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    1588 SWITCH Search Results

    1588 SWITCH Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TBAW56 Toshiba Electronic Devices & Storage Corporation Switching Diode, 80 V, 0.215 A, SOT23 Visit Toshiba Electronic Devices & Storage Corporation
    HN1D05FE Toshiba Electronic Devices & Storage Corporation Switching Diode, 400 V, 0.1 A, ES6 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
    DG301AAA Rochester Electronics LLC DG301AAA - CMOS Analog Switch Visit Rochester Electronics LLC Buy
    LM1578AH/883 Rochester Electronics LLC LM1578 - Switching Regulator, Current-mode, 0.75A, 100kHz Switching Freq-Max, MBCY8 - Dual marked (5962-8958602GA) Visit Rochester Electronics LLC Buy

    1588 SWITCH Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    m5324

    Abstract: Multilink M5324BCC HCS08 MCF5234 pc based oscilloscope PE multilink freemaster M5234BCCKIT
    Text: ColdFire Based IEEE 1588 Demo—Quick Start Guide Demo Quick Start Guide ColdFire Based IEEE® 1588 How to set up the ColdFire MCF5234based IEEE 1588 demo ColdFire Based IEEE 1588—Quick Start Guide Introduction The M5234BCCKIT-J comes configured to run the IEEE 1588 Precision Time Protocol


    Original     		MCF5234based 1588--Quick M5234BCCKIT-J M5234BCCKITJQSG m5324 Multilink M5324BCC HCS08 MCF5234 pc based oscilloscope PE multilink freemaster M5234BCCKIT PDF

    M5234BCCKIT

    Abstract: HCS08 PE multilink debugger control page freemaster 1588q
    Text: ColdFire Based IEEE 1588 Demo—Quick Start Guide Demo Quick Start Guide ColdFire Based IEEE® 1588 How to set up the ColdFire MCF5234based IEEE 1588 demo ColdFire Based IEEE 1588—Quick Start Guide Introduction The M5234BCCKIT comes configured to run the IEEE 1588 Precision Time Protocol


    Original     		MCF5234based 1588--Quick M5234BCCKIT 1588QSG HCS08 PE multilink debugger control page freemaster 1588q PDF

    ixxat

    Abstract: mpc8313 etsec Ethernet IEEE-1588 QUICC Engine for mpc8360 M5234BCCKIT MCF5234 MPC8313 MPC8360 MPC8360E-RDK 1588 PHY
    Text: IEEE 1588 Protocol System Solutions PowerQUICC® and ColdFire® Integrate IEEE® 1588 Time Synchronization Why Use IEEE® 1588 Time Synchronization? Typical applications for IEEE 1588 time synchronization include: • Time-sensitive telecommunication services which require precision


    Original     		PQIEEE1588FS 32-bit ixxat mpc8313 etsec Ethernet IEEE-1588 QUICC Engine for mpc8360 M5234BCCKIT MCF5234 MPC8313 MPC8360 MPC8360E-RDK 1588 PHY PDF

    MAX24188

    Abstract: PEG1
    Text: Data Sheet January 2013 MAX24188 Low-Cost IEEE 1588 Clock General Description The MAX24188 is a flexible, low-cost IEEE 1588 clock designed to be the central 1588 time base in a multiport system. In such systems typically boundary clocks or transparent clocks timestampers at the


    Original     		MAX24188 PEG1 PDF

    MAX24288

    Abstract: MAX24188 gps 1pps holdover DS31400 max2418
    Text: ABRIDGED DATA SHEET 19-6003; Rev 0; 8/11 MAX24188 Low-Cost IEEE 1588 Clock General Description The MAX24188 is a flexible, low-cost IEEE 1588 clock designed to be the central 1588 time base in a multiport system. In such systems typically boundary clocks or transparent clocks timestampers at the


    Original     		MAX24188 2-32ns 125MHz com/MAX24188 MAX24288 MAX24188 gps 1pps holdover DS31400 max2418 PDF

    MAX24288

    Abstract: No abstract text available
    Text: Short Form Data Sheet April 2012 MAX24188 Low-Cost IEEE 1588 Clock General Description The MAX24188 is a flexible, low-cost IEEE 1588 clock designed to be the central 1588 time base in a multiport system. In such systems typically boundary clocks or transparent clocks timestampers at the


    Original     		MAX24188 MAX24288 PDF

    IC 14511

    Abstract: DP83640TVV national
    Text: DP83640 DP83640 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver Literature Number: SNOSAY8D 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     		DP83640 DP83640 IC 14511 DP83640TVV national PDF

    bcm5481

    Abstract: zl30310 E1 HDB3 synchronizer ZLE30320 mpc8313 ZL30142 mpc8313 reference 1588 RS232 GPON OLT
    Text: IEEE 1588 & SyncE Reference Design ZLE30320 PRODUCT PREVIEW The ZLE30320 reference design operates as a standalone IEEE 1588-2008 server/ grandmaster or client, in addition to fulfilling the requirements of Synchronous Ethernet. The ZLE30320 is based on Zarlink’s ZL30310 IEEE 1588 Network Synchronizer and optionally includes Zarlink’s ZL30142 SyncE SONET/SDH G.8262/


    Original     		ZLE30320 ZLE30320 ZL30310 ZL30142 ZL30142 XRT83SL30 9ZS217 bcm5481 E1 HDB3 synchronizer mpc8313 mpc8313 reference 1588 RS232 GPON OLT PDF

    DP83630SQE

    Abstract: ptpv2 "initial synchronization"
    Text: DP83630 DP83630 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver Literature Number: SNLS335A DP83630 Precision PHYTER - IEEE® 1588 Precision Time Protocol Transceiver 1.0 General Description 3.0 Features The DP83630 Precision PHYTER® device delivers the highest level of precision clock synchronization for real time industrial connectivity based on the IEEE 1588 standard. The


    Original     		DP83630 DP83630 SNLS335A DP83630SQE ptpv2 "initial synchronization" PDF

    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     		DP83640 pps digital pll synchronize DP83640 software PDF

    DP83640

    Abstract: "national semiconductor" book DP83640 software IEEE1588 Bradley Semiconductor IEEE-1588 1588 switch "ethernet PHY" book national semiconductor 1588 PHY
    Text: Synchronizing Networks with IEEE 1588 Alexander Tan July 2009 National Semiconductor www.national.com/ethernet c 2009 National Semiconductor Corporation Objectives • Introduce the IEEE 1588 Precision Timing Protocol (PTP) for synchronizing time over an Ethernet


    Original     		//ieee1588 DP83640 com/pf/DP/DP83640 DP83640 "national semiconductor" book DP83640 software IEEE1588 Bradley Semiconductor IEEE-1588 1588 switch "ethernet PHY" book national semiconductor 1588 PHY PDF

    PE multilink

    Abstract: ethernet uart for DP83640 Netstat Commands M5234 M5234BCCKIT IEEE1588 IEEE1588features powerline communication project 1588 RS232 ab-2 national
    Text: Freescale Semiconductor Application Note IEEE 1588 Implementation on a ColdFire Processor by: Michal Princ System Application Engineer Roznov Czech System Center 1 Introduction This application note describes implementation of the IEEE 1588 Precision Time Protocol PTP on the


    Original     		MCF5234 DP83640 M5234BCC M5234BCCKIT PE multilink ethernet uart for DP83640 Netstat Commands M5234 M5234BCCKIT IEEE1588 IEEE1588features powerline communication project 1588 RS232 ab-2 national PDF

    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     		DP83640 DP83640 PDF

    SC109

    Abstract: "initial synchronization"
    Text: DP83630 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver 1.0 General Description 3.0 Features The DP83630 Precision PHYTER® device delivers the highest level of precision clock synchronization for real time industrial connectivity based on the IEEE 1588 standard. The


    Original     		DP83630 SC109 "initial synchronization" PDF

    MQX1588UG

    Abstract: ieee embedded system projects free K60N512VMD100 uart example used in k60 MPC8360MDS MMA7660 TWR-SER2 AN4332 ic ARM for robotic MQX1588
    Text: Freescale Semiconductor Application Note Document Number: AN4332 Rev. 0, 08/2011 Implementing an IEEE 1588 V2 Node on the Kinetis K60 Using the Freescale MQX IEEE 1588 Communication Library by: Michal Princ System Application Engineer Roznov Czech System Center


    Original     		AN4332 MQX1588 AN4332 MQX1588UG ieee embedded system projects free K60N512VMD100 uart example used in k60 MPC8360MDS MMA7660 TWR-SER2 ic ARM for robotic PDF

    Untitled

    Abstract: No abstract text available
    Text: Ethernet PLL and IEEE 1588 Synthesizer for Industrial Automation and Power FEATURES • HIGHLIGHTS • • • • Digital PLL locks to Ethernet physical layer clocks Provides clocks for 1 Gigabit Ethernet and QSGMII Internal Digitally Controlled Oscillator supports IEEE 1588 clock


    Original     		1X10-5 4X10-8 PDF

    DP83640

    Abstract: 100BASE-FX DP83640TVV FREQ100 LEN100 VBH48A 1468 sd 1459 t2253 IC 14511 "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     		DP83640 DP83640 100BASE-FX DP83640TVV FREQ100 LEN100 VBH48A 1468 sd 1459 t2253 IC 14511 "initial synchronization" PDF

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

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

    VSC8572

    Abstract: No abstract text available
    Text: VSC8572 PRODUCT BRIEF Dual Port Dual Media RGMII/SGMII GbE PHY with IEEE 1588 Vitesse’s new GbE PHY simplifies Synchronous Ethernet and IEEE 1588 timing in Carrier Ethernet designs Highlights • Single and two-step IEEE 1588v2 time stamping over encapsulated


    Original     		VSC8572 1588v2 VSC8572 PDF

    DP83640

    Abstract: SC-114 JEDEC
    Text: DP83640 www.ti.com SNOSAY8E – SEPTEMBER 2007 – REVISED APRIL 2013 DP83640 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver Check for Samples: DP83640 1 Introduction 1.1 Features 123 • IEEE 1588 V1 and V2 Supported • UDP/IPv4, UDP/IPv6, and Layer2 Ethernet


    Original     		DP83640 DP83640 100BASE-FX 100BASE-TX SC-114 JEDEC PDF

    DES1005D

    Abstract: EIA-232 DES-1005
    Text: Agilent E5818A LXI Class-B Trigger Box Data Sheet Features Introduction IEEE 1588 Benefits • Remote access to instruments via LAN The Agilent E5818A LXI Class-B Trigger Box is a device for handling the IEEE 1588 Precision Time Protocol PTP synchronization over


    Original     		E5818A E5818 synchroniz05 14/minute 5989-7290EN DES1005D EIA-232 DES-1005 PDF

    SNLS335A

    Abstract: the RMII Consortium Specification g4 transpo SC T2262
    Text: DP83630 www.ti.com SNLS335A – JANUARY 2011 – REVISED FEBRUARY 2011 DP83630 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver Check for Samples: DP83630 1 Introduction 1.1 Features 12 • IEEE 1588 V1 and V2 Supported • UDP/IPv4, UDP/IPv6, and Layer2 Ethernet


    Original     		DP83630 SNLS335A DP83630 100BASE-FX 100BASE-TX SNLS335A the RMII Consortium Specification g4 transpo SC T2262 PDF

    Untitled

    Abstract: No abstract text available
    Text: DP83640 www.ti.com SNOSAY8E – SEPTEMBER 2007 – REVISED APRIL 2013 DP83640 Precision PHYTER - IEEE 1588 Precision Time Protocol Transceiver Check for Samples: DP83640 1 Introduction 1.1 Features 123 • IEEE 1588 V1 and V2 Supported • UDP/IPv4, UDP/IPv6, and Layer2 Ethernet


    Original     		DP83640 DP83640 PDF