VIC068A
Abstract: CY7C960 CY7C961 CY7C964 VIC64 VME64 vic64 pinout
Text: 3.10 Design Considerations 3.10.1 Design Philosophy The CY7C960 and the CY7C961 each share the basic VMEbus slave circuitry, and each has a common design philosophy. The most basic foundation for the design was that of achieving high performance in whatever system the devices were placed. For the CY7C960, that philosophy determined the hierarchical partitioning of the design into several independent blocks,
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CY7C961
CY7C960,
CY7C960
VIC068A
CY7C964
VIC64
VME64
vic64 pinout
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card fci
Abstract: CY7C964 VAC068A VIC068A
Text: 1.10 VIC068A Block Transfer Functions The ability to transfer large blocks of data at a high-sustained transfer rate is paramount in today’s VMEbus market. When implemented properly, transfer rates exceeding 30 Mbyte/sec can be obtained using a high-speed processor, high-speed memory and highspeed VMEbus interfaces such as the VIC068A.
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VIC068A
VIC068A.
card fci
CY7C964
VAC068A
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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
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CY7C960/961)
vme bus specification vhdl
VIC64 Users
CY7C960
CY7C961
CY7C964
FF000000
MD32
VIC64
VME64
vhdl code for simple microprocessor
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CY7C960
Abstract: CY7C964 MD32 VME64
Text: 3.6 CY7C964 Interface 3.6.1 CY7C964 Overview The CY7C960 is designed for use with the CY7C964 VMEbus Interface Logic Circuit. This device is fully described in Section 4, The CY7C964 Bus Interface Logic Circuit. The CY7C960 provides all the control and timing for the interface with the CY7C964. Interface timing as
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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.
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CLK64M
transistor A144
A144 transistor
SIGNAL PATH designer
Introduction to the VIC068A
VIC068A
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CY7C960
Abstract: CY7C964 MD32 LEDI
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
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CY7C960
CY7C964
MD32
LEDI
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CY7C960
Abstract: CY7C961 CY7C964 MD32 VME64
Text: 3.5 VMEbus Interface Description 3.5.1 Definition of Terms DSi* Either or both of DS0* and DS1*, the VMEbus data strobe signals DSA* The first of DS0* or DS1* to be asserted DSB* The second of DS0* or DS1* to be asserted 6U, 3U The two most common sizes for VMEbus boards
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CY7C960
CY7C964,
VME64
CY7C960
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CY7C964
MD32
VME64
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vme 3u board standards
Abstract: CY7C960 CY7C961 CY7C964 FF000000 MD32 VME64 vme bus specification vhdl Cypress VMEbus Interface Handbook CY7C960 Family Users Guide
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
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CY7C960/961)
vme 3u board standards
CY7C960
CY7C961
CY7C964
FF000000
MD32
VME64
vme bus specification vhdl
Cypress VMEbus Interface Handbook
CY7C960 Family Users Guide
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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
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CY7C960
CY7C964
VIC068A
MD32
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VMEbus
Abstract: CY7C960 CY7C961 CY7C964 MD32 VME64
Text: 3.5 VMEbus Interface Description 3.5.1 3.5.2 Definition of Terms DSi* Either or both of DS0* and DS1*, the VMEbus data strobe signals DSA* The first of DS0* or DS1* to be asserted DSB* The second of DS0* or DS1* to be asserted 6U, 3U The two most common sizes for VMEbus boards
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CY7C960
CY7C964,
VME64
CY7C960
32-Bit
VMEbus
CY7C961
CY7C964
MD32
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D325E
Abstract: LA32 CY7C960 CY7C961 CY7C964 LA10 LA12 LA16 MD32 VME DAISY CHAIN
Text: 3.11 CY7C961 Description 3.11.1 Introduction The CY7C961 is a CY7C960 Slave VMEbus Interface Controller with the addition of a master block transfer capability. Full-featured Slave boards can be built, using the CY7C961, that offer a flexible Master block transfer facility for bursting data across the VMEbus. The CY7C961
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CY7C961,
CY7C961
CY7C960.
CY7C964
D325E
LA32
LA10
LA12
LA16
MD32
VME DAISY CHAIN
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cy7c964
Abstract: CY7C960 VME64
Text: 3.4 Programming the CY7C960 The VMEbus board that is designed to use the CY7C960 has what might be called a personality. This encompasses such things as DRAM speed and amount , I/O circuitry, SRAM, and other matters under the control of the board designer. To a large extent, this personality has
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CY7C960.
D32/D64
cy7c964
VME64
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VIC068A
Abstract: CY7C960 CY7C961 CY7C964 VIC64
Text: 4.4 Signal Descriptions 4.4.1 VMEbus Signals A[7:0] Input: Output: Drive: Yes Yes, three-state 48 mA These are VMEbus-compatible address signal transceivers that can be directly connected to the VMEbus. A0 is the least-significant address bit. In flow-through modes of operation, these
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VIC64,
CY7C960,
CY7C961,
CY7C960/961
CY7C964
CY7C964s,
VIC068A
CY7C960
CY7C961
VIC64
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VIC068A
Abstract: CY7C960 CY7C961 CY7C964 VIC64
Text: 4.3 Interfacing to Cypress VMEbus Interface Controllers Previously, interfacing the VIC068A to the VMEbus required a significant number of LSI and MSI devices. With the advent of 64Ćbit VMEbus block transfers and the VIC64, the exĆ ternal discrete device count for a full functional interface has expanded. The CY7C964 has
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VIC068A
64bit
VIC64,
CY7C964
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CY7C964s
CY7C960/961controlled
CY7C960
CY7C961
VIC64
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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
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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
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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
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CY7C960
CY7C964s
CY7C964
CY7C961
LAEN321
CY7C960
VIC068A
CY74FCT162245T
CY74FCT162373T
CY74FCT16543T
CY7C964
5 to 32 decoder
16543T
vme 3U
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VIC068A user guide
Abstract: 3XXXXX A3MA motorola full line vme 68030
Text: VIC64 to Motorola 68040 Interface Purpose This application note shows how the VIC64 can be interfaced to a Motorola 68040 microprocessor operating at 40 MHz. The issues and assumptions that go into designing such an interface are considerable and complex; thus, this application
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68040-based
VIC068A user guide
3XXXXX
A3MA
motorola full line vme 68030
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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
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CY7C961
VIC068A/VIC64/CY7C960/961
CY7C964s
VIC068A
VIC64
CY7C960
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VMEbus
Abstract: VIC068A CY7C960 CY7C961 CY7C964 VAC068A VIC64 VME64 irq routing concept
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
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A40/MD32
CY7C960
CY7C961
0000h
10000h
VMEbus
VIC068A
CY7C964
VAC068A
VIC64
irq routing concept
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CY7C960
Abstract: CY7C964 MC68020
Text: ‘ 3.3 PREN* SWDEN* RAS*/CS4 CAS*/CS5 AM2 ROW/CS2 COL/CS3 AM1 GND DBE0 AM0 Vcc DBE1 DBE2 DBE3 R/W* Pin Description Pin 1 CY7C960 TQFP Top View LA7 LA6 LA5 LA4 IRQ* LA3 Gnd AM5 LA2 Vcc LA1 DS1* LWORD* LDS DENIN1* LAEN DENO* IACKOUT* IACKIN* IACK* AS* LADI
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CY7C964
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MC68020
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VIC068A
Abstract: CY7C964 VIC64
Text: fax id: 5706 Using the CY7C964 with VIC Using the CY7C964 with VIC The CY7C964 is a flexible collection of byte-wide 8-bit transceivers, latches, counters, multiplexers, and comparators that provide VMEbus interface designs with a low-cost alternative to PLDS, ASICs, or discrete logic devices. It is based
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VIC068A
VIC64
64-bit
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VIC068A
Abstract: d8 d8
Text: 1.6 VIC068A VMEbus Slave Operations The act of writing or retrieving data for a VMEbus master is referred to as a slave operation. The VIC068A is able to perform slave operations with extensive configuration options. The following VIC068A registers are used in performing and configuring slave operations:
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d8 d8
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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
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CY7C964
VIC068A
VIC64
64-Lead
11Z12
vic068a Overview
Introduction to the VIC068A
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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
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VME64
A64/D64,
A40/MD32
CY7C960
CY7C961
160-Pin
64-Lead
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