Part Number
    Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    026C TRANSISTOR Search Results

    026C TRANSISTOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    BLA1011-300
    Rochester Electronics LLC BLA1011-300 - 300W LDMOS Avionics Power Transistor PDF Buy
    54F151LM/B
    Rochester Electronics LLC 54F151 - Multiplexer, 1-Func, 8 Line Input, TTL PDF Buy
    ICL7667MJA
    Rochester Electronics LLC ICL7667 - Buffer/Inverter Based MOSFET Driver, CMOS, CDIP8 PDF Buy
    93L422ADM/B
    Rochester Electronics LLC 93L422A - 256 x 4 TTL SRAM PDF Buy
    54F151/BEA
    Rochester Electronics LLC 54F151 - Multiplexer, 1-Func, 8 Line Input, TTL, CDIP16 - Dual marked (M38510/33901BEA) PDF Buy

    026C TRANSISTOR Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    CI 74LS04

    Abstract: TCD106C transistor ti41 026c transistor IC - 74LS04 IC 74LS04 E 74LS04 ic 74LS04 logic symbol 74ls04 power dissipation TI-490
    Contextual Info: TOSHIBA -CLOGIC/MEMORYD- 90 9 7 24 8 T OS HIB A b7 ^ 1 ^ 0 ^ 7 2 4 0 G D G iS b l L OGIC/MEMORY TCD106C CCD IMAGE SENSOR CCD (Charge Coupled Device) 67C 09561 j/ T-41-55 The TCD106C is a high sensitivity 5000 elements linear image sensor. The sensor is designed for Facsimile, OCR,


    OCR Scan
    TCD106C T-41-55 TCD106C 4D22F 35i00 mX5000) CI 74LS04 transistor ti41 026c transistor IC - 74LS04 IC 74LS04 E 74LS04 ic 74LS04 logic symbol 74ls04 power dissipation TI-490 PDF

    MTP23PO6

    Abstract: PID control pwm KD 2107 WHAT IS BY 028F LMT100 028F P16C56 United Detector Technology 020D lm358 sum pid dc motor microchip an
    Contextual Info: Intelligent Remote Positioner AN531 Intelligent Remote Positioner Motor Control Author: Steven Frank - Vesta Technology Inc. The commanded positions are presented to the PIC16C5X via a microwire type protocol at bit-rates of up to 50kb/s for the 4 MHz part. As currently implemented


    Original
    AN531 PIC16C5X 50kb/s MTP23PO6 PID control pwm KD 2107 WHAT IS BY 028F LMT100 028F P16C56 United Detector Technology 020D lm358 sum pid dc motor microchip an PDF

    BV 202 0159

    Abstract: lm358 sum AN531 dc motor speed control lm358 PID control servo 16C56 LM7805 PIC16C56 MTP23PO6 1N4001
    Contextual Info: AN531 Intelligent Remote Positioner Motor Control Author: Steven Frank Vesta Technology Inc. INTRODUCTION The excellent cost/performance ratio of the PIC16C5X makes it well suited as a low-cost proportional D.C. actuator controller. This application note depicts a


    Original
    AN531 PIC16C5X PIC16C5X BV 202 0159 lm358 sum AN531 dc motor speed control lm358 PID control servo 16C56 LM7805 PIC16C56 MTP23PO6 1N4001 PDF

    MC144105

    Abstract: 68HC05 68HC05K0 AN463 IN4148 MC68HC05K0 3BE4 ir remote control transmitter
    Contextual Info: Order this document as AN463/D MOTOROLA SEMICONDUCTOR APPLICATION NOTE AN463 68HC05K0 Infra-red Remote Control Tony Breslin, MCU Applications Group, Motorola Ltd., East Kilbride, Scotland The MC68HC05K0 is a low cost, low pin count single chip microcomputer with 504 bytes of user


    Original
    AN463/D AN463 68HC05K0 MC68HC05K0 68HC05K 16-pin 68HC05 15-stage MC144105 AN463 IN4148 3BE4 ir remote control transmitter PDF

    4X4 HEX KEY PAD

    Abstract: keypad membrane 4X4 4x4 hex keypad with microcontroller 4x4 hex keypad hex keypad 4-DIGIT 7-SEGMENT LED DISPLAY AN529 LTC3710G 061c 065B
    Contextual Info: AN529 Multiplexing LED Drive and a 4x4 Keypad Sampling Author: drive of the LEDs is possible, because of the high sink and source capabilities of PIC16C5X microcontroller, thus eliminating the use of an external drive transistor, and results in a reduction in both cost and complexity of


    Original
    AN529 PIC16C5X PIC16C5X 4X4 HEX KEY PAD keypad membrane 4X4 4x4 hex keypad with microcontroller 4x4 hex keypad hex keypad 4-DIGIT 7-SEGMENT LED DISPLAY AN529 LTC3710G 061c 065B PDF

    uP1514

    Abstract: CD4066 PIN DIAGRAM CD4066 DATASHEET CD4066 CD4066 Types HARRIS CD4066 CD4066 equivalent 988080 analog transistor a608 A608
    Contextual Info: Harris Semiconductor No. AN9703.1 Harris Digital August 1997 Interfacing a Harris CDP68HC05 with an I2C Serial DAC and the Port A Tone Options Author: Christopher Mazzanti Introduction MAX519. Since a full implementation of the I2C bus protocol as defined by Phillips is beyond the scope of this application


    Original
    AN9703 CDP68HC05 MAX519. MAX517 MAX517 6000ns. 100kHz 4000ns uP1514 CD4066 PIN DIAGRAM CD4066 DATASHEET CD4066 CD4066 Types HARRIS CD4066 CD4066 equivalent 988080 analog transistor a608 A608 PDF

    4X4 HEX KEY PAD

    Abstract: 4x4 hex keypad hex keypad keypad 4x4 7 segment display led display alarm clock ma 1042 4x4 matrix keypad and diagram simple 4x4 keypad 4x4 hex keypad with microcontroller 4X4 HEX KEY PAD with microcontroller 7 segment display 4x4 keyboard
    Contextual Info: Multiplexing LED Drive and a 4x4 Keypad Sampling AN529 Multiplexing LED Drive and a 4x4 Keypad Sampling Typically applications having LEDs and keypads also keep track of real time, in order to synchronize certain key events. An Industrial Clock/Timer example has


    Original
    AN529 4X4 HEX KEY PAD 4x4 hex keypad hex keypad keypad 4x4 7 segment display led display alarm clock ma 1042 4x4 matrix keypad and diagram simple 4x4 keypad 4x4 hex keypad with microcontroller 4X4 HEX KEY PAD with microcontroller 7 segment display 4x4 keyboard PDF

    nf 922

    Abstract: 1E86 2N3456 equivalent 2N3456 transistor 2N3456 2N3456 2n2219 FLUKE 79 -3 -3001 royal ohm chip resistor 0603 LM134 334 cm 0565
    Contextual Info: AN611 Resistance and Capacitance Meter Using a PIC16C622 Author: This family of devices also introduce on-chip brown-out detect circuitry and a filter on the reset input MCLR to the PIC16CXX mid-range microcontrollers. Brown-out Detect holds the device in reset while VDD is below the


    Original
    AN611 PIC16C622 PIC16CXX PIC16C62X DS00611A-page nf 922 1E86 2N3456 equivalent 2N3456 transistor 2N3456 2N3456 2n2219 FLUKE 79 -3 -3001 royal ohm chip resistor 0603 LM134 334 cm 0565 PDF

    ZPD 3V3

    Abstract: PIC16F84A LED switch debouncing PIC16F84A Free Projects of LED diode zener zpd 3v3 ZPD ITT ITT ZPD 7.5 BY304 DIODE 0A91 LM032LT 3014 LED
    Contextual Info: M AN689 Engineer’s Assistant Using a PIC16F84A Author: Voja Antonic PC Press INTRODUCTION This compact instrument is intended to be a digital laboratory tool for hardware and, in some cases, software debugging. It contains four instruments in one unit: logic probe, single channel logic state analyzer, frequency counter and serial code receiver.


    Original
    AN689 PIC16F84A PIC16F84A ZPD 3V3 PIC16F84A LED switch debouncing PIC16F84A Free Projects of LED diode zener zpd 3v3 ZPD ITT ITT ZPD 7.5 BY304 DIODE 0A91 LM032LT 3014 LED PDF

    85713 B

    Abstract: cir 2272 2N3456 nf 922 disadvantages of Single-Slope 022d 2N3456 transistor 85713 LM134 334 AN611
    Contextual Info: M AN611 Resistance and Capacitance Meter Using a PIC16C622 Author: This family of devices also introduce on-chip brown-out reset circuitry and a filter on the reset input MCLR to the PIC16CXXX mid-range microcontrollers. Brown-out Reset holds the device in reset while VDD is below the


    Original
    AN611 PIC16C622 PIC16CXXX PIC16C62X 85713 B cir 2272 2N3456 nf 922 disadvantages of Single-Slope 022d 2N3456 transistor 85713 LM134 334 AN611 PDF

    SCR 2000

    Abstract: wimax "Rf Front-End" C6000 DDR2-667 TMS320C6000 TMS320TCI6487 TMS320TCI6488 TCI6487 TCI6488 Search Accelerator
    Contextual Info: TMS320TCI6487 TMS320TCI6488 Communications Infrastructure Digital Signal Processor www.ti.com SPRS358F – APRIL 2007 – REVISED AUGUST 2008 1 Features • • • • • • • • • • • High-Performance Communications Infrastructure DSP TCI6487/8


    Original
    TMS320TCI6487 TMS320TCI6488 SPRS358F TCI6487/8) 32-Bit TMS320C64x 16-Bit) TMS320C64x+ SCR 2000 wimax "Rf Front-End" C6000 DDR2-667 TMS320C6000 TMS320TCI6487 TMS320TCI6488 TCI6487 TCI6488 Search Accelerator PDF

    C6000

    Abstract: C6474 C64X DDR2-667 TMS320C6000 TMS320C6474 transistor D880 2N1373 D880 voltage regulator BR17
    Contextual Info: TMS320C6474 Multicore Digital Signal Processor www.ti.com SPRS552 – OCTOBER 2008 1 Features • • • • • • • • • High-Performance Multicore DSP C6474 – 1-ns Instruction Cycle Time – 1.0-GHz Clock Rate – Eight 32-Bit Instructions/Cycle


    Original
    TMS320C6474 SPRS552 C6474) 32-Bit TMS320C64x 16-Bit) TMS320C64x+ C6000 C6474 C64X DDR2-667 TMS320C6000 TMS320C6474 transistor D880 2N1373 D880 voltage regulator BR17 PDF

    BR17

    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x+ 16-/32-Bit DDR2-667 BR17 PDF

    7813 Texas Instruments Transistor

    Abstract: TMS320C6000 TMS320C6474 C6000 C6474 C64X DDR2-667 SPRS552H BR17
    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x 16-/32-Bit DDR2-667 7813 Texas Instruments Transistor TMS320C6000 C6000 C6474 C64X SPRS552H BR17 PDF

    2e58

    Abstract: BR17
    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x+ 16-/32-Bit DDR2-667 2e58 BR17 PDF

    D880 TRANSISTOR

    Abstract: A00C equivalent transistor A214 BR17
    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x 16-/32-Bit DDR2-667 D880 TRANSISTOR A00C equivalent transistor A214 BR17 PDF

    D880 TRANSISTOR

    Abstract: transistor a670 ETB-2 TRANSISTOR J 5804 EQUIVALENT D880 voltage regulator 30e8 ETB33 aln1101 CSR 8810 transistor br22
    Contextual Info: TMS320C6474 Multicore Digital Signal Processor www.ti.com SPRS552A – OCTOBER 2008 – REVISED FEBRUARY 2009 1 Features • • • • • • • • • High-Performance Multicore DSP C6474 – 1-ns Instruction Cycle Time – 1.0-GHz Clock Rate – Eight 32-Bit Instructions/Cycle


    Original
    TMS320C6474 SPRS552A C6474) 32-Bit TMS320C64x 16-Bit) TMS320C64x+ D880 TRANSISTOR transistor a670 ETB-2 TRANSISTOR J 5804 EQUIVALENT D880 voltage regulator 30e8 ETB33 aln1101 CSR 8810 transistor br22 PDF

    SCR 2000

    Abstract: CSR 8811 TRANSISTOR J 5804 EQUIVALENT transistor D880 circuit diagram application tms320tci6488cun cba vbusp protocol BR17 murata TMP MODEL CSR 8810 TMS320TCI
    Contextual Info: TMS320TCI6487 TMS320TCI6488 Communications Infrastructure Digital Signal Processor www.ti.com SPRS358G – APRIL 2007 – REVISED JANUARY 2009 1 Features • • • • • • • • • • • High-Performance Communications Infrastructure DSP TCI6487/8


    Original
    TMS320TCI6487 TMS320TCI6488 SPRS358G TCI6487/8) 25-ns 800-MHz 32-Bit TMS320C64x 16-Bit) TMS320C64x+ SCR 2000 CSR 8811 TRANSISTOR J 5804 EQUIVALENT transistor D880 circuit diagram application tms320tci6488cun cba vbusp protocol BR17 murata TMP MODEL CSR 8810 TMS320TCI PDF

    094B

    Abstract: BR17
    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x 16-/32-Bit DDR2-667 094B BR17 PDF

    BR17

    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x 16-/32-Bit DDR2-667 BR17 PDF

    BR17

    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x+ 16-/32-Bit DDR2-667 BR17 PDF

    BR17

    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x+ 16-/32-Bit DDR2-667 BR17 PDF

    SCR 2000

    Abstract: C6474 2e58 BR17
    Contextual Info: TMS320C6474 SPRS552H – OCTOBER 2008 – REVISED APRIL 2011 www.ti.com TMS320C6474 Multicore Digital Signal Processor 1 Features 12 • Key Features – High-Performance Multicore DSP C6474 – Instruction Cycle Time: 0.83 ns (1.2-GHz Device); 1 ns (1-GHz Device); 1.18 ns


    Original
    TMS320C6474 SPRS552H TMS320C6474 C6474) 850-MHz TMS320C64x 16-/32-Bit DDR2-667 SCR 2000 C6474 2e58 BR17 PDF

    SDHC PINOUT

    Abstract: SDHC specification 9S12UF32 SDHC MECHANICAL SDHC memory reader PS3 usb sony ca6E MC9S12UF32 9S12UF32DGV1 0300-03FF
    Contextual Info: MC9S12UF32 System on a Chip Guide V01.05 Original Release Date: 17 JAN 2002 Revised: 03 Dec 2004 TSPG - 8/16 Bit MCU Design, HKG Freescale Semiconductor, Inc. This product has been designed for use in “Commercial” applications. Please see a description below.


    Original
    MC9S12UF32 64-pin 9S12UF32DGV1/D SDHC PINOUT SDHC specification 9S12UF32 SDHC MECHANICAL SDHC memory reader PS3 usb sony ca6E MC9S12UF32 9S12UF32DGV1 0300-03FF PDF