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    NFMJMPC226R0G3D Murata Manufacturing Co Ltd Data Line Filter, Visit Murata Manufacturing Co Ltd
    NFM15PC755R0G3D Murata Manufacturing Co Ltd Feed Through Capacitor, Visit Murata Manufacturing Co Ltd
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    NFM15PC915R0G3D Murata Manufacturing Co Ltd Feed Through Capacitor, Visit Murata Manufacturing Co Ltd
    MP-52RJ11SNNE-100 Amphenol Cables on Demand Amphenol MP-52RJ11SNNE-100 Shielded CAT5e 2-Pair RJ11 Data Cable [AT&T U-Verse & Verizon FiOS Data Cable] - CAT5e PBX Patch Cable with 6P6C RJ11 Connectors (Straight-Thru) 100ft Datasheet

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    MC14049UB

    Abstract: MC14XXXBCL MC14XXXBCP MC14XXXBD
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MC14049UB Hex Buffers L SUFFIX CERAMIC CASE 620 The MC14049UB hex inverter/buffer is constructed with MOS P–channel and N–channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power


    Original     		MC14049UB MC14049UB MC14049UB/D* MC14049UB/D MC14XXXBCL MC14XXXBCP MC14XXXBD PDF

    MC14049UB

    Abstract: C14049UB
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA M C14049UB Hex Buffers L SUFFIX CERAM IC CASE 620 The MC14049UB hex inverter/buffer is constructed with MOS P-channel and N -channel enhancem ent mode devices in a single monolithic structure. This com plem en ta ry MOS device finds prim ary use w here low pow er


    OCR Scan     		C14049UB MC14049UB C14049UB/D MC14049UB/D PDF

    MC14049UB

    Abstract: 14049u MC14049UBCP 14049UBG 14049UB MC14049uB data only 049UB
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P−channel and N−channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB/D 14049u MC14049UBCP 14049UBG 14049UB MC14049uB data only 049UB PDF

    MC14049UB

    Abstract: 14049U mc14049ubcp MC14049uB data only
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P−channel and N−channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB 14049U mc14049ubcp MC14049uB data only PDF

    14049U

    Abstract: MC14049 14049 MC14049UBCP MC14049UB 948F MC14049UBD MC14049UBDR2 MC14049UBDT MC14049UBDTR2
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P–channel and N–channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB r14525 MC14049UB/D 14049U MC14049 14049 MC14049UBCP 948F MC14049UBD MC14049UBDR2 MC14049UBDT MC14049UBDTR2 PDF

    14049U

    Abstract: MC14049UBCP 948F MC14049UB MC14049UBD MC14049UBDR2 MC14049UBDT
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P–channel and N–channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB r14525 MC14049UB/D 14049U MC14049UBCP 948F MC14049UBD MC14049UBDR2 MC14049UBDT PDF

    MC14049U

    Abstract: 14049u MC14049UBCP 948F MC14049UB MC14049UBD MC14049UBDR2 MC14049UBDT 1404-9
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P–channel and N–channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB r14525 MC14049UB/D MC14049U 14049u MC14049UBCP 948F MC14049UBD MC14049UBDR2 MC14049UBDT 1404-9 PDF

    14049UG

    Abstract: No abstract text available
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P−channel and N−channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB MC14049UB/D 14049UG PDF

    Untitled

    Abstract: No abstract text available
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P−channel and N−channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB/D PDF

    14049u

    Abstract: MC14049UBCP 14049 MC14049 MC14049uB data only MC14049UB 948F MC14049UBCPG MC14049UBD MC14049UBDG
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P−channel and N−channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB MC14049UB/D 14049u MC14049UBCP 14049 MC14049 MC14049uB data only 948F MC14049UBCPG MC14049UBD MC14049UBDG PDF

    Untitled

    Abstract: No abstract text available
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P−channel and N−channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB MC14049UB/D PDF

    14049U

    Abstract: MC14049UBCP MC14049UB MC14049uB data only MC14049UBDG 948F MC14049UBCPG MC14049UBD
    Text: MC14049UB Hex Buffers The MC14049UB hex inverter/buffer is constructed with MOS P−channel and N−channel enhancement mode devices in a single monolithic structure. This complementary MOS device finds primary use where low power dissipation and/or high noise immunity is


    Original     		MC14049UB MC14049UB 14049U MC14049UBCP MC14049uB data only MC14049UBDG 948F MC14049UBCPG MC14049UBD PDF

    14049U

    Abstract: C14050B MC14049uB data only lt 7550
    Text: MOTOROLA SC { L O G I C } 6 3 6 7 2 5 2 .MOTOROLA SC L O G IC TS ~ DE | . b3b75SE 007^54^ 9 8 0 7 9 549 D - MC14049UB MC14050B MOTOROLA CMOS SSI HEX BUFFERS (LOW -POW ER C O M P L E M E N T A R Y MOS) T h e M C 1 4 0 4 9 U B h e x in v e r t e r / b u f fe r a n d M C 1 4 0 5 0 B n o n ­


    OCR Scan     		b3b75SE 14049U C14050B MC14049uB data only lt 7550 PDF

    pierce crystal oscillator

    Abstract: Nand gate Crystal Oscillator CMOS 4000 Series family 4000 series logic gate
    Text: AND8053/D Designing Crystal Oscillators with Modern CMOS Gates Prepared by: Fred Zlotnick Applications Manager http://onsemi.com APPLICATION NOTE INTRODUCTION Theory of operation: in nearly all cases, using a gate as an oscillator entails causing the gate to go into class “A” or biased


    Original     		AND8053/D AND8053/D pierce crystal oscillator Nand gate Crystal Oscillator CMOS 4000 Series family 4000 series logic gate PDF

    MC3479 equivalent

    Abstract: MC3479 MC3479FN MC3479P MC3479 stepper motor PLCC20 phoenix stepper motor driver MC3479P B
    Text: Order this data sheat by MC3479/D MOTOROLA m o MC3479 SEMICONDUCTOR TECHNICAL DATA STEPPER MOTOR DRIVER 1 STEPPER MOTOR DRIVER The MC3479 is designed to drive a two-phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing


    Original     		MC3479/D MC3479 MC3479 MC3479 equivalent MC3479FN MC3479P MC3479 stepper motor PLCC20 phoenix stepper motor driver MC3479P B PDF

    C 12 PH Zener diode

    Abstract: MC3479-D MC3479PG C 12 PH diode C 12 PH zener diode datasheet DIODE marking L4 MC3479 single phase dc motor control circuit 1N5221A MC14049UB
    Text: MC3479 Stepper Motor Driver The MC3479 is designed to drive a two−phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing section, two driver−stages for the motor coils, and an output to indicate the Phase A drive state.


    Original     		MC3479 MC3479 MC3479/D C 12 PH Zener diode MC3479-D MC3479PG C 12 PH diode C 12 PH zener diode datasheet DIODE marking L4 single phase dc motor control circuit 1N5221A MC14049UB PDF

    MC3479 equivalent

    Abstract: No abstract text available
    Text: MC3479 Stepper Motor Driver The MC3479 is designed to drive a two−phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing section, two driver−stages for the motor coils, and an output to indicate the Phase A drive state.


    Original     		MC3479 MC3479P MC3479/D MC3479 equivalent PDF

    Nand gate Crystal Oscillator

    Abstract: cmos 4000 series MC14049UB MC74LCXU04 MC74VHCU04 VHCU04
    Text: AND8053/D Designing Crystal Oscillators with Modern CMOS Gates Prepared by: Fred Zlotnick Applications Manager http://onsemi.com APPLICATION NOTE INTRODUCTION Designing a crystal oscillator with modern CMOS gates is difficult with the limited information available. The


    Original     		AND8053/D r14525 Nand gate Crystal Oscillator cmos 4000 series MC14049UB MC74LCXU04 MC74VHCU04 VHCU04 PDF

    1N5221A

    Abstract: MC3479 MC3479 stepper motor MC3479 equivalent MC3479-D MC3479P MC14049UB
    Text: ON Semiconductort MC3479 Stepper Motor Driver The MC3479 is designed to drive a two–phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing section, two driver–stages for the motor coils, and an output to indicate the Phase A drive state.


    Original     		MC3479 MC3479 r14525 MC3479/D 1N5221A MC3479 stepper motor MC3479 equivalent MC3479-D MC3479P MC14049UB PDF

    hc4050

    Abstract: MC14050B "MOTOROLA CMOS 4049 Mc 4049 74hct04a mhc4050
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA M C 54/74H C 4049 M C 54/74H C 4050 Hex B uffers/Logic-Level Down Converters High-Performance Silicon-Gate CMOS T h e M C 5 4 /7 4 H C 4 0 4 9 c o n s is ts o f s ix in v e r tin g b u ffe rs , a n d th e MC54/74HC4050 consists of six noninverting buffers. They are identical in


    OCR Scan     		MC54/74HC4050 MC14049UB MC14050B HC4049 HC4050 74HCT04A DL129 "MOTOROLA CMOS 4049 Mc 4049 mhc4050 PDF

    MC3479 stepper motor

    Abstract: MC3479 equivalent
    Text: ON Semiconductort Back MC3479 Stepper Motor Driver The MC3479 is designed to drive a two–phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing section, two driver–stages for the motor coils, and an output to indicate the Phase A drive state.


    Original     		MC3479 MC3479 r14525 MC3479/D MC3479 stepper motor MC3479 equivalent PDF

    C 12 PH Zener diode

    Abstract: MC3479-D 100-20 diode MC3479 stepper motor zener motorola MC3479 equivalent MC3479 5 volts ZENER DIODE MC14049uB data only Nippon Pulse Motor
    Text: Order this document by MC3479/D MC3479 Stepper Motor Driver The MC3479 is designed to drive a two–phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing section, two driver–stages for the motor coils, and an


    Original     		MC3479/D MC3479 MC3479 C 12 PH Zener diode MC3479-D 100-20 diode MC3479 stepper motor zener motorola MC3479 equivalent 5 volts ZENER DIODE MC14049uB data only Nippon Pulse Motor PDF

    MC3479

    Abstract: MC3479-D MC3479 equivalent 1N5221A MC14049UB MC3479P analog bipolar DRIVER coil ic LM 350 equivalent
    Text: Order this document by MC3479/D MC3479 Stepper Motor Driver The MC3479 is designed to drive a two–phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing section, two driver–stages for the motor coils, and an


    Original     		MC3479/D MC3479 MC3479 MC3479/D* MC3479-D MC3479 equivalent 1N5221A MC14049UB MC3479P analog bipolar DRIVER coil ic LM 350 equivalent PDF

    MC3479FN

    Abstract: No abstract text available
    Text: Order this document by MC3479/D MC3479 Stepper Motor Driver The MC3479 is designed to drive a two–phase stepper motor in the bipolar mode. The circuit consists of four input sections, a logic decoding/sequencing section, two driver–stages for the motor coils, and an


    Original     		MC3479/D MC3479 MC3479 MC3479/D* MC3479FN PDF