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    AN1568 Search Results

    AN1568 Datasheets (3)

    Part ECAD Model Manufacturer Description Curated Datasheet Type PDF
    AN1568 Motorola AN1568 Interfacing Between LVDS and ECL Original PDF
    AN1568 On Semiconductor Interfacing Between LVDS and ECL Original PDF
    AN1568D On Semiconductor Interfacing Between LVDS and ECL Original PDF

    AN1568 Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    AN1406

    Abstract: AN1568 DL140 MC100EL17 MC100LVEL29 MC100LVEL39 P1596 lvds positive negative
    Text: AN1568 Application Note Interfacing Between LVDS and ECL Revised by Paul Shockman Motorola Applications Engineering 2/99  Motorola, Inc. 1999 5–1 REV 1 AN1568 Interfacing Between LVDS and ECL specifications, the general purpose specification with 250 to


    Original     		PDF AN1568 250mV) AN1568/D DL140 AN1406 AN1568 MC100EL17 MC100LVEL29 MC100LVEL39 P1596 lvds positive negative

    AN1568

    Abstract: DL140 MC100EL17 MC100LVEL17 MC100LVEL39 MC100LVEL90 P1596 DL140-D Nippon capacitors
    Text: AN1568 Application Note Interfacing Between LVDS and ECL Prepared by Andrea Diermeier Motorola Logic Engineering 5/96  Motorola, Inc. 1996 5–1 REV 0 AN1568 Interfacing Between LVDS and ECL Introduction LVDS Levels LVDS Low Voltage Differential Signaling signals are


    Original     		PDF AN1568 DL140 AN1568/D* AN1568/D AN1568 MC100EL17 MC100LVEL17 MC100LVEL39 MC100LVEL90 P1596 DL140-D Nippon capacitors

    AN1406

    Abstract: MC100LVEL13 MC100LVEL14 MC100LVEL17 MC100LVEL29 P1596 AN1568
    Text: AN1568/D Interfacing Between LVDS and ECL Prepared by: Paul Shockman Logic Applications Engineering http://onsemi.com APPLICATION NOTE LVDS outputs require a 100 Ω load between the differential outputs. This load will in addition terminate the 50 Ω controlled impedance lines.


    Original     		PDF AN1568/D r14525 AN1406 MC100LVEL13 MC100LVEL14 MC100LVEL17 MC100LVEL29 P1596 AN1568

    SG86A

    Abstract: SG53A sg72a LVEP17 MC100ELxxx EP809 LVEL40 SLVS TR30 AND8020
    Text: AN1568/D Interfacing Between LVDS and ECL Prepared by: Paul Lee Logic Applications Engineer ON Semiconductor http://onsemi.com APPLICATION NOTE ECL levels Today’s applications typically use ECL devices in the PECL mode. PECL Positive ECL is nothing more than


    Original     		PDF AN1568/D SG86A SG53A sg72a LVEP17 MC100ELxxx EP809 LVEL40 SLVS TR30 AND8020

    CAN split termination

    Abstract: SG86A SG53A AN1568
    Text: AN1568/D Interfacing Between LVDS and ECL Prepared by: Paul Lee Logic Applications Engineer ON Semiconductor http://onsemi.com APPLICATION NOTE ECL levels Today’s applications typically use ECL devices in the PECL mode. PECL Positive ECL is nothing more than


    Original     		PDF AN1568/D r14525 AN1568/D CAN split termination SG86A SG53A AN1568

    EP809

    Abstract: AN1406 EP14 P1596 LVEL16 MC100ELxx AN1568
    Text: AN1568/D Interfacing Between LVDS and ECL Prepared by: Paul Shockman Logic Applications Engineering http://onsemi.com APPLICATION NOTE LVDS outputs require a 100 Ω load between the differential outputs. This load will in addition terminate the 50 Ω controlled impedance lines.


    Original     		PDF AN1568/D r14525 EP809 AN1406 EP14 P1596 LVEL16 MC100ELxx AN1568

    100EL91

    Abstract: MC100EL91 MC100EL91DW MC100EL91DWR2 MC100LVEL91
    Text: MC100EL91 3.3V / 5VĄTriple LVPECL / PECL Input to -5V ECL Output Translator The MC100EL91 is a triple LVPECL / PECL input to ECL output translator. The device receives standard or low voltage differential PECL signals, determined by the VCC supply level, and translates them


    Original     		PDF MC100EL91 MC100EL91 MC100LVEL91. r14525 MC100EL91/D 100EL91 MC100EL91DW MC100EL91DWR2 MC100LVEL91

    E212 transistor

    Abstract: E112 E212 MC100E112 MC100E112FN MC10E112 MC10E112FN MC10E112FNR2 D200-400
    Text: MC10E112, MC100E112 5VĄECL Quad Driver The MC10E/100E112 is a quad driver with two pairs of OR/NOR outputs from each gate, and a common, buffered enable input. Using the data inputs the device can serve as an ECL memory address fan-out driver. Using just the enable input, the device serves as a clock


    Original     		PDF MC10E112, MC100E112 MC10E/100E112 MC10E/100E111 r14525 MC10E112/D E212 transistor E112 E212 MC100E112 MC100E112FN MC10E112 MC10E112FN MC10E112FNR2 D200-400

    AND8020

    Abstract: EL90 MC100EL90 MC100EL90DW MC100EL90DWR2 100EL90
    Text: MC100EL90 -3.3V / -5VĄTriple ECL Input to PECL Output Translator The MC100EL90 is a triple ECL to PECL translator. The device receives either –3.3 V or –5 V differential ECL signals, determined by the VEE supply level, and translates them to standard +5 V differential PECL


    Original     		PDF MC100EL90 MC100EL90 r14525 MC100EL90/D AND8020 EL90 MC100EL90DW MC100EL90DWR2 100EL90

    KPT25

    Abstract: EPT25 MC100EPT25 MC100EPT25D MC100EPT25DR2 MC100EPT25DT MC100EPT25DTR2 KA25 kpt25 alyw
    Text: MC100EPT25 −3.3V / −5V Differential ECL to +3.3V LVTTL Translator The MC100EPT25 is a Differential ECL to LVTTL translator. This device requires +3.3 V, -3.3 V to -5.2 V, and ground. The small outline 8-lead package and the single gate of the EPT25 make it ideal


    Original     		PDF MC100EPT25 MC100EPT25 EPT25 r14525 MC100EPT25/D KPT25 MC100EPT25D MC100EPT25DR2 MC100EPT25DT MC100EPT25DTR2 KA25 kpt25 alyw

    LQFP32

    Abstract: LQFP-32 MC100 MC100EPT622 MC100EPT622FA MC100EPT622FAR2
    Text: MC100EPT622 3.3V LVTTL/LVCMOS to LVPECL Translator The MC100EPT622 is a 10- Bit LVTTL/LVCMOS to LVPECL translator. Because LVPECL Positive ECL levels are used only +3.3 V and ground are required. The device has an OR- ed enable input which can accept either LVPECL (ENPECL) or TTL/LVCMOS inputs


    Original     		PDF MC100EPT622 MC100EPT622 MC100 EPT622 LQFP-32 r14525 MC100EPT622/D LQFP32 LQFP-32 MC100 MC100EPT622FA MC100EPT622FAR2

    marking CODE D2B

    Abstract: MC100E104 MC100E104FN MC100E104FNR2 MC10E104 MC10E104FN MC10E104FNR2 marking D3B ECL IC NAND
    Text: MC10E104, MC100E104 5VĄECL Quint 2ĆInput AND/NAND Gate The MC10E/100E104 is a quint 2-input AND/NAND gate. The function output F is the OR of all five AND gate outputs, while F is the NOR. The Q outputs need not be terminated if only the F outputs are to be


    Original     		PDF MC10E104, MC100E104 MC10E/100E104 MC10E104FN EIA/JESD78 r14525 MC10E104/D marking CODE D2B MC100E104 MC100E104FN MC100E104FNR2 MC10E104 MC10E104FN MC10E104FNR2 marking D3B ECL IC NAND

    KVT23

    Abstract: MC100LVELT23 MC100LVELT23D MC100LVELT23DR2 MC100LVELT23DT
    Text: MC100LVELT23 3.3V Dual Differential LVPECL to LVTTL Translator The MC100LVELT23 is a dual differential LVPECL to LVTTL translator. Because LVPECL Positive ECL levels are used only +3.3 V and ground are required. The small outline 8-lead package and the dual gate design of the LVELT23 makes it ideal for applications which


    Original     		PDF MC100LVELT23 MC100LVELT23 LVELT23 MC100LVELT23/D KVT23 MC100LVELT23D MC100LVELT23DR2 MC100LVELT23DT

    MC100EP90

    Abstract: MC100EP90DT MC100EP90DTR2 MC10EP90 MC10EP90DT MC10EP90DTR2
    Text: MC10EP90, MC100EP90 -3.3V / -5VĄTriple ECL Input to LVPECL/PECL Output Translator The MC10/100EP90 is a TRIPLE ECL TO LVPECL/PECL translator. The device receives differential LVECL or ECL signals and translates them to differential LVPECL or PECL output signals.


    Original     		PDF MC10EP90, MC100EP90 MC10/100EP90 r14525 MC10EP90/D MC100EP90 MC100EP90DT MC100EP90DTR2 MC10EP90 MC10EP90DT MC10EP90DTR2

    MC100LVEL01

    Abstract: MC100LVEL01D 1085 SPICE model
    Text: MC100LVEL01 3.3VĄECL 4-Input OR/NOR The MC100LVEL01 is a 4–input OR/NOR gate. The device is functionally equivalent to the EL01 device and works from a 3.3 V supply. With AC performance similar to the EL01 device, the LVEL01 is ideal for low voltage applications which require the ultimate in


    Original     		PDF MC100LVEL01 MC100LVEL01 LVEL01 KVL01 r14525 MC100LVEL01/D MC100LVEL01D 1085 SPICE model

    KEL04

    Abstract: HL04 HEL04 e104 MC100EL04 MC10EL04 HL-04
    Text: MC10EL04, MC100EL04 5VĄECL 2ĆInput AND/NAND The MC10EL/100EL04 is a 2-input AND/NAND gate. The device is functionally equivalent to the E104 device with higher performance capabilities. With propagation delays and output transition times significantly faster than the E104, the EL04 is ideally suited for those


    Original     		PDF MC10EL04, MC100EL04 MC10EL/100EL04 AND8003/D r14525 MC10EL04/D KEL04 HL04 HEL04 e104 MC100EL04 MC10EL04 HL-04

    N100

    Abstract: NB100LVEP17 NB100LVEP17DT NB100LVEP17DTR2 NB100LVEP17MN TSSOP-20 qfn24 socket N100 transistor QFN-24
    Text: NB100LVEP17 2.5V / 3.3V / 5V ECL Quad Differential Driver/Receiver The NB100LVEP17 is a 4-bit differential line receiver. The design incorporates two stages of gain, internal to the device, making it an excellent choice for use in high bandwidth amplifier applications.


    Original     		PDF NB100LVEP17 NB100LVEP17 r14525 NB100LVEP17/D N100 NB100LVEP17DT NB100LVEP17DTR2 NB100LVEP17MN TSSOP-20 qfn24 socket N100 transistor QFN-24

    KEP05

    Abstract: HEP05 MC100EP05 MC10EP05
    Text: MC10EP05, MC100EP05 3.3V / 5VĄECL 2-Input Differential AND/NAND The MC10/100EP05 is a 2–input differential AND/NAND gate. The device is functionally equivalent to the EL05 and LVEL05 devices. With AC performance much faster than the LVEL05 device, the EP05 is ideal for applications requiring the fastest AC performance


    Original     		PDF MC10EP05, MC100EP05 MC10/100EP05 LVEL05 LVEL05 r14525 MC10EP05/D KEP05 HEP05 MC100EP05 MC10EP05

    EP809

    Abstract: MC100EP809 MC100EP809FA MC100EP809FAG MC100 SY89809L MC100EP809FAR2 MC100EP809FAR2G
    Text: MC100EP809 3.3V 1:9 Differential HSTL/PECL to HSTL Clock Driver with LVTTL Clock Select and Enable http://onsemi.com Description The MC100EP809 is a low skew 1−to−9 differential clock driver, designed with clock distribution in mind, accepting two clock sources into


    Original     		PDF MC100EP809 MC100EP809 MC100EP809/D EP809 MC100EP809FA MC100EP809FAG MC100 SY89809L MC100EP809FAR2 MC100EP809FAR2G

    100EL91

    Abstract: MC100EL91 MC100LVEL91
    Text: MC100EL91 5 V Triple PECL Input to −5 V ECL Output Translator Description The MC100EL91 is a triple PECL input to ECL output translator. The device receives standard voltage differential PECL signals, determined by the VCC supply level, and translates them to differential


    Original     		PDF MC100EL91 MC100EL91 MC100LVEL91. MC100EL91/D 100EL91 MC100LVEL91

    MC10EP016

    Abstract: MC100EP016 MC10E016
    Text: MC10EP016, MC100EP016 3.3V / 5V ECL 8−Bit Synchronous Binary Up Counter The MC10/100EP016 is a high−speed synchronous, presettable, cascadeable 8−bit binary counter. Architecture and operation are the same as the MC10E016 in the ECLinPS family. The counter features internal feedback to TC gated by the TCLD


    Original     		PDF MC10EP016, MC100EP016 MC10/100EP016 MC10E016 MC10EP016/D MC10EP016 MC100EP016

    KVL11

    Abstract: KV11 LVEL11 MC100LVEL11
    Text: MC100LVEL11 3.3V ECL 1:2 Differential Fanout Buffer Description The MC100LVEL11 is a differential 1:2 fanout buffer. The device is functionally similar to the E111 device but with higher performance capabilities. Having within-device skews and output transition times


    Original     		PDF MC100LVEL11 MC100LVEL11 LVEL11 KVL11 MC100LVEL11/D KVL11 KV11

    EP29

    Abstract: MC100EP29 MC10EP29
    Text: MC10EP29, MC100EP29 3.3V / 5V ECL Dual Differential Data and Clock D Flip−Flop With Set and Reset http://onsemi.com Description The MC10/100EP29 is a dual master−slave flip−flop. The device features fully differential Data and Clock inputs as well as outputs.


    Original     		PDF MC10EP29, MC100EP29 MC10/100EP29 MC10/100EL29. MC10EP29/D EP29 MC100EP29 MC10EP29

    KV05

    Abstract: KVL05 MC100EL05 MC100LVEL05 MC100LVEL05MNR4G
    Text: MC100LVEL05 3.3V ECL 2-Input Differential AND/NAND Description The MC100LVEL05 is a 2-input differential AND/NAND gate. The device is functionally equivalent to the MC100EL05 device and operates from a 3.3 V supply voltage. With propagation delays and output transition times equivalent to the EL05, the LVEL05 is ideally


    Original     		PDF MC100LVEL05 MC100LVEL05 MC100EL05 LVEL05 MC100LVEL05/D KV05 KVL05 MC100LVEL05MNR4G