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    vmebus ARBITRATION

    Abstract: VIC068A CY7C960 CY7C961 CY7C964 VAC068A VIC64 393 chip 2441D Introduction to the VIC068A
    Text: 5/96 Table of Contents Introduction How to Use This Book Section 1. The VIC068A VMEbus Interface Controller Chapter 1.1 Introduction to the VIC068A 1.1.1 Description 1.1.2 Features Summary Chapter 1.2 VIC068A Signal Descriptions 1.2.1 VMEbus Signals 1.2.2 Local Signals


    Original     		VIC068A VIC068A VIC068A/VAC068A vmebus ARBITRATION CY7C960 CY7C961 CY7C964 VAC068A VIC64 393 chip 2441D Introduction to the VIC068A PDF

    VIC068A

    Abstract: vic068a Introduction MC68030
    Text: 1.1 Introduction to the VIC068A 1.1.1 Description The Cypress Semiconductor VMEbus Interface Controller, VIC068A, is a single, inteĆ grated circuit designed to minimize the cost and boardĆarea requirements of VMEbus boards, while at the same time maximizing their performance. The VIC068A was designed


    Original     		VIC068A VIC068A, VIC068A vic068a Introduction MC68030 PDF

    case A

    Abstract: VIC068A vic068a register dram refresh
    Text: 1.11 Miscellaneous Features This chapter describes additional miscellaneous features of the VIC068A. 1.11.1 Resetting the VIC068A The VIC068A is reset by any of three distinct reset conditions. These reset conditions are initiated by asserting various inputs or, in the case of a system reset, writing a VIC068A


    Original     		VIC068A. VIC068A VIC068A case A vic068a register dram refresh PDF

    VIC068

    Abstract: MC6803 VIC068A vic068a Introduction VIC068 ICF registers
    Text: 1.1 Introduction to the VIC068A 1.1.1 Description The Cypress Semiconductor VMEbus Interface Controller, VIC068A, is a single, integrated circuit designed to minimize the cost and board-area requirements of VMEbus boards, while at the same time maximizing their performance. The VIC068A was designed using


    Original     		VIC068A VIC068A, VIC068A VIC068 VIC068 MC6803 vic068a Introduction VIC068 ICF registers PDF

    MC68030

    Abstract: VIC068A vic068a Introduction Introduction to the VIC068A
    Text: 1.1 Introduction to the VIC068A 1.1.1 Description The Cypress Semiconductor VMEbus Interface Controller, VIC068A, is a single, integrated circuit designed to minimize the cost and board-area requirements of VMEbus boards, while at the same time maximizing their performance. The VIC068A was designed using Cypress’s


    Original     		VIC068A VIC068A, VIC068A MC68030 vic068a Introduction Introduction to the VIC068A PDF

    vmebus ARBITRATION

    Abstract: VIC068A CY7C960 CY7C961 CY7C964 VAC068A VIC64 VICO068A vic64 pinout
    Text: Table of Contents Introduction How to Use This Book Section 1. The VICO068A VMEbus Interface Controller Introduction to the VIC068A Chapter 1.1 1.1.1 Description 1.1.2 Features Summary Chapter 1.2 VIC068A Signal Descriptions 1.2.1 VMEbus Signals 1.2.2 Local Signals


    Original     		VICO068A VIC068A VIC068A VIC068A/VAC068A vmebus ARBITRATION CY7C960 CY7C961 CY7C964 VAC068A VIC64 vic64 pinout PDF

    VIC068A

    Abstract: VAC068A
    Text: 5.1 Introduction to the VAC068A 5.1.1 Features Summary When used with the VIC068A VMEbus Interface Controller , the VAC068A (VMEbus Address Controller) forms a complete VMEbus master/slave interface solution. The VAC068A is intended for use solely with VIC068A. The following feature list is VAC068A specific but uses


    Original     		VAC068A VIC068A VAC068A VIC068A. VIC068A 32-bit decodinC068A PDF

    VIC068A

    Abstract: VAC068A vac068a Introduction Introduction to the VIC068A
    Text: 5.1 Introduction to the VAC068A 5.1.1 Features Summary When used with the VIC068A VMEbus Interface Controller , the VAC068A (VMEbus Address Controller) forms a complete VMEbus master/slave interface solution. The VAC068A is intended for use solely with VIC068A. The following feature list is VAC068A


    Original     		VAC068A VIC068A VAC068A VIC068A. VIC068A 32bit AC068A AC068A vac068a Introduction Introduction to the VIC068A PDF

    VMEbus

    Abstract: CY7C964 VIC068A VIC64
    Text: 2.1 Introduction The VIC64 is 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 transfers, all using the same backplane hardware. VIC64


    Original     		VIC64 64-bit 16-bit VIC64 VIC068A VIC64-based VIC068A. VIC64. CY7C964 VMEbus PDF

    VIC068A

    Abstract: VMEbus CY7C964 VIC64 2.1 Introduction
    Text: 2.1 Introduction The VIC64 is a member of the industryĆstandard VIC family of VMEbus interface products. The VIC64 implements 64Ćbit wide block transfers, in addition to 32Ć and 16Ćbit block transĆ fers and 32Ć, 16Ć, and 8Ćbit singleĆcycle transfers, all using the same backplane hardware.


    Original     		VIC64 64bit 16bit VIC64 VIC068A VIC64based VIC068A. VIC64. CY7C964 VIC068A VMEbus 2.1 Introduction 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

    11Z12

    Abstract: vic64 CY7C964 VIC068A vic068a Overview Introduction to the VIC068A
    Text: W K fjT ' C Y 7C 964 Design Notes Introduction The CY7C964 is a flexible collection of byte 8-bit wide transceivers, latches, counters, multiplexers, and comparators that provide bus interface designs with a low-cost alternative to PLDs, ASICs, or discrete logic


    OCR Scan     		CY7C964 VIC068A VIC64 64-Lead 11Z12 vic068a Overview Introduction to the VIC068A 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

    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

    CY7C964

    Abstract: VIC068A VIC64 CY7C960 CY7C961
    Text: 4.1 Introduction The CY7C964 is a flexible collection of byte 8-bit wide transceivers, latches, counters, multiplexers, and comparators that provide bus interface designs with a low-cost alternative to PLDs, ASICs, or discrete logic devices. It is based on a standard cell design that incorporates patented line drivers for reduced ground bounce and high noise immunity. The CY7C964


    Original     		CY7C964 CY7C964 VIC068A, VIC64, CY7C960, CY7C961 VIC068A/VIC64/CY7C960/961 CY7C964s VIC068A VIC64 CY7C960 PDF

    VIC068A

    Abstract: CY7C960 CY7C961 CY7C964 VIC64
    Text: 4.1 Introduction The CY7C964 is a flexible collection of byte 8Ćbit wide transceivers, latches, counters, multiplexers, and comparators that provide bus interface designs with a lowĆcost alternative to PLDs, ASICs, or discrete logic devices. It is based on a standard cell design that incorpoĆ


    Original     		CY7C964 VIC068A, VIC64, CY7C960, CY7C961 VIC068A/VIC64/CY7C960/961 CY7C964s VIC068A CY7C960 CY7C961 VIC64 PDF

    CY7C960

    Abstract: CY7C961 CY7C964 VIC068A VIC64
    Text: 4.1 Introduction The CY7C964 is a flexible collection of byte 8-bit wide transceivers, latches, counters, multiplexers, and comparators that provide bus interface designs with a low-cost alternative to PLDs, ASICs, or discrete logic devices. It is based on a standard cell design that incorporates patented line drivers for reduced ground bounce and high noise immunity. The CY7C964


    Original     		CY7C964 CY7C964 VIC068A, VIC64, CY7C960, CY7C961 VIC068A/VIC64/CY7C960/961 CY7C964s CY7C960 VIC068A VIC64 PDF

    VIC068A

    Abstract: CY7C960 CY7C964 MD32
    Text: 3.9 I/O Control Description The CY7C960 has two basic modes of operation: DRAM mode and I/O mode. The user selects the mode during configuration. This section describes the I/O mode of operation. In I/O mode the CY7C960 does not provide the timing signals required by DRAM, such as


    Original     		CY7C960 CY7C964 VIC068A MD32 PDF

    VIC068A

    Abstract: CY74FCT162245T CY74FCT162373T CY74FCT16543T CY7C960 CY7C961 CY7C964 5 to 32 decoder 16543T vme 3U
    Text: 3.2 System Block Diagrams Four examples of system diagrams are shown: a 6U example, a 3U example, a low cost 6U implementation, and a CY7C961 3U example. Figure 3-4 shows an example of a 6U form factor board design. The details of the local circuitry are at the option of the board designer: this diagram illustrates the simplicity of the CY7C960


    Original     		CY7C961 CY7C960 CY7C964s CY7C964 CY7C961 LAEN321 CY7C960 VIC068A CY74FCT162245T CY74FCT162373T CY74FCT16543T CY7C964 5 to 32 decoder 16543T vme 3U PDF

    VME SWDEN

    Abstract: VIC068A CY74FCT162245T CY74FCT162373T CY74FCT16543T CY7C960 CY7C961 CY7C964 vme 3U Introduction to the VIC068A
    Text: 3.2 System Block Diagrams Four examples of system diagrams are shown: a 6U example, a 3U example, a low cost 6U implementation, and a CY7C961 3U example. Figure 3-4 shows an example of a 6U form factor board design. The details of the local circuitry are at the option of the board designer: this diagram illustrates the simplicity of the CY7C960


    Original     		CY7C961 CY7C960 CY7C964s CY7C964 CY7C961 LAEN321 CY7C960 VME SWDEN VIC068A CY74FCT162245T CY74FCT162373T CY74FCT16543T CY7C964 vme 3U Introduction to the VIC068A PDF

    VIC068A

    Abstract: Introduction to the VIC068A CY7C960 CY7C961 CY7C964 VIC64 VME64
    Text: 3.1 Introduction 3.1.1 Feature List Optimal Performance: NextĆGeneration Product: 80 Mbyte per second Block Transfer Rates VME64 transactions, including A64/D64, A40/MD32 transfers, Auto Slot ID, CR/CSR space, LOCK cycles etc. Backwards Compatible: All standard VMEbus transactions implemented


    Original     		VME64 A64/D64, A40/MD32 CY7C960 CY7C961 0000h 10000h VIC068A Introduction to the VIC068A CY7C964 VIC64 PDF

    VIC068A

    Abstract: VAC068A vac068a DC vic068a DC
    Text: 5.8 DC Performance Specifications Table 5-6. VMEbus Signals AS*, DS1*, DS0*, BCLR*, SYSCLK Parameter Description Test Conditions Comm. Industrial Military Units VIH Minimum High-Level Input Voltage 2.0 2.0 2.0 V VIL Maximum Low-Level Input Voltage 0.8 0.8


    Original     		00/VCC VIC068A VAC068A vac068a DC vic068a DC PDF

    CY7C960

    Abstract: CY7C961 CY7C964 VAC068A VIC068A VIC64 VME64 vic64 pinout
    Text: 3.1 Introduction 3.1.1 Feature List Optimal Performance: Next-Generation Product: 80 Mbyte per second Block Transfer Rates VME64 transactions, including A64/D64, A40/MD32 transfers, Auto Slot ID, CR/CSR space, LOCK cycles etc. Backwards Compatible: All standard VMEbus transactions implemented


    Original     		VME64 A64/D64, A40/MD32 CY7C960 CY7C961 0000h 10000h CY7C964 VAC068A VIC068A VIC64 vic64 pinout PDF