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    USING PROGRAMMABLE LOGIC DEVICES Search Results

    USING PROGRAMMABLE LOGIC DEVICES Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    BLM15PX121BH1D Murata Manufacturing Co Ltd FB SMD 0402inch 120ohm POWRTRN Visit Murata Manufacturing Co Ltd
    BLM15PX181SH1D Murata Manufacturing Co Ltd FB SMD 0402inch 180ohm POWRTRN Visit Murata Manufacturing Co Ltd
    BLM21HE802SN1L Murata Manufacturing Co Ltd FB SMD 0805inch 8000ohm NONAUTO Visit Murata Manufacturing Co Ltd
    BLM15PX330BH1D Murata Manufacturing Co Ltd FB SMD 0402inch 33ohm POWRTRN Visit Murata Manufacturing Co Ltd
    BLM15PX600SH1D Murata Manufacturing Co Ltd FB SMD 0402inch 60ohm POWRTRN Visit Murata Manufacturing Co Ltd

    USING PROGRAMMABLE LOGIC DEVICES Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    Untitled

    Abstract: No abstract text available
    Text: LOW-COST NON-VOLATILE INFINITELY RECONFIGURABLE PLD MachXO Family Crossover Programmable Logic Devices The MachXO family of non-volatile, infinitely reconfigurable Programmable Logic Devices PLDs is designed for applications traditionally implemented using


    Original     		1-800-LATTICE I0176A PDF

    dma controller

    Abstract: ATV5000 P5000 SA10 SA11
    Text: CMOS PLD ATV5000 Application Example: DMA Controller Programmable Logic Device Introduction the transfer. The DMA controller improves system performance by transferring data directly between devices instead of using the CPU. The ATV5000 is a high-density programmable logic device, featuring 52 I/O logic


    Original     		ATV5000 16-bit dma controller P5000 SA10 SA11 PDF

    johnson counter

    Abstract: application johnson counter example manchester return to zero decoder manchester encoder xilinx manchester decoder manchester encoder XC3000 XC3100 XC5200
    Text: 3.3 Volt Programmable Logic Market Survey We are investigating the low voltage 3.3 V Daniel Chan We sincerely market. If you are using or anticipate using 3.3 V programmable logic devices in the future, please take a couple of minutes to fill out this short survey and send it back to us. Return


    Original     		XC3120-2 XC3120 XC3190 johnson counter application johnson counter example manchester return to zero decoder manchester encoder xilinx manchester decoder manchester encoder XC3000 XC3100 XC5200 PDF

    EP1M120

    Abstract: No abstract text available
    Text: Using Programmable I/O Standards in Mercury Devices June 2001, ver. 1.0 Introduction Application Note 134 Programmable logic devices PLDs use I/O standards to interface with memory, microprocessors, backplanes, and peripheral devices. Designers who want to use these standards with programmable logic need flexible,


    Original     		PDF

    EP1M120

    Abstract: No abstract text available
    Text: Using Programmable I/O Standards in Mercury Devices December 2002, ver. 2.1 Introduction Application Note 134 Programmable logic devices PLDs use I/O standards to interface with memory, microprocessors, backplanes, and peripheral devices. Designers who want to use these standards with programmable logic need flexible,


    Original     		PDF

    JESD 85

    Abstract: circuit diagram of Key finder
    Text: Using Programmable I/O Standards in Mercury Devices April 2002, ver. 2.0 Introduction Application Note 134 Programmable logic devices PLDs use I/O standards to interface with memory, microprocessors, backplanes, and peripheral devices. Designers who want to use these standards with programmable logic need flexible,


    Original     		PDF

    EP1M120

    Abstract: No abstract text available
    Text: Using Programmable I/O Standards in Mercury Devices May 2003, ver. 2.2 Introduction Application Note 134 Programmable logic devices PLDs use I/O standards to interface with memory, microprocessors, backplanes, and peripheral devices. Designers who want to use these standards with programmable logic need flexible,


    Original     		PDF

    XC4005E PHYSICAL

    Abstract: XC3100 XC3100A XC4000 XC4000E XC4013E XC9500 VME to isa bridge XC7354 multibus II architecture specification
    Text: January 1996 X-NOTES The Programmable Logic Company SM Tutorial Series Number 5A Using Programmable Logic in PCI Designs The electronics industry has embraced the PCI bus in personal computer, workstation, networking and embedded computing environments. At the same time, programmable


    Original     		PDF

    EP20K1000C

    Abstract: EP20K200C EP20K400C EP20K600C EPC16 FA12 ep20k apex board
    Text: APEX 20KC Programmable Logic Device February 2002 ver. 2.0 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		PDF

    EP20K1000C

    Abstract: EP20K1500C EP20K200C EP20K400C EP20K600C EPC16
    Text: APEX 20KC Programmable Logic Device October 2001, ver. 1.2 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		PDF

    EP20K1000EFI672-2X

    Abstract: EP20K100ETC144 EP20K100EFC324-3 EP20K100FC324-3V EP20K400EFC672-3
    Text: APEX 20KC Programmable Logic Device April 2002 ver. 2.1 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		EP20K* EP20K400GC655-1 EP20K400GC655-2 EP20K400GC655-3 EP20K1000EFI672-2X EP20K100ETC144 EP20K100EFC324-3 EP20K100FC324-3V EP20K400EFC672-3 PDF

    Untitled

    Abstract: No abstract text available
    Text: APEX 20KC Programmable Logic Device April 2002 ver. 2.1 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		4001000CF33C8 EP20K1000CF33C9 EP20K1000C EP20K1000CF672C7 EP20K1000CF672C8 EP20K1000CF672C9 EP20K1000CF33I8 EP20K1000C PDF

    Untitled

    Abstract: No abstract text available
    Text: APEX 20KC Programmable Logic Device March 2002 ver. 2.0 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		40033C8 EP20K1000CF33C9 EP20K1000C EP20K1000CF672C7 EP20K1000CF672C8 EP20K1000CF672C9 EP20K1000CF33I8 EP20K1000C PDF

    Untitled

    Abstract: No abstract text available
    Text: APEX 20KC Programmable Logic Device February 2004 ver. 2.2 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		1000CB652C8 EP20K1000CB652C9 EP20K1000CF33C7 EP20K1000CF33C8 EP20K1000CF33C9 EP20K1000C EP20K1000CF672C7 EP20K1000CF672C8 EP20K1000CF672C9 PDF

    EP20K1000C

    Abstract: EP20K200C EP20K400C EP20K600C EPC16 FA12
    Text: APEX 20KC Programmable Logic Device April 2002 ver. 2.1 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		PDF

    EP20K1000C

    Abstract: EP20K200C EP20K400C EP20K600C EPC16 FA12 APEX 20ke development board sram
    Text: APEX 20KC Programmable Logic Device February 2004 ver. 2.2 Features. Data Sheet • ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		PDF

    ATV750

    Abstract: microprocessor system application 80186 microprocessor microprocessor 80186 internal architecture
    Text: CMOS PLD Using a Programmable Logic Device As a System Controller In an I/O Bus Based System 1 Summary As Programmable Logic Devices (PLDs) become more complex, the amount of logic that can be placed in one device is rapidly increasing. Complete controllers and subsystems now fit


    Original     		ATV750 ATV750, ATV750. microprocessor system application 80186 microprocessor microprocessor 80186 internal architecture PDF

    digital clock using logic gates

    Abstract: EP20K1000C EP20K100C EP20K1500C EP20K200C EP20K400C EP20K600C EPC16 epc1 configuration device
    Text: APEX 20KC Programmable Logic Device April 2001, ver. 1.1 Data Sheet • Features. Preliminary Information ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		PDF

    ep20k160ebc

    Abstract: ep20k400ef EP20K100F EP20K160EQ EP20K100EFC324-3 EP20K100FC324-3V EP20K200RC ep20k400CF672 EP20K100QI208-2
    Text: APEX 20KC Programmable Logic Device March 2001, ver. 1.0 Data Sheet • Features. Preliminary Information ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		PDF

    IC TTL 7400 diagram and truth table

    Abstract: IC 7400 pin diagram data sheet IC 7400 IC TTL 7400 TTL 7400 IC 7400 truth table IC 7400 SERIES ALL DATA IC 7400 diagram and truth table data sheet 7400 IC IC 7400 datasheet
    Text: CMOS PLD Using Programmable Logic Devices Introduction PLD Applications This application note covers three areas: • • Where and why do I use Programmable Logic Devices PLDs ? • How do I use PLDs? • Software and hardware support for Atmel PLDs. •


    Original     		PDF

    PLD-6

    Abstract: ATV750
    Text: Using a Programmable Logic Device As a System Controller In an I/O Bus Based System 1 Summary As Programmable Logic Devices (PLDs) become more complex, the amount of logic that can be placed in one device is rapidly increasing. Complete controllers and subsystems now fit into one or two


    Original     		0483C 09/99/xM PLD-6 ATV750 PDF

    EP20K1000C

    Abstract: EP20K1500C EP20K200C EP20K400C EP20K600C EPC16
    Text: APEX 20KC Programmable Logic Device October 2001, ver. 1.2 Features. Data Sheet • Preliminary Information ■ Programmable logic device PLD manufactured using a 0.15-µm alllayer copper-metal fabrication process – 25 to 35% faster design performance than APEXTM 20KE devices


    Original     		PDF

    psd301 programming

    Abstract: intel 80C196kb PSD301 psd3xx 8254 intel microprocessor block diagram intel 8250 UART 68HC11 CS10 80C196KB 8250 uart intel
    Text: Programmable Peripheral Application Note 014 Using the PSD3XX PAD for System Logic Replacement By Jeff Miller Introduction In 1990, WSI introduced the Programmable System Device PSD : the first device in the world integrating UVEPROM, SRAM and programmable logic on a single chip of silicon. The


    Original     		PSD301 psd301 programming intel 80C196kb psd3xx 8254 intel microprocessor block diagram intel 8250 UART 68HC11 CS10 80C196KB 8250 uart intel PDF

    EK-025-8902

    Abstract: No abstract text available
    Text: H D G p GDK] / EPL204ED/EP EK-025-8902 CMOS ELECTRICALLY PROGRAMMABLE LOGIC • OUTLINE The EPL204 is a field programmable logic array manufactured by using CMOS EPROM processes. It is a programmable "and" fixed " o r " array w ith registered outputs in the 26P8


    OCR Scan     		EPL204ED/EP EK-025-8902 EPL204 EPL204 DIP-20-G1) EK-025-8902 PDF