ100 LEN100 VBH48A pin diagram of IC 14511
    Text: DP83640 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver 1.0 General Description 3.0 Features The DP83640 Precision PHYTER® device delivers the highest level of precision clock synchronization for real time industrial connectivity based on the IEEE 1588 standard. The


    Original     		PDF DP83640 DP83640 DP83640TVV Advanced Basestation pcf 1021 transformer 6B-0F 100BASE-FX FREQ100 LEN100 VBH48A pin diagram of IC 14511

    T2302

    Abstract: AN1548 DP83640 100BASE-FX DP83640TVV FREQ100 LEN100 VBH48A Ethernet transformers "initial synchronization"
    Text: DP83640 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver 1.0 General Description 3.0 Features The DP83640 Precision PHYTER® device delivers the highest level of precision clock synchronization for real time industrial connectivity based on the IEEE 1588 standard. The


    Original     		PDF DP83640 DP83640 T2302 AN1548 100BASE-FX DP83640TVV FREQ100 LEN100 VBH48A Ethernet transformers "initial synchronization"

    Untitled

    Abstract: No abstract text available
    Text: DP83640 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver 1.0 General Description 3.0 Features The DP83640 Precision PHYTER® device delivers the highest level of precision clock synchronization for real time industrial connectivity based on the IEEE 1588 standard. The


    Original     		PDF DP83640 DP83640

    DP83640

    Abstract: AN1729
    Text: National Semiconductor Application Note 1729 Ben Buchanan May 1, 2008 1.0 Introduction There are advantages to both sources of the 1588 clock output. The FCO offers better jitter performance but has a smaller correction range and some usage restrictions in order to preserve the clock phase on a link loss event. The PGM does not


    Original     		PDF AN-1729 DP83640 AN1729

    DP83640

    Abstract: solar clock MODULE CIRCUIT DP83640IEEE AN1729 TDS784C
    Text: National Semiconductor Application Note 1729 Ben Buchanan December 2, 2008 1.0 Introduction There are advantages to both sources of the 1588 clock output. The FCO offers better jitter performance but has a smaller correction range and some usage restrictions in order to preserve the clock phase on a link loss event. The PGM does not


    Original     		PDF AN-1729 DP83640 solar clock MODULE CIRCUIT DP83640IEEE AN1729 TDS784C

    APC SERVICE MANUAL

    Abstract: ATM25 MPC860 MPC860SAR MPC862
    Text: Rev 1.0 June 2001 Technical Bulletin Design Considerations / Differences of MPC862SAR Nigel Dick / European FAE Team Netcomm Applications Motorola, East Kilbride, Scotland Section 1.0 Introduction The MPC860SAR and MPC862SAR are both members of the MPC8xx PowerQUICC family. In addition to the


    Original     		PDF MPC862SAR MPC860SAR MPC862SAR MPC860MH APC SERVICE MANUAL ATM25 MPC860 MPC862

    uPD60610

    Abstract: IEEE1588 phy uPD60611
    Text: User Manual Industrial Ethernet PHY Single PHY ASSP uPD60610 uPD60611 All information contained in these materials, including products and product specifications, represents information on the product at the time of publication and is subject to change by


    Original     		PDF uPD60610 uPD60611 R19UH0082ED0201 LQFP48 IEEE1588 phy

    APC SERVICE MANUAL

    Abstract: ATM25 MPC860 MPC860SAR MPC862
    Text: Rev 0.0 Technical Bulletin Design Considerations / Differences of MPC862SAR Nigel Dick / European FAE Team Netcomm Applications Motorola, East Kilbride, Scotland Section 1.0 Introduction The MPC860SAR and MPC862SAR are both members of the MPC8xx PowerQUICC family. In addition to the


    Original     		PDF MPC862SAR MPC860SAR MPC862SAR MPC860MH APC SERVICE MANUAL ATM25 MPC860 MPC862

    ddr1 ram slot pin detail

    Abstract: IC 4094 ATM25 MPC860 MPC860SAR MPC862
    Text: Freescale Semiconductor, Inc. Rev 1.0 June 2001 Technical Bulletin Design Considerations / Differences of MPC862SAR Nigel Dick / European FAE Team Netcomm Applications Motorola, East Kilbride, Scotland Freescale Semiconductor, Inc. Section 1.0 Introduction


    Original     		PDF MPC862SAR MPC860SAR MPC862SAR MPC860MH ddr1 ram slot pin detail IC 4094 ATM25 MPC860 MPC862

    Gennum GV7601

    Abstract: CCTV 4 channel DVR circuit diagram GN1412 cctv dvr circuit diagram Gennum GV7600 sx1231H GV7601 design guide Ultrasonic Cleaner schematic datasheet 4x3 keypad GN2426
    Text: solutions Semtech Products Short Form Catalog v.30 This Short Form Catalog is a quick introduction to the Semtech product families and is available from your Semtech sales representative and distribution partner in the U.S. and Canada. www.semtech.com Semtech Story


    Original     		PDF Shortform2014 Gennum GV7601 CCTV 4 channel DVR circuit diagram GN1412 cctv dvr circuit diagram Gennum GV7600 sx1231H GV7601 design guide Ultrasonic Cleaner schematic datasheet 4x3 keypad GN2426

    semiconductor nt24l50

    Abstract: SX1301
    Text: solutions Semtech Products Short Form Catalog v.30 This Short Form Catalog is a quick introduction to the Semtech product families and is available from your Semtech sales representatives and distribution partners globally. www.semtech.com Semtech Story Optical Transport, Datacenters and state-of-the-art Broadcast


    Original     		PDF Shortform2014-AG semiconductor nt24l50 SX1301

    MLB150

    Abstract: Nexus S camera
    Text: TM September 2013 • Motivation • System architecture • Application • Summary TM 2 • Natural surround view helps drivers to capture all hazards at a glace in slow driving situations like parking or turning • Holistic 360° object detection for every driving situation like


    Original     		PDF

    MPC860

    Abstract: MPC860SAR MPC866 AN2348 ATM25 MPC859T MPC860 equivalent
    Text: Freescale Semiconductor, Inc. AN2348 Rev. 1.5 9/2003 Freescale Semiconductor, Inc. Migrating from the MPC860 to the MPC866 PowerQUICC This application note lists some of the design considerations that a customer must make when migrating from the MPC860/855T 'CDR2' family to the MPC866/859T 'HiP6W' family.


    Original     		PDF AN2348 MPC860 MPC866 MPC860/855T MPC866/859T MPC860 MPC860SAR MPC866 AN2348 ATM25 MPC859T MPC860 equivalent

    959T

    Abstract: 3K20A apc isdn DDH 3E AN2348 ATM25 MPC859T MPC860 MPC860SAR MPC866
    Text: Freescale Semiconductor, Inc. Application Note AN2348 Rev. 1.5 9/2003 Freescale Semiconductor, Inc. Migrating from the MPC860 to the MPC866 PowerQUICC This application note lists some of the design considerations that a customer must make when migrating from the MPC860/855T 'CDR2' family to the MPC866/859T 'HiP6W' family.


    Original     		PDF AN2348 MPC860 MPC866 MPC860/855T MPC866/859T 959T 3K20A apc isdn DDH 3E AN2348 ATM25 MPC859T MPC860 MPC860SAR MPC866

    0x01C0

    Abstract: No abstract text available
    Text: TMS320C6743 Fixed/Floating-point Digital Signal Processor www.ti.com SPRS565A – APRIL 2009 – REVISED APRIL 2009 1 TMS320C6743 Fixed/Floating-point Digital Signal Processor • • • • • • Applications – Industrial Control – Networking – High-Speed Encoding


    Original     		PDF TMS320C6743 SPRS565A C674x 8-/16-/32-/64-Bit 16-Bit 32K-Byte 0x01C0

    A00C

    Abstract: A658 TMS320C6743 AE7C A678
    Text: TMS320C6743 SPRS565B – APRIL 2009 – REVISED JUNE 2011 www.ti.com TMS320C6743 Fixed/Floating-Point Digital Signal Processor Check for Samples: TMS320C6743 1 TMS320C6743 Fixed/Floating-Point Digital Signal Processor 1.1 Features 12 • Highlights – Up to 375-MHz FIxed/Floating-Point VLIW


    Original     		PDF TMS320C6743 SPRS565B TMS320C6743 32-Bit 16-Bit A00C A658 AE7C A678

    hall 3018

    Abstract: C6000 TMS320 TMS320C6000 4-BIT ARITHMETIC LOGIC UNIT 97C11 GP311
    Text: TMS320C6743 Fixed/Floating-point Digital Signal Processor www.ti.com SPRS565A – APRIL 2009 – REVISED APRIL 2009 1 TMS320C6743 Fixed/Floating-point Digital Signal Processor • • • • • • Applications – Industrial Control – Networking – High-Speed Encoding


    Original     		PDF TMS320C6743 SPRS565A C674x 8-/16-/32-/64-Bit 16-Bit 32K-Byte hall 3018 C6000 TMS320 TMS320C6000 4-BIT ARITHMETIC LOGIC UNIT 97C11 GP311

    BR 9014

    Abstract: omap 3630 ECCTL2 MEP Micro 2E HS TZ 1148 TMS 3617 9036 scl Dp 104c IR 410c omap 310
    Text: TMS320C6743 Fixed/Floating-point Digital Signal Processor www.ti.com SPRS565A – APRIL 2009 – REVISED APRIL 2009 1 TMS320C6743 Fixed/Floating-point Digital Signal Processor • • • • • • Applications – Industrial Control – Networking – High-Speed Encoding


    Original     		PDF TMS320C6743 SPRS565A C674x 8-/16-/32-/64-Bit 16-Bit 32K-Byte BR 9014 omap 3630 ECCTL2 MEP Micro 2E HS TZ 1148 TMS 3617 9036 scl Dp 104c IR 410c omap 310

    Untitled

    Abstract: No abstract text available
    Text: TMS320C6743 Fixed/Floating-point Digital Signal Processor www.ti.com SPRS565A – APRIL 2009 – REVISED APRIL 2009 1 TMS320C6743 Fixed/Floating-point Digital Signal Processor • • • • • • Applications – Industrial Control – Networking – High-Speed Encoding


    Original     		PDF TMS320C6743 SPRS565A C674x 8-/16-/32-/64-Bit 16-Bit

    31d8 diode

    Abstract: C6000 TMS320 TMS320C6000 SCR 2P 4M MMCRSP45
    Text: TMS320C6743 Fixed/Floating-point Digital Signal Processor www.ti.com SPRS565A – APRIL 2009 – REVISED APRIL 2009 1 TMS320C6743 Fixed/Floating-point Digital Signal Processor • • • • • • Applications – Industrial Control – Networking – High-Speed Encoding


    Original     		PDF TMS320C6743 SPRS565A C674x 8-/16-/32-/64-Bit 16-Bit 32K-Byte 31d8 diode C6000 TMS320 TMS320C6000 SCR 2P 4M MMCRSP45

    pru 10.64

    Abstract: 250V 1A TF 103C Using the TMS320C674x BootLoader 0x8B7DF02F TMS320C674x cpu Instruction Set reference guide SPRS565B
    Text: TMS320C6743 SPRS565B – APRIL 2009 – REVISED JUNE 2011 www.ti.com TMS320C6743 Fixed/Floating-Point Digital Signal Processor Check for Samples: TMS320C6743 1 TMS320C6743 Fixed/Floating-Point Digital Signal Processor 1.1 Features 12 • Highlights – Up to 375-MHz FIxed/Floating-Point VLIW


    Original     		PDF TMS320C6743 SPRS565B TMS320C6743 32-Bit 16-Bit pru 10.64 250V 1A TF 103C Using the TMS320C674x BootLoader 0x8B7DF02F TMS320C674x cpu Instruction Set reference guide SPRS565B

    BLMG1P500SPT

    Abstract: zkb 421 TT 3034 zkb 416 zkb 461 sprug83 zkb 419 SPRS377 ECCTL2 TMS320C6745
    Text: TMS320C6745/6747 Floating-point Digital Signal Processor www.ti.com SPRS377A – SEPTEMBER 2008 – REVISED OCTOBER 2008 1 TMS320C6745/6747 Floating-point Digital Signal Processor 1.1 Features • • • • • • Applications – Industrial Control – USB, Networking


    Original     		PDF TMS320C6745/6747 SPRS377A 300-MHz C674xTM C674x 8-/16-/32-/64-Bit 16-Bit BLMG1P500SPT zkb 421 TT 3034 zkb 416 zkb 461 sprug83 zkb 419 SPRS377 ECCTL2 TMS320C6745

    M 2530 motorola

    Abstract: AN437 0000007C motorola 2530 SN008 MC68332 Cross-Reference Data
    Text: Prom Motorola Mfax Ph: 602-244-6591 Pax: 602-244-6693 07Æ3Æ8 04:20 To bb 02/11 Order this document as AN437/D MOTOROLA SEMICONDUCTOR TECHNICAL DATA AN437 Using the MC68332 Periodic Interrupt Timer By Mark Maiolani Motorola Ltd East Kilbride INTRODUCTION


    OCR Scan     		PDF AN437/D AN437 MC68332 AN437/D M 2530 motorola AN437 0000007C motorola 2530 SN008 Cross-Reference Data