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    MC100EP52 EQUIVALENT Search Results

    MC100EP52 EQUIVALENT Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMP89FS60AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP64-P-1010-0.50E Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS63AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP52-P-1010-0.65 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS60BFG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP64-1414-0.80-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS63BUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP52-1010-0.65-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS62AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP44-P-1010-0.80A Visit Toshiba Electronic Devices & Storage Corporation

    MC100EP52 EQUIVALENT Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    MC100EP52

    Abstract: HEP52 KEP52 MC100 MC10EP52 MC100EP52 equivalent
    Text: MC10EP52, MC100EP52 3.3V / 5V ECL Differential Data and Clock D Flip−Flop Description The MC10EP/100EP52 is a differential data, differential clock D flip−flop. The device is pin and functionally equivalent to the EL52 device. Data enters the master portion of the flip−flop when the clock is


    Original     		PDF MC10EP52, MC100EP52 MC10EP/100EP52 MC10EP52/D MC100EP52 HEP52 KEP52 MC100 MC10EP52 MC100EP52 equivalent

    HEP52

    Abstract: KEP52
    Text: MC10EP52, MC100EP52 3.3V / 5V ECL Differential Data and Clock D Flip−Flop Description The MC10EP/100EP52 is a differential data, differential clock D flip−flop. The device is pin and functionally equivalent to the EL52 device. Data enters the master portion of the flip−flop when the clock is


    Original     		PDF MC10EP52, MC100EP52 MC10EP/100EP52 MC10EP52/D HEP52 KEP52

    KEP52

    Abstract: MC100EP52 HEP52 100ep52 MC100 MC10EP52 spice model transistor
    Text: MC10EP52, MC100EP52 3.3V / 5V ECL Differential Data and Clock D Flip−Flop The MC10EP/100EP52 is a differential data, differential clock D flip−flop. The device is pin and functionally equivalent to the EL52 device. Data enters the master portion of the flip−flop when the clock is


    Original     		PDF MC10EP52, MC100EP52 MC10EP/100EP52 MC10EP52/D KEP52 MC100EP52 HEP52 100ep52 MC100 MC10EP52 spice model transistor

    HEP52

    Abstract: MC100EP52 hep52 transistor
    Text: MC10EP52, MC100EP52 3.3V / 5V ECL Differential Data and Clock D Flip-Flop Description The MC10EP/100EP52 is a differential data, differential clock D flip−flop. The device is pin and functionally equivalent to the EL52 device. Data enters the master portion of the flip−flop when the clock is


    Original     		PDF MC10EP52, MC100EP52 MC10EP/100EP52 MC10EP52/D HEP52 MC100EP52 hep52 transistor

    MC100EP52

    Abstract: ECL D flip flop HEP52 248C2 KEP52 MC100 MC10EP52 g330
    Text: MC10EP52, MC100EP52 3.3V / 5V ECL Differential Data and Clock D Flip-Flop Description The MC10EP/100EP52 is a differential data, differential clock D flip−flop. The device is pin and functionally equivalent to the EL52 device. Data enters the master portion of the flip−flop when the clock is


    Original     		PDF MC10EP52, MC100EP52 MC10EP/100EP52 MC10EP52/D MC100EP52 ECL D flip flop HEP52 248C2 KEP52 MC100 MC10EP52 g330

    MC100EP52

    Abstract: HEP52 KEP52 MC100 MC10EP52
    Text: MC10EP52, MC100EP52 3.3V / 5V ECL Differential Data and Clock D Flip−Flop Description The MC10EP/100EP52 is a differential data, differential clock D flip−flop. The device is pin and functionally equivalent to the EL52 device. Data enters the master portion of the flip−flop when the clock is


    Original     		PDF MC10EP52, MC100EP52 MC10EP/100EP52 MC10EP52/D MC100EP52 HEP52 KEP52 MC100 MC10EP52

    KEP52

    Abstract: HEP52 MC100EP52 bd 3055 MC10EP52 100EP52
    Text: MC10EP52, MC100EP52 3.3V / 5VĄECL Differential Data and Clock D Flip-Flop The MC10EP/100EP52 is a differential data, differential clock D flip–flop. The device is pin and functionally equivalent to the EL52 device. Data enters the master portion of the flip–flop when the clock is


    Original     		PDF MC10EP52, MC100EP52 MC10EP/100EP52 r14525 MC10EP52/D KEP52 HEP52 MC100EP52 bd 3055 MC10EP52 100EP52

    DSLAM drawing

    Abstract: T Flip-Flop MC100EP52 MAX9381 MAX9381ESA MAX9381EUA TRANSISTOR 30GHZ
    Text: 19-2397; Rev 0; 4/02 Lowest Power 3.0GHz ECL/PECL Differential Data and Clock D Flip-Flop The MAX9381 differential data, differential clock D flipflop is pin compatible with the ON Semiconductor MC100EP52, with the added benefit of a wider supplyvoltage range from 2.25V to 5.5V and 25% lower supply


    Original     		PDF MAX9381 MC100EP52, MAX9381 DSLAM drawing T Flip-Flop MC100EP52 MAX9381ESA MAX9381EUA TRANSISTOR 30GHZ

    MC100EP52

    Abstract: No abstract text available
    Text: 19-2397; Rev 0; 4/02 Lowest Power 3.0GHz ECL/PECL Differential Data and Clock D Flip-Flop The MAX9381 differential data, differential clock D flipflop is pin compatible with the ON Semiconductor MC100EP52, with the added benefit of a wider supplyvoltage range from 2.25V to 5.5V and 25% lower supply


    Original     		PDF MAX9381 MC100EP52, 21-0036J MAX9381ESA-T MAX9381EUA MAX9381EUA-T MAX9381EUA+ MC100EP52

    ps123

    Abstract: MC100EP52
    Text: 19-2397; Rev 0; 4/02 Lowest Power 3.0GHz ECL/PECL Differential Data and Clock D Flip-Flop The MAX9381 differential data, differential clock D flipflop is pin compatible with the ON Semiconductor MC100EP52, with the added benefit of a wider supplyvoltage range from 2.25V to 5.5V and 25% lower supply


    Original     		PDF MAX9381 MC100EP52, 21-0036J MAX9381ESA-T MAX9381EUA MAX9381EUA-T ps123 MC100EP52

    MC100EP52

    Abstract: No abstract text available
    Text: 19-2397; Rev 0; 4/02 Lowest Power 3.0GHz ECL/PECL Differential Data and Clock D Flip-Flop The MAX9381 differential data, differential clock D flipflop is pin compatible with the ON Semiconductor MC100EP52, with the added benefit of a wider supplyvoltage range from 2.25V to 5.5V and 25% lower supply


    Original     		PDF MAX9381 MC100EP52, MAX9381 MC100EP52

    motorola HEP cross reference

    Abstract: EPT 4045 KPT23 motorola HEP 320 cross reference vef 202 manual KEP52 MC10EP016 HEP 801 hep51 HEP64
    Text: BR1513/D Rev. 2, Apr-2001 ECLinPS Plus Device Data ECLinPS Plus Device Data Advanced ECL in Picoseconds BR1513/D Rev. 2, Apr–2001  SCILLC, 2001 Previous Edition  2000 “All Rights Reserved” ECLinPS, ECLinPS Lite, and ECLinPS Plus are trademarks of Semiconductor Components Industries, LLC.


    Original     		PDF BR1513/D Apr-2001 r14525 DLD601 motorola HEP cross reference EPT 4045 KPT23 motorola HEP 320 cross reference vef 202 manual KEP52 MC10EP016 HEP 801 hep51 HEP64

    mosfet triggering circuit USING TL494

    Abstract: controller for PWM fan tl494 TIP35C TIP36C sub amplifier circuit diagram 74ls TTL family UC3842 variable voltage smps design with TL431 Buck converter with sg3526 UC3842 smps design with TL431 MC44608P40 equivalent TRANSISTOR MPS2112 MC3364D
    Text: SG388/D Rev. 3, May-2001 Master Components Selector Guide PUBLICATION ORDERING INFORMATION NORTH AMERICA Literature Fulfillment: Literature Distribution Center for ON Semiconductor P.O. Box 5163, Denver, Colorado 80217 USA Phone: 303-675-2175 or 800-344-3860 Toll Free USA/Canada


    Original     		PDF SG388/D May-2001 The422-3781 r14525 SG388/D mosfet triggering circuit USING TL494 controller for PWM fan tl494 TIP35C TIP36C sub amplifier circuit diagram 74ls TTL family UC3842 variable voltage smps design with TL431 Buck converter with sg3526 UC3842 smps design with TL431 MC44608P40 equivalent TRANSISTOR MPS2112 MC3364D

    2N6284 inverter schematic diagram

    Abstract: NTD18N06 MKP9V160 sine wave inverter tl494 circuit diagram ECL IC NAND adp3121 DARLINGTON TRANSISTOR ARRAY ezairo MC74HC4538 TIP142 6403 F
    Text: ON Semiconductor Master Components Selector Guide AC−DC Controllers and Regulators; Amplifiers and Comparators; Analog Switches; Bipolar Transistors; Clock and Data Distribution; Clock Generation; Custom; DC−DC Controllers, Converters, and Regulators; Digital


    Original     		PDF SG388/D 2N6284 inverter schematic diagram NTD18N06 MKP9V160 sine wave inverter tl494 circuit diagram ECL IC NAND adp3121 DARLINGTON TRANSISTOR ARRAY ezairo MC74HC4538 TIP142 6403 F