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    SCAD004

    Abstract: CDC111 CDCVF111 SARONIX SCS
    Text: Application Report SCAA047 – October 2001 Jitter Performance of TI’s CDC111/CDCVF111 Kal Mustafa High Performance Analog/CDC ABSTRACT This application report discusses various jitter measurements of TI’s CDC111/CDCVF111 while being driven by three different clock sources VCXOs . The data contained in this


    Original     		PDF SCAA047 CDC111/CDCVF111 CDC111/CDCVF111 CDC111 CDCVF111 SCAD004 SARONIX SCS

    cdv304

    Abstract: capacitive coupling ethernet CDC111 CDCV304 CDCVF111 HPA8133A TLK3104SA
    Text: Application Report SCAA049 – November 2001 Using TI’s CDC111/CDCVF111 With TLK3104SA Serial Transceiver for Gigabit Ethernet and Backplane Applications Kal Mustafa High Performance Analog/CDC ABSTRACT This application report discusses jitter transfer of TI’s CDC111/CDCVF111 clock drivers


    Original     		PDF SCAA049 CDC111/CDCVF111 TLK3104SA TLK3104 TLK3104SA. cdv304 capacitive coupling ethernet CDC111 CDCV304 CDCVF111 HPA8133A

    CDC111

    Abstract: CDCV304 CDCVF111 SLK2501 capacitive coupling ethernet
    Text: Application Report SCAA050 – November 2001 Using TI’s CDCVF111 With SLK2501 Serial Gigabit Transceiver for SONET and Gigabit Ethernet Applications Kal Mustafa High Performance Analog/CDC ABSTRACT SONET/SDH and gigabit ethernet applications all have stringent timing requirements,


    Original     		PDF SCAA050 CDCVF111 SLK2501 CDCVF111, SLK2501, OC-48/24/12/3) CDC111 CDCV304 capacitive coupling ethernet

    SN65LVDS100 Application Report

    Abstract: CDC111 CDCLVP110 CDCVF111 SN65LVDS101 SN65LVDT100 SN65LVDT33 SLLA101 sn65lvds CML100
    Text: Application Report SCAA059C – March 2003 – Revised October 2007 AC-Coupling Between Differential LVPECL, LVDS, HSTL, and CML Kal Mustafa/Chris Sterzik. High Performance Analog


    Original     		PDF SCAA059C SN65LVDS100 Application Report CDC111 CDCLVP110 CDCVF111 SN65LVDS101 SN65LVDT100 SN65LVDT33 SLLA101 sn65lvds CML100

    scta027

    Abstract: SDRAM 1994 Texas Instruments 1992 16 MB SDRAM Texas Instruments CDC2586 LVC244 LVTH182504A TMS626802 Buffered SDRAM DIMM
    Text: Design-For-Test Analysis of a Buffered SDRAM DIMM Sri Jandhyala and Adam Ley Semiconductor Group SCTA027 Reprinted with permission from Proceedings of International Workshop on Memory Technology, Design and Testing, Singapore, August 13–14, 1996.  1996 IEEE


    Original     		PDF SCTA027 16-Megabit SMOU001A) SCTD002) SCAD004) SSYU001B) SN74LVC244A SCAS414C) SCBD003B) TMS626802 scta027 SDRAM 1994 Texas Instruments 1992 16 MB SDRAM Texas Instruments CDC2586 LVC244 LVTH182504A Buffered SDRAM DIMM

    SCAD004

    Abstract: CDCV304 TLK1501 TLK3114SA TLK1201 TLK2201 TLK2501 TLK2701 TLK2711 TLK3101
    Text: Application Report SCAA052 – November 2001 Using TI’s CDCV304 with Backplane Transceiver TLK1201, TLK1501, TLK2201, TLK2501, TLK2701, TLK2711, and TLK3101 Firoj Kabir HPA/CDC ABSTRACT This application note discusses TI’s CDCV304 output jitter when driving serial backplane


    Original     		PDF SCAA052 CDCV304 TLK1201, TLK1501, TLK2201, TLK2501, TLK2701, TLK2711, TLK3101) SCAD004 TLK1501 TLK3114SA TLK1201 TLK2201 TLK2501 TLK2701 TLK2711 TLK3101

    SN74ALVCH162245

    Abstract: Schottky Barrier Diode Bus-Termination Array SN7400 CLOCKED SLLS210 SCAD001D TEXAS INSTRUMENTS SN7400 SERIES buffer SN74LVCC4245 sn74154 SDAD001C SN7497
    Text: Section 4 Logic Selection Guide ABT – Advanced BiCMOS Technology . . . . . . . . . . . . . . . . . . . . . . . . . . 4–3 ABTE/ETL – Advanced BiCMOS Technology/ Enhanced Transceiver Logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4–9


    Original     		PDF

    f741561

    Abstract: C139 CDC111 CDCVF111 R112
    Text: Application Report SCAA051 – November 2001 Output Jitter of CDC111/CDCVF111 in an ASIC Networking Application High Performance Analog/CDC Kal Mustafa ABSTRACT This report contains a number of peak-to-peak and cycle-to-cycle jitter measurements of TI’s CDC111 and CDCVF111 clock driver. In this ASIC event, both the


    Original     		PDF SCAA051 CDC111/CDCVF111 CDC111 CDCVF111 CDC111/CDCVF111. f741561 C139 R112

    CDCV304

    Abstract: TLK2501 TLK3114SA TLK1201 TLK1501 TLK2201 TLK2701 TLK2711 TLK3101 K3101
    Text: Application Report SCAA052A – November 2001 – Revised April 2006 Using TI’s CDCV304 with Backplane Transceiver TLK1201, TLK1501, TLK2201, TLK2501, TLK2701, TLK2711, and TLK3101 Firoj Kabir HPA/CDC ABSTRACT This application note discusses TI’s CDCV304 output jitter when driving serial backplane


    Original     		PDF SCAA052A CDCV304 TLK1201, TLK1501, TLK2201, TLK2501, TLK2701, TLK2711, TLK3101) TLK2501 TLK3114SA TLK1201 TLK1501 TLK2201 TLK2701 TLK2711 TLK3101 K3101

    1992 16 MB SDRAM Texas Instruments

    Abstract: CDC2586 LVC244 LVTH182504A TMS626802 dram memory module 1993 SDRAM 1994 Texas Instruments SCTD002 Buffered SDRAM DIMM
    Text: Design-For-Test Analysis of a Buffered SDRAM DIMM Sri Jandhyala and Adam Ley SCTA027 Reprinted with permission from Proceedings of International Workshop on Memory Technology, Design and Testing, Singapore, August 13–14, 1996.  1996 IEEE 1 IMPORTANT NOTICE


    Original     		PDF SCTA027 16-Megabit SMOU001A) SCTD002) SCAD004) SSYU001B) SN74LVC244A SCAS414C) SCBD003B) TMS626802 1992 16 MB SDRAM Texas Instruments CDC2586 LVC244 LVTH182504A dram memory module 1993 SDRAM 1994 Texas Instruments SCTD002 Buffered SDRAM DIMM

    SN74HC02 Spice model

    Abstract: philips semiconductor data handbook SDAD001C SDFD001B SCAD001D SN7497 spice model SN74AHC14 spice Transistor Crossreference SLLS210 ci ttl sn74ls00
    Text: LOGIC OVERVIEW 1 FUNCTIONAL INDEX 2 FUNCTIONAL CROSSĆREFERENCE 3 DEVICE SELECTION GUIDE 4 3 LOGIC SELECTION GUIDE FIRST QUARTER 1997 IMPORTANT NOTICE Texas Instruments TI reserves the right to make changes to its products or to discontinue any semiconductor product or service without notice, and advises its customers to obtain the latest


    Original     		PDF

    PN9000

    Abstract: Aeroflex PN9000 HP8656B CDCLVD110 HP6624A OC48 TDS694C Tektronix 464 B694
    Text: Application Report SCAA066 – AUGUST 2003 Benefits of Using TI’s Non-PLL Clock Buffer: Best in Class Phase Noise/Phase Jitter and Crosstalk Performance Heather McClendon /Kal Mustafa High-Performance Analog/CDC ABSTRACT This application report presents various jitter and phase noise measurements of three


    Original     		PDF SCAA066 PN9000 Aeroflex PN9000 HP8656B CDCLVD110 HP6624A OC48 TDS694C Tektronix 464 B694

    CML Vterm

    Abstract: CDC111 CDCLVD110 CDCLVP110 CDCVF111 SN65LVDS101 SN65LVDT100 SN65LVDT122 SN65LVDT33 SN64LVDS33
    Text: Application Report SCAA059 – March 2003 AC-Coupling Between Differential LVPECL, LVDS, HSTL, and CML Kal Mustafa/Chris Sterzik High Performance Analog ABSTRACT This report provides a quick reference of ac-coupling techniques for interfacing between different logic levels. The four differential signaling levels found in this report are lowvoltage positive-referenced emitter coupled logic LVPECL , low-voltage differential


    Original     		PDF SCAA059 CML Vterm CDC111 CDCLVD110 CDCLVP110 CDCVF111 SN65LVDS101 SN65LVDT100 SN65LVDT122 SN65LVDT33 SN64LVDS33

    SCAA056

    Abstract: 325R1 SLLA067 CDC111 CDCVF111 SLLA101 SN65LVDS32 SN65LVDS33 SN65LVDT33
    Text: Application Report SCAA056 –December 2001 Interfacing Between LVPECL, LVDS, and CML High Performance Analog/CDC Kal Mustafa ABSTRACT This application note describes various methods of interfacing between different logic levels. It focuses on interconnection between LVPECL low voltage positive-referenced


    Original     		PDF SCAA056 SCAA056 325R1 SLLA067 CDC111 CDCVF111 SLLA101 SN65LVDS32 SN65LVDS33 SN65LVDT33

    SN65LVD100

    Abstract: Texas Instruments Application Report DC-Coupling TLK1501 SCAA059 scas683 SCAA056 SCAA062 CDC111 CDCVF111 SN65LVDS100
    Text: Application Report SCAA062 – March 2003 DC-Coupling Between Differential LVPECL, LVDS, HSTL, and CM Kal Mustafa / Chris Sterzik High Performance Analog ABSTRACT This report describes various methods of interfacing different logic levels. The focus is dccoupling between the following differential signaling: LVPECL low-voltage positivereferenced emitter coupled logic , LVDS (low-voltage differential signals), HSTL (highspeed transceiver logic), and CML (current-mode logic). The report discusses sixteen


    Original     		PDF SCAA062 SN65LVD100 Texas Instruments Application Report DC-Coupling TLK1501 SCAA059 scas683 SCAA056 SCAA062 CDC111 CDCVF111 SN65LVDS100