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    VIC64 USERS Search Results

    VIC64 USERS Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    BQ2031SN-A5TR Texas Instruments Switch-mode Lead-Acid Battery Charger with User-Selectable Charge Algorithms 16-SOIC 0 to 0 Visit Texas Instruments Buy
    BQ2031SN-A5TRG4 Texas Instruments Switch-mode Lead-Acid Battery Charger with User-Selectable Charge Algorithms 16-SOIC 0 to 0 Visit Texas Instruments Buy
    TCA5013ZAHR Texas Instruments Smart card interface IC for 1 user card + 3 SAMs 48-NFBGA -40 to 85 Visit Texas Instruments Buy
    BQ2031SN-A5 Texas Instruments Switch-mode Lead-Acid Battery Charger with User-Selectable Charge Algorithms 16-SOIC 0 to 0 Visit Texas Instruments Buy
    BQ2031PN-A5E4 Texas Instruments Switch-mode Lead-Acid Battery Charger with User-Selectable Charge Algorithms 16-PDIP 0 to 0 Visit Texas Instruments Buy

    VIC64 USERS Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    VIC068A user guide

    Abstract: VIC068A vic64 VIC64 Users CY7C964 VIC068 VME64 2561b l2465 H-10-H
    Text: yr~ YIC64 Design Notes Introduction Cypress Semiconductor has supplemented its Bus Interface product family with the VIC64, a member of the industry-standard VIC family of VMEbus interface products. The VIC64 implements 64-bit wide block transfers, in addition to 32- and 16-bit block transfers and 32-, 16-, and 8-bit single-cycle trans­


    OCR Scan     		VIC64 VIC64, 64-bit 16-bit VIC068A VIC64-based VIC068A. VIC64. VIC068A user guide VIC64 Users CY7C964 VIC068 VME64 2561b l2465 H-10-H PDF

    CY7C964

    Abstract: VIC068A VIC64 VME64 VIC64 Users
    Text: 2.3 64-Bit Operations 2.3.1 VMEbus Specification The primary reason for the development of the VIC64 was to provide users with the capability to perform 64-bit-wide data transfers in a manner consistent with the goals of the 64-bit VMEbus specification, more commonly known as the VME64 specification. The protocol for


    Original     		64-Bit VIC64 64-bit-wide 64-bit VME64 VITA1-1994. CY7C964, CY7C964 VIC068A VIC64 Users PDF

    VIC068A

    Abstract: CY7C964 VIC64 VME64 VIC64 Users
    Text: 2.3 64ĆBit Operations 2.3.1 VMEbus Specification The primary reason for the development of the VIC64 was to provide users with the capabilĆ ity to perform 64ĆbitĆwide data transfers in a manner consistent with the goals of the 64Ćbit VMEbus specification, more commonly known as the VME64 specification. The protocol


    Original     		64Bit VIC64 64bitwide 64bit VME64 VITA1-1994. CY7C964, VIC068A CY7C964 VIC64 Users PDF

    transistor A144

    Abstract: VIC068A vme bus interface verilog A144 transistor B144 CY7C960 CY7C961 CY7C964 VAC068A VIC068
    Text: Frequently Asked Questions about the VMEbus Products The following questions are frequently asked by customers who are evaluating and using Cypress VMEbus Interface products. These answers will serve as an introduction for each topic. Separate application notes


    Original     		CLK64M transistor A144 VIC068A vme bus interface verilog A144 transistor B144 CY7C960 CY7C961 CY7C964 VAC068A VIC068 PDF

    transistor A144

    Abstract: A144 transistor VIC068 CY6C964 VIC068A a144* transistor vme bus specification VMEbus interface handbook B144 SIGNAL PATH designer
    Text: fax id: 5708 Frequently Asked Questions about the VMEbus Products The following questions are frequently asked by customers who are evaluating and using Cypress VMEbus Interface products. These answers will serve as an introduction for each topic. Separate application notes cover these topics in more complete detail.


    Original     		CLK64M transistor A144 A144 transistor VIC068 CY6C964 VIC068A a144* transistor vme bus specification VMEbus interface handbook B144 SIGNAL PATH designer PDF

    transistor A144

    Abstract: A144 transistor SIGNAL PATH designer Introduction to the VIC068A VIC068A
    Text: Frequently Asked Questions about the VMEbus Products The following questions are frequently asked by customers who are evaluating and using Cypress VMEbus Interface products. These answers will serve as an introduction for each topic. Separate application notes cover these topics in more complete detail.


    Original     		CLK64M transistor A144 A144 transistor SIGNAL PATH designer Introduction to the VIC068A VIC068A PDF

    verilog for SRAM 512k word 16bit

    Abstract: CY62512V CYM74P436 192-Macrocell 62128 sram 7C1350 Triton P54C palce16v8 programming guide 7C168A intel 16k 8bit RAM chip
    Text: Product Selector Guide Static RAMs Organization/Density Density X1 X4 4K X8 X9 X16 X18 X32 X36 7C148 7C149 7C150 16K 7C167A 7C168A 7C128A 6116 64K to 72K 7C187 7C164 7C166 7C185 6264 7C182 256K to 288K 7C197 7C194 7C195 7C199 7C1399/V 62256/V 62256V25 62256V18


    Original     		7C148 7C149 7C150 7C167A 7C168A 7C128A 7C187 7C164 7C166 7C185 verilog for SRAM 512k word 16bit CY62512V CYM74P436 192-Macrocell 62128 sram 7C1350 Triton P54C palce16v8 programming guide 7C168A intel 16k 8bit RAM chip PDF

    MBS 6-B5

    Abstract: CY7C960 Family Users Guide VIC64 Users interrupt vhdl ld 18 CY7C960 CY7C961 Cypress VMEbus FF000000 MD32
    Text: Using the Slave VIC CY7C960/961 Many VME boards, especially I/O Local Interrupts boards, need only be aware of VME Slave transactions. Most A64/A40 Support commercially available VME interface chips are caĆ pable of both Master and Slave VME transactions


    Original     		CY7C960/961) A64/A40 CY7C964 EEEEEE00" MBS 6-B5 CY7C960 Family Users Guide VIC64 Users interrupt vhdl ld 18 CY7C960 CY7C961 Cypress VMEbus FF000000 MD32 PDF

    Untitled

    Abstract: No abstract text available
    Text: 3A Introduction 3.1.1 Feature List Optimal Performance: Next-Generation Product: Backwards Compatible: Simple to Use: Highly Integrated: Innovative Architecture: Ultra-Small footprint: 80 Mbyte per second Block Transfer Rates VME64 transactions, including A64/D64, A40/MD32


    OCR Scan     		VME64 A64/D64, A40/MD32 CY7C960 CY7C961 160-Pin 64-Lead PDF

    vme bus specification vhdl

    Abstract: VIC64 Users CY7C960 CY7C961 CY7C964 FF000000 MD32 VIC64 VME64 vhdl code for simple microprocessor
    Text: faxid 5709 Using the Slave VIC CY7C960/961 Many VME boards, especially I/O boards, need only be aware of VME Slave transactions. Most commercially available VME interface chips are capable of both Master and Slave VME transactions and require some local intelligence, such as a


    Original     		CY7C960/961) vme bus specification vhdl VIC64 Users CY7C960 CY7C961 CY7C964 FF000000 MD32 VIC64 VME64 vhdl code for simple microprocessor PDF

    2M X 32 Bits 72-Pin Flash SO-DIMM

    Abstract: AN2131QC Triton P54C SO-DIMM 72pin 32bit 5V 2M AN2131-DK001 AN2131SC vhdl code for pipelined matrix multiplication VIC068A user guide parallel interface ts vhdl 7C037
    Text: GO TO WEB MAIN INDEX 3URGXFW 6HOHFWRU *XLGH Static RAMs Organization/Density Overview Density X1 X4 X8 X9 X16 X18 X32 X36 7C148 7C149 7C150 4 Kb 16 Kb 7C167A 7C168A 7C128A 6116 64 Kb to 72 Kb 7C187 7C164 7C166 7C185 6264 7C182 256 Kb to 288 Kb 7C197 7C194


    Original     		7C148 7C149 7C150 7C167A 7C168A 7C128A 7C187 7C164 7C166 7C185 2M X 32 Bits 72-Pin Flash SO-DIMM AN2131QC Triton P54C SO-DIMM 72pin 32bit 5V 2M AN2131-DK001 AN2131SC vhdl code for pipelined matrix multiplication VIC068A user guide parallel interface ts vhdl 7C037 PDF

    53C810

    Abstract: AP605 ht6542b i486 PC MOTHERBOARD CIRCUIT diagram 85C30 schematic CMA110 HT6542 Artesyn Technologies, Inc heurikon CMA102
    Text: IDT Evaluation & Reference Boards Evaluation & Reference Boards Section 6 129 Evaluation & Reference Boards Algorithmics P-4032 algori thmics RC4640 Single Board Computer Features ◆ ◆ 33 MHz 32-bit PCI expansion bus with 3.3V compatible slots available


    Original     		P-4032 RC4640 RC64474 100MHz+ 64-bit 32-bit P-4032 53C810 ISO9001 AP605 ht6542b i486 PC MOTHERBOARD CIRCUIT diagram 85C30 schematic CMA110 HT6542 Artesyn Technologies, Inc heurikon CMA102 PDF