PZ3128A Search Results

PZ3128DS10

Contextual Info: INTEGRATED CIRCUITS PZ3128A/PZ3128D 128 macrocell CPLD with enhanced clocking Preliminary specification Supersedes data of 1999 May 07 IC27 Data Handbook Philips Semiconductors 1999 Jun 29 Philips Semiconductors Product specification 128 macrocell CPLD with enhanced clocking

PZ3128A

Contextual Info: INTEGRATED CIRCUITS PZ3128A/PZ3128D 128 macrocell CPLD with enhanced clocking Preliminary specification IC27 Data Handbook Philips Semiconductors 1998 Jul 21 Philips Semiconductors Preliminary specification 128 macrocell CPLD with enhanced clocking FEATURES

Contextual Info: Preliminary specification Philips Semiconductors 128 macrocell CPLD with enhanced clocking PZ3128A/PZ3128D FEATURES DESCRIPTION • Industry’s first TotalCMOS PLD - both CMOS design and process technologies The PZ3128A/PZ3128D CPLD Complex Programmable Logic

SIGNAL PATH DESIGNER

Contextual Info: INTEGRATED CIRCUITS Xilinx has acquired the entire Philips CoolRunner Low Power CPLD Product Family. For more technical or sales information, please see: www.xilinx.com XAPP 305 Understanding CoolRunner clocking options 1998 Jul 16 Philips Semiconductors

AT17256

Abstract: 7Pin din Connector AN076 qfp 32 k2511 phillips handbook XPLA1 UNSIGNED SERIAL DIVIDER using vhdl
Contextual Info: APPLICATION NOTE AN076 Using the Philips PZ3960 Evaluation Board 1998 Jul 21 Philips Semiconductors Application note Using the Philips PZ3960 Evaluation Board AN076 INTRODUCTION This note discusses the use of the Philips PZ3960 evaluation board. The main functions of the evauation board are the

89c51 microcontroller

Abstract: pin diagram of ic 89c51 89c51 c programming codes led interfacing with 89C51 pull up resistor in AT 89c51 microcontroller ic 89c51 89c51 controller 89crd2 89C51 EXTERNAL RAM microcontroller 89c51 pin diagram
Contextual Info: Philips Semiconductors Content Protection A/V Link Layer IEEE 1394 Reference Design Kit Version 2.2 for L4X / P21 Hardware Reference Manual Copyright 2000 Philips Semiconductors. All rights reserved. Philips Semiconductors Full Duplex A/V Link Layer 1394 L4X Reference Design Kit version 2.2

XCR3128A

Contextual Info: INTEGRATED CIRCUITS Xilinx has acquired the entire Philips CoolRunner Low Power CPLD Product Family. For more technical or sales information, please see: www.xilinx.com XCR3128A 128 macrocell CPLD with enhanced clocking Preliminary specification IC27 Data Handbook

Philips CT6

Abstract: XAPP325 SIGNAL PATH DESIGNER
Contextual Info: INTEGRATED CIRCUITS Xilinx has acquired the entire Philips CoolRunner Low Power CPLD Product Family. For more technical or sales information, please see: www.xilinx.com XAPP325 Understanding CoolRunner clocking options 1998 Jul 16 Philips Semiconductors

PZ3064A

Abstract: AN068
Contextual Info: INTEGRATED CIRCUITS AN068 Terminating unused CoolRunner I/O pins 1998 Jun 29 Philips Semiconductors Philips Semiconductors Application note Terminating unused CoolRunner I/O pins AN068 When using the JTAG/ISP functions, 10 kW pull-up resistors should

SIGNAL PATH DESIGNER

Contextual Info: INTEGRATED CIRCUITS AN065 Understanding CoolRunner clocking options 1998 Jul 16 Philips Semiconductors Philips Semiconductors Application note Understanding CoolRunner clocking options AN065 XPLA Clocking Architecture All CoolRunner devices provide multiple clock sources to each

manchester verilog decoder

Abstract: Philips Semiconductors Selection Guide pzlcp AN057
Contextual Info: Philips Semiconductors CONTENTS IC27: Complex Programmable Logic Devices CPLDs Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

XC95144XL

Abstract: XCR3064A XC9572XL Series
Contextual Info: Reference XC9500 and CoolRunner CPLDs WebPACK downloadable desktop solutions offer free CPLD software modules for ABEL and HDL synthesis, HDL simulation, device fitting, and JTAG programming. X ilinx WebPOWERED Software Solutions offer yhou the flexibiity to target the

interfacing cpld xc9572 with keyboard

Abstract: VERIFY 93K template 34992 XC95288XL evaluation board schematic XCR3032C XcxxX xilinx logicore core dds XC2S15-VQ100 creative labs model 3400 FXS-100
Contextual Info: The Programmable Logic Data Book 2000 R R , XC2064, NeoCAD PRISM, XILINX Block Letters , XC-DS501, NeoROUTE, XC3090, FPGA Architect, XC4005, FPGA Foundry, XC5210, Timing Wizard, NeoCAD, TRACE, NeoCAD EPIC, XACT are registered trademarks of Xilinx, Inc. , all XC-prefix product designations, AllianceCore, Alliance Series, BITA, CLC, Configurable Logic Cell, CoolRunner, Dual Block, EZTag, Fast CLK, FastCONNECT,

PZ3064

Abstract: LQFP128
Contextual Info: Philips Semiconductors Family Selection Guide ÁÁÁÁ ÁÁÁ ÁÁÁÁ ÁÁÁÁ ÁÁÁ ÁÁÁÁ ÁÁÁ ÁÁÁÁÁ ÁÁ ÁÁÁ ÁÁÁ ÁÁÁÁ ÁÁÁÁ ÁÁÁÁ ÁÁÁ ÁÁÁÁ ÁÁÁÁ ÁÁÁ ÁÁÁÁ ÁÁÁ ÁÁÁÁÁ ÁÁ ÁÁÁ ÁÁÁ ÁÁÁÁ ÁÁÁÁ

Signal Path Designer

Contextual Info: Philips Sem icond uctors A pplication note Understanding CoolRunner clocking options AN065 XPLA Clocking Architecture All CoolRunner devices provide multiple clock sources to each register of the device. These sources support both synchronous and asynchronous clocking. Each type of clock source has well defined

XC95288XL evaluation board schematic

Abstract: 34992 xilinx xc9536 digital clock 104x156 542k XC95288XL evaluation board XC95288XL pinout missile guidance XC95144XL prom XC9536
Contextual Info: An Introduction to Xilinx Products R February 15, 2000 1* About Xilinx Xilinx is the leading provider of complete programmable logic solutions. The company’s products help minimize risks for manufacturers of electronic equipment by shortening the time required to develop products and take them to

AT17256

Abstract: UNSIGNED SERIAL DIVIDER using verilog XPLA1 UNSIGNED SERIAL DIVIDER using vhdl AT-2
Contextual Info: Application note Philips Semiconductors Using the Philips PZ3960 Evaluation Board AN076 INTRODUCTION This note discusses the use of the Philips PZ3960 evaluation board. The main functions of the evauation board are the following. 1. Using design entry tools such as schematic editors and programming languages as VHDL, Verilog, Abel, and PHDL,

PQFP100

Abstract: PQFP160 XILINX LQFP128 PZ5064CS10 PACKAGE LQFP128 PZ3064AS10 TQFP100 tQFP100 package TQFP44 package PLCC44 package
Contextual Info: Exh C - Att: 1 December 1999 LIST OF PHILIPS CPLD COOLRUNNER PARTS SOLD AND TRANSFERRED TO XILINX INC. 12NC 935239090557 935239090551 935262246551 935262246518 935262221557 935262221551 935260106112 935260109112 935260112112 935260107112 935260110112 935260113112

XCR5032C-10VQ44C

Abstract: PZ5064CS10BC XCR5128-10TQ128I XCR3032-10VQ44I XCR5128-15PQ100I PZ5064NS10A44 Philips cross reference PZ5064CS10 PZ5128-S10BB1 XCR3128
Contextual Info: October 19, 2000 PDN2000-07: Products Affected Part Number Last Time Buy Last Time Ship Philips Cross Reference XCR22LV10-10PC28C April 27, 2001 December 28, 2001

Contextual Info: Application note Philips Semiconductors Terminating unused CoolRunner I/O pins AN068 When using the JTAG/ISP functions, 10 kQ pull-up resistors should be used on each of the four mandatory signals. Letting these signals float can cause the voltage on T M S to come close to a logic low,