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    LVDS PIN Search Results

    LVDS PIN Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    CS-DSDMDB09MF-010 Amphenol Cables on Demand Amphenol CS-DSDMDB09MF-010 9-Pin (DB9) Deluxe D-Sub Cable - Copper Shielded - Male / Female 10ft Datasheet
    CS-DSDMDB15MF-002.5 Amphenol Cables on Demand Amphenol CS-DSDMDB15MF-002.5 15-Pin (DB15) Deluxe D-Sub Cable - Copper Shielded - Male / Female 2.5ft Datasheet
    CS-DSDMDB15MM-025 Amphenol Cables on Demand Amphenol CS-DSDMDB15MM-025 15-Pin (DB15) Deluxe D-Sub Cable - Copper Shielded - Male / Male 25ft Datasheet
    CS-DSDMDB25MM-010 Amphenol Cables on Demand Amphenol CS-DSDMDB25MM-010 25-Pin (DB25) Deluxe D-Sub Cable - Copper Shielded - Male / Male 10ft Datasheet
    CS-DSDMDB37MM-002.5 Amphenol Cables on Demand Amphenol CS-DSDMDB37MM-002.5 37-Pin (DB37) Deluxe D-Sub Cable - Copper Shielded - Male / Male 2.5ft Datasheet

    LVDS PIN Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Untitled

    Abstract: No abstract text available
    Text: DS90LV001 DS90LV001 800 Mbps LVDS Buffer Literature Number: SNLS067D DS90LV001 800 Mbps LVDS Buffer General Description The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In many large systems, signals are distributed across backplanes, and one


    Original     		PDF DS90LV001 DS90LV001 SNLS067D DS90/clocks

    MAX9174

    Abstract: MAX9174ETB MAX9174EUB MAX9175 MAX9175ETB MAX9175EUB MAX9176
    Text: 19-2827; Rev 0; 4/03 670MHz LVDS-to-LVDS and Anything-to-LVDS 1:2 Splitters Features ♦ 1.0ps RMS Jitter (max) at 670MHz The MAX9174 has a fail-safe LVDS input and LVDS outputs. The MAX9175 has an anything differential input (CML/LVDS/LVPECL) and LVDS outputs. The outputs


    Original     		PDF 670MHz 670MHz MAX9174 MAX9175 MAX9175 MAX9174/MAX9175 MO229 MAX9174ETB MAX9174EUB MAX9175ETB MAX9175EUB MAX9176

    Untitled

    Abstract: No abstract text available
    Text: 19-2757; Rev 0; 1/03 670MHz LVDS-to-LVDS and Anything-to-LVDS 2:1 Multiplexers Features ♦ 1.0ps RMS Jitter (max) at 670MHz The MAX9176 has fail-safe LVDS inputs and an LVDS output. The MAX9177 has “anything” differential inputs (CML/LVDS/LVPECL) and an LVDS output. The output


    Original     		PDF 670MHz 670MHz MAX9176 MAX9177 MAX9177 MAX9177) MO229 T1033-1

    86112A

    Abstract: DS90LV001 hp 8133A CB22 DS90LV047A LVDS001EVK SD-22 AN-905 stripline pcb FR4 microstrip stub
    Text: LVDS – LVDS Buffer Evaluation Board LVDS001EVK Revision 1.0 April 2001 LVDS001EVK.DOC The LVDS – LVDS Buffer Evaluation Board The LVDS – LVDS Buffer Evaluation Board is used to demonstrate the use and performance of the DS90LV001 device. Input LVDS or LVPECL signals or complementary signals from a signal generator can be probed


    Original     		PDF LVDS001EVK DS90LV001 DS90LV001 RC0805 CC0805 86112A hp 8133A CB22 DS90LV047A SD-22 AN-905 stripline pcb FR4 microstrip stub

    Untitled

    Abstract: No abstract text available
    Text: LVDS – LVDS Buffer Evaluation Board LVDS001EVK Revision 1.0 April 2001 LVDS001EVK.DOC The LVDS – LVDS Buffer Evaluation Board The LVDS – LVDS Buffer Evaluation Board is used to demonstrate the use and performance of the DS90LV001 device. Input LVDS or LVPECL signals or complementary signals from a signal generator can be probed


    Original     		PDF LVDS001EVK DS90LV001 DS90LV001

    MAX9176

    Abstract: No abstract text available
    Text: 19-2757; Rev 0; 1/03 670MHz LVDS-to-LVDS and Anything-to-LVDS 2:1 Multiplexers Features ♦ 1.0ps RMS Jitter (max) at 670MHz The MAX9176 has fail-safe LVDS inputs and an LVDS output. The MAX9177 has “anything” differential inputs (CML/LVDS/LVPECL) and an LVDS output. The output


    Original     		PDF 670MHz 670MHz MAX9176 MAX9177 MAX9177 MAX9177) MO229 T1033-1

    2500TM

    Abstract: signal path designer
    Text: DS90LV001 3.3V LVDS-LVDS Buffer General Description The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In many large systems, signals are distributed across backplanes, and one of the limiting factors for system speed is the ’stub length’ or


    Original     		PDF DS90LV001 DS90LV001, ANSI/TIA/EIA-644-A 5-Aug-2002] 2500TM signal path designer

    DS90LV001

    Abstract: DS90LV001TLD DS90LV001TM M08A
    Text: DS90LV001 3.3V LVDS-LVDS Buffer General Description The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In many large systems, signals are distributed across backplanes, and one of the limiting factors for system speed is the ’stub length’ or


    Original     		PDF DS90LV001 DS90LV001 DS90LV001, DS90LV001TLD DS90LV001TM M08A

    453 8pin ic

    Abstract: 453 8pin smb and rj45 cable 558310-1 CB22 quad single supply 50 Ohm Line Drivers LVDS connector 30 PINs 1 inch header AN-905 LVDS 30 pin connector cable banana jack footprint
    Text: LVDS Flow Through Evaluation Boards LVDS47/48EVK Revision 1.0 January 2000 6.0.0 LVDS Flow Through Evaluation Boards 6.1.0 The Flow Through LVDS Evaluation Board The Flow Through LVDS Evaluation Board The Flow Through LVDS Evaluation Board is used to measure LVDS signaling performance over different media.


    Original     		PDF LVDS47/48EVK DS90LV047A/048A RC0805 CC0805 LVDS47/48PCB 453 8pin ic 453 8pin smb and rj45 cable 558310-1 CB22 quad single supply 50 Ohm Line Drivers LVDS connector 30 PINs 1 inch header AN-905 LVDS 30 pin connector cable banana jack footprint

    2500TM

    Abstract: signal path designer
    Text: DS90LV001 3.3V LVDS-LVDS Buffer General Description The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In many large systems, signals are distributed across backplanes, and one of the limiting factors for system speed is the ’stub length’ or


    Original     		PDF DS90LV001 DS90LV001, rec00 DS90LV001TM lv001tm LV001 DS90LV001TMX 2500TM signal path designer

    DS91C176

    Abstract: DS91C176TMA DS91D176 DS91D176TMA M08A 1200V
    Text: DS91D176/DS91C176 Multipoint-LVDS M-LVDS Transceivers General Description The DS91C176 and DS91D176 are high-speed M-LVDS differential transceivers designed for multipoint applications with multiple drivers or receivers. Multipoint LVDS (M-LVDS) is a new bus interface standard (TIA/EIA-899) based on LVDS but


    Original     		PDF DS91D176/DS91C176 DS91C176 DS91D176 TIA/EIA-899) DS91C176TMA DS91D176TMA M08A 1200V

    DS90LV001

    Abstract: DS90LV001TLD DS90LV001TM M08A
    Text: DS90LV001 3.3V LVDS-LVDS Buffer General Description The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In many large systems, signals are distributed across backplanes, and one of the limiting factors for system speed is the "stub length" or


    Original     		PDF DS90LV001 DS90LV001 DS90LV001, CSP-9-111S2) CSP-9-111S2. DS90LV001TLD DS90LV001TM M08A

    HP70004A

    Abstract: Signal Path designer HP708
    Text: January 2001 DS90LV001 3.3V LVDS-LVDS Buffer General Description The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In many large systems, signals are distributed across backplanes, and one of the limiting factors for system speed is the ’stub length’ or


    Original     		PDF DS90LV001 DS90LV001, wil49 HP70004A Signal Path designer HP708

    sublvds to lvds

    Abstract: sublvds sub-lvds TN1210 sublvds lvds c2 sub HSTL18D
    Text: Sub-LVDS Signaling Using Lattice Devices July 2010 Technical Note TN1210 Introduction Sub-LVDS is a reduced-voltage form of LVDS signaling, very similar to LVDS. Being similar to LVDS, Lattice FPGA devices can support the sub-LVDS signaling with other differential I/O standards already supported as part of the


    Original     		PDF TN1210 SSTL18D 1-800-LATTICE sublvds to lvds sublvds sub-lvds TN1210 sublvds lvds c2 sub HSTL18D

    SCAN50C400

    Abstract: SCAN50C400UT
    Text: BR4004_5GIGV2 1/9/04 1:03 PM Page 1 SCAN50C400-Quad 1.25/2.5/5.0 Gbps backplane SerDes SCLK Channel 1, 2 Bist test pattern PLL LVDS input register F I F O LVDS transmit LVDS input register F I F O LVDS recieve LVDS output register F I F O LVDS transmit Serializer


    Original     		PDF BR4004 SCAN50C400-Quad SCAN50C400 SCAN50C400UT 25G/2 EVM50C400 SCAN50C400UT

    INTRINSIC SAFE CIRCUIT

    Abstract: multidrop AN4007 MAX9169 MAX9218 MAX9242 MAX9244 MAX9246 MAX9248 386KB
    Text: Maxim > App Notes > HIGH-SPEED INTERCONNECT Keywords: LVDS, LVDS multiple-drop bus, LVDS Mux, Fail-safe, Common Mode biasing, resistor tolerance, LVDS receiver biasing Feb 23, 2007 APPLICATION NOTE 4007 Robust, Fail-Safe Biasing Circuit for AC-Coupled Multidrop LVDS Bus


    Original     		PDF MAX9169: MAX9218: MAX9242: MAX9244: MAX9246: MAX9248: MAX9254: AN4007, APP4007, Appnote4007, INTRINSIC SAFE CIRCUIT multidrop AN4007 MAX9169 MAX9218 MAX9242 MAX9244 MAX9246 MAX9248 386KB

    hp mini laptop MOTHERBOARD pcb CIRCUIT diagram

    Abstract: RM10-18 DS90LV032BTM hp laptop MOTHERBOARD pcb CIRCUIT diagram hp dv DS90LV027ATM marking 26C31 hp laptop display LVDS connector pins laptop display fpd-link hp laptop display LVDS connector pins datasheet hp laptop MOTHERBOARD pcb CIRCUIT diagram
    Text: LVDS Owner’s Manual A General Design Guide for National’s Low Voltage Differential Signaling LVDS and Bus LVDS Products 2nd Edition Revision 2.0 — Spring 2000 Moving Info with LVDS LVDS Owner’s Manual Table of Contents CHAPTER 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1


    Original     		PDF 18c/1D S-12123 hp mini laptop MOTHERBOARD pcb CIRCUIT diagram RM10-18 DS90LV032BTM hp laptop MOTHERBOARD pcb CIRCUIT diagram hp dv DS90LV027ATM marking 26C31 hp laptop display LVDS connector pins laptop display fpd-link hp laptop display LVDS connector pins datasheet hp laptop MOTHERBOARD pcb CIRCUIT diagram

    Cat3 Cable 40 pair

    Abstract: LVDS connector 26 pins LVDS connector 40 pins 10ELT20 74LVT125
    Text: LVDS Advantages Chapter 2 2.0.0 LVDS ADVANTAGES 2.1.0 LVDS ELECTRICAL CHARACTERISTICS LVDS current-mode, low-swing outputs mean that LVDS can drive at high speeds up to several hundred Mbps over short distances . If high speed differential design techniques are used, signal noise and electromagnetic interference (EMI) can also be reduced with LVDS because of:


    Original     		PDF 350mV) 50V/0 Cat3 Cable 40 pair LVDS connector 26 pins LVDS connector 40 pins 10ELT20 74LVT125

    DS91C176

    Abstract: DS91C176TMA DS91D176 DS91D176TMA M08A 1200V
    Text: DS91D176/DS91C176 Multipoint-LVDS M-LVDS Transceivers General Description The DS91C176 and DS91D176 are high-speed M-LVDS differential transceivers designed for multipoint applications with multiple drivers or receivers. Multipoint LVDS (M-LVDS) is a new bus interface standard (TIA/EIA-899) based on


    Original     		PDF DS91D176/DS91C176 DS91C176 DS91D176 TIA/EIA-899) CSP-9-111S2) CSP-9-111S2. DS91C176TMA DS91D176TMA M08A 1200V

    Untitled

    Abstract: No abstract text available
    Text: DS90LV001 www.ti.com SNLS067E – JANUARY 2001 – REVISED APRIL 2013 DS90LV001 800 Mbps LVDS Buffer Check for Samples: DS90LV001 FEATURES DESCRIPTION • • • • • • The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In


    Original     		PDF DS90LV001 SNLS067E DS90LV001 ANSI/TIA/EIA-644-A

    Untitled

    Abstract: No abstract text available
    Text: MAX9376 LVDS/Anything-to-LVPECL/LVDS Dual Translator General Description The MAX9376 is a fully differential, high-speed, LVDS/ anything-to-LVPECL/LVDS dual translator designed for signal rates up to 2GHz. One channel is LVDS/ anything-to-LVPECL translator and the other channel


    Original     		PDF MAX9376 MAX9376 MAX9376â 100mV.

    DS91C176

    Abstract: DS91C176TMA DS91D176 DS91D176TMA M08A
    Text: DS91D176/DS91C176 Multipoint-LVDS M-LVDS Transceivers General Description The DS91C176 and DS91D176 are high-speed M-LVDS differential transceivers designed for multipoint applications with multiple drivers or receivers. Multipoint LVDS (M-LVDS) is a new bus interface standard (TIA/EIA-899) based on


    Original     		PDF DS91D176/DS91C176 DS91C176 DS91D176 TIA/EIA-899) CSP-9-111S2) DS91C176TMA DS91D176TMA M08A

    LVDS connector 40 pins

    Abstract: ttl 7484 40574 LVDS connector 26 pins 74LVT125 DS90LV017A 10ELT20 speed manage transmitter receiver
    Text: LVDS Advantages Chapter 2 2.0.0 LVDS ADVANTAGES 2.1.0 LVDS ELECTRICAL CHARACTERISTICS LVDS current-mode, low-swing outputs mean that LVDS can drive at high-speeds up to several hundred or even thousands of Mbps over short distances . If high-speed differential design techniques are used,


    Original     		PDF 350mV) 00V/0 22Total Cost510 LVDS connector 40 pins ttl 7484 40574 LVDS connector 26 pins 74LVT125 DS90LV017A 10ELT20 speed manage transmitter receiver

    LV001

    Abstract: No abstract text available
    Text: DS90LV001 www.ti.com SNLS067E – JANUARY 2001 – REVISED APRIL 2013 DS90LV001 800 Mbps LVDS Buffer Check for Samples: DS90LV001 FEATURES DESCRIPTION • • • • • • The DS90LV001 LVDS-LVDS Buffer takes an LVDS input signal and provides an LVDS output signal. In


    Original     		PDF DS90LV001 SNLS067E DS90LV001 ANSI/TIA/EIA-644-A LV001