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    COMBINATIONAL LOGIC CIRCUIT Search Results

    COMBINATIONAL LOGIC CIRCUIT Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    SCC433T-K03-004 Murata Manufacturing Co Ltd 2-Axis Gyro, 3-axis Accelerometer combination sensor Visit Murata Manufacturing Co Ltd
    SCC433T-K03-10 Murata Manufacturing Co Ltd 2-Axis Gyro, 3-axis Accelerometer combination sensor Visit Murata Manufacturing Co Ltd
    SCC433T-K03-05 Murata Manufacturing Co Ltd 2-Axis Gyro, 3-axis Accelerometer combination sensor Visit Murata Manufacturing Co Ltd
    SCC433T-K03-PCB Murata Manufacturing Co Ltd 2-Axis Gyro, 3-axis Accelerometer combination sensor on Evaluation Board Visit Murata Manufacturing Co Ltd
    74HC4053FT Toshiba Electronic Devices & Storage Corporation CMOS Logic IC, SPDT(1:2)/Analog Multiplexer, TSSOP16B, -40 to 125 degC Visit Toshiba Electronic Devices & Storage Corporation

    COMBINATIONAL LOGIC CIRCUIT Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    9536XL

    Abstract: verilog code for johnson decoder verilog code for johnson counter encoder8*3 vhdl code for 4 bit ripple COUNTER verilog code for 4 bit ripple COUNTER verilog hdl code for multiplexer 4 to 1 verilog code for four bit binary divider verilog code of 4 bit comparator verilog code for multiplexer 16 to 1
    Text: Application Note: CPLD R Using Verilog to Create CPLD Designs XAPP143 v1.0 August 22, 2001 Summary This Application Note covers the basics of how to use Verilog as applied to Complex Programmable Logic Devices. Various combinational logic circuit examples, such as


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    PDF XAPP143 9536XL verilog code for johnson decoder verilog code for johnson counter encoder8*3 vhdl code for 4 bit ripple COUNTER verilog code for 4 bit ripple COUNTER verilog hdl code for multiplexer 4 to 1 verilog code for four bit binary divider verilog code of 4 bit comparator verilog code for multiplexer 16 to 1

    vhdl code for traffic light control

    Abstract: vhdl code for dice game vhdl code for TRAFFIC LIGHT CONTROLLER SINGLE WAY traffic light controller vhdl coding blackjack vhdl code structural vhdl code for ripple counter 4 BIT ALU design with vhdl code using structural vhdl code of floating point adder vhdl code for complex multiplication and addition four way traffic light controller vhdl coding
    Text: Metamor User's Guide - Contents software version 2.3 1 - About This Guide 10 - Logic and Metalogic 2 - PLD Programming Using VHDL 11 - XBLOX and LPM 3 - Introduction to VHDL 12 - Synthesis Attributes 4 - Programming Combinational Logic 13 - Synthesis Coding Issues


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    PDF principl92 ISBN4-7898-3286-4 C3055 P3200E vhdl code for traffic light control vhdl code for dice game vhdl code for TRAFFIC LIGHT CONTROLLER SINGLE WAY traffic light controller vhdl coding blackjack vhdl code structural vhdl code for ripple counter 4 BIT ALU design with vhdl code using structural vhdl code of floating point adder vhdl code for complex multiplication and addition four way traffic light controller vhdl coding

    dual 5-Input Majority Logic Gate

    Abstract: 5-Input Majority Logic Gate MC14530B MC14XXXBCL MC14XXXBCP MC14XXXBD MAJORITY LOGIC
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MC14530B Dual 5-Input Majority Logic Gate L SUFFIX CERAMIC CASE 620 The MC14530B dual five–input majority logic gate is constructed with P–channel and N–channel enhancement mode devices in a single monolithic structure. Combinational and sequential logic expressions are


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    PDF MC14530B MC14530B MC14530B/D* MC14530B/D dual 5-Input Majority Logic Gate 5-Input Majority Logic Gate MC14XXXBCL MC14XXXBCP MC14XXXBD MAJORITY LOGIC

    The Practical Xilinx Designer Lab Book

    Abstract: combinational logic circuit project sr flip-flop "The Practical Xilinx Designer Lab Book" memory circuit using flipflop sr flipflop data sheet D flip flop 4 BIT ADDER ABEL components combinational logic circuit synchronous counter using 4 flip flip
    Text: The Practical Xilinx Designer Lab Book By: David van den Bout, Published by Prentice Hall Included in Prentice Hall’s “Xilinx Student Edition” package Chapter 1: The Digital Design Process Objectives • Discuss the steps involved in designing a digital circuit.


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    PDF XC4000 The Practical Xilinx Designer Lab Book combinational logic circuit project sr flip-flop "The Practical Xilinx Designer Lab Book" memory circuit using flipflop sr flipflop data sheet D flip flop 4 BIT ADDER ABEL components combinational logic circuit synchronous counter using 4 flip flip

    digital clock using logic gates

    Abstract: digital clock using gates combinational logic circuit project verilog code for combinational loop verilog code power gating gating a signal using NAND gates transistor S104 A101 A106A A103
    Text: 5. Design Recommendations for Altera Devices and the Quartus II Design Assistant QII51006-7.1.0 Introduction Today’s FPGA applications have reached the complexity and performance requirements of ASICs. In the development of such complex system designs, good design practices have an enormous impact on your


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    PDF QII51006-7 digital clock using logic gates digital clock using gates combinational logic circuit project verilog code for combinational loop verilog code power gating gating a signal using NAND gates transistor S104 A101 A106A A103

    digital clock using logic gates

    Abstract: verilog code for combinational loop verilog code clockgating digital clock using gates clock tree guidelines vhdl code for combinational circuit verilog code power gating signal path designer
    Text: Design Guidelines for Optimal Results in FPGAs Jennifer Stephenson Altera Corporation [email protected] ABSTRACT Design practices have an enormous impact on an FPGA design’s timing performance, logic utilization, and system reliability. Good design practices also aid in successful design migration


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    combinational logic circuit project

    Abstract: QII52007-10
    Text: 16. Netlist Optimizations and Physical Synthesis QII52007-10.0.0 The Quartus II software offers physical synthesis optimizations to improve your design beyond the optimization performed in the normal course of the Quartus II compilation flow. Physical synthesis optimizations can help improve the performance of your design


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    PDF QII52007-10 combinational logic circuit project

    2-bit half adder

    Abstract: bc 339
    Text: White Paper Stratix II Performance and Logic Efficiency Analysis Introduction Pursuing higher performance and density of FPGA devices by migrating to a smaller-geometry silicon process presents challenges with power consumption issues. The power consumption of a device based on


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    PDF 90-nm 2-bit half adder bc 339

    TIBPAL22V10

    Abstract: TIBPAL22V10-7C TIBPAL22V10-7CFN TIBPAL22V10-7CNT
    Text: TIBPAL22V10-7C HIGH-PERFORMANCE IMPACT-X  PROGRAMMABLE ARRAY LOGIC CIRCUITS SRPS014D D3520, AUGUST 1990 – REVISED NOVEMBER 1995 • • • • • • • • CLK/I I I I I I I I I I I GND Increased Logic Power – Up to 22 Inputs and 10 Outputs


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    PDF TIBPAL22V10-7C SRPS014D D3520, TIBPAL22V10 TIBPAL22V10-7C TIBPAL22V10-7CFN TIBPAL22V10-7CNT

    TIBPAL22V10-10C

    Abstract: TIBPAL22V10-10CFN TIBPAL22V10-10CNT
    Text: TIBPAL22V10-10C HIGH-PERFORMANCE IMPACT-X  PROGRAMMABLE ARRAY LOGIC CIRCUITS SRPS015 D3972, FEBRUARY 1992 • • • • • • • • • • High-Performance Operation: fmax External Feedback . . . 71 MHz Propagation Delay . . . 10 ns Max CLK/I


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    PDF TIBPAL22V10-10C SRPS015 D3972, TIBPAL22V10-10C TIBPAL22V10-10CFN TIBPAL22V10-10CNT

    3-bit binary multiplier using adder VERILOG

    Abstract: verilog code for crossbar switch vhdl code of carry save adder vhdl of carry save adder 32 bit carry select adder code vhdl code for carry select adder 8 bit carry select adder verilog code verilog code of carry save adder verilog code for 32 bit carry save adder verilog code for carry save adder
    Text: 2. Logic Array Blocks and Adaptive Logic Modules in Stratix III Devices SIII51002-1.1 Introduction This chapter describes the features of the logic array block LAB in the Stratix III core fabric. The logic array block is composed of basic building blocks known as adaptive logic modules (ALMs) that can be configured


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    PDF SIII51002-1 3-bit binary multiplier using adder VERILOG verilog code for crossbar switch vhdl code of carry save adder vhdl of carry save adder 32 bit carry select adder code vhdl code for carry select adder 8 bit carry select adder verilog code verilog code of carry save adder verilog code for 32 bit carry save adder verilog code for carry save adder

    3200DX

    Abstract: FCTD16C TA191 CNT4A AO11 TA273 dece2x4
    Text: Macro Library Guide 1995 This document was created with FrameMaker 4.0.2 Actel Corporation, Sunnyvale, CA 94086  1995 Actel Corporation. All rights reserved. Part Number: 5029009-0 September 1995 No part of this document may be copied or reproduced in any form or by any means


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    Untitled

    Abstract: No abstract text available
    Text: Cell-Based IC Race Conditions • Overview clock/set race: clock and set signals change close together. Depending on the order of the change, the set is immediately replaced by the clocked data value, or vice versa. clock/reset race: clock and reset signals change close together. The effect is similar to the clock/set race.


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    verilog code of carry save adder

    Abstract: vhdl code of carry save adder 16 bit carry select adder verilog code 3-bit binary multiplier using adder VERILOG verilog code for 16 bit carry select adder 8 bit carry select adder verilog code vhdl code for crossbar switch vhdl for carry save adder vhdl code for carry select adder 8 bit carry select adder verilog code with
    Text: 2. Logic Array Blocks and Adaptive Logic Modules in Stratix III Devices SIII51002-1.5 Introduction This chapter describes the features of the logic array block LAB in the Stratix III core fabric. The logic array block is composed of basic building blocks known as


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    PDF SIII51002-1 verilog code of carry save adder vhdl code of carry save adder 16 bit carry select adder verilog code 3-bit binary multiplier using adder VERILOG verilog code for 16 bit carry select adder 8 bit carry select adder verilog code vhdl code for crossbar switch vhdl for carry save adder vhdl code for carry select adder 8 bit carry select adder verilog code with

    Untitled

    Abstract: No abstract text available
    Text: 4402B 4412B INTERNATIONAL, INC CMOS EXPANDABLE GATES FEATURES + Dual 4~lnput Gates with Uncommitted Output Transistors ♦ Simplifies Construction of Combinational Logic Functions ♦ CMOS-to-TTL Interface Capability ♦ All Inputs Diode-Protected C O N N E C T IO N D I A G R A M


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    PDF 4402B 4412B 4402B) 4412B)

    Untitled

    Abstract: No abstract text available
    Text: c D -ifn n c c R ic c HIGH-PERFORMANCE 48-MACROCELL ONE-TIME PROGRAMMABLE LOGIC DEVICES S R E S 003-D 3880, NOVEMBER 1991 FN PACKAGE User-Configurable LSI Circuit Capable of Implementing 2100 Equivalent Gates of Conventional and Custom Logic TOP VIEW High-Performance CMOS Process Allows:


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    PDF 48-MACROCELL 003-D SRES003-D3880.

    EP330-12CN

    Abstract: EP330 EP330-15CN EP330-15C EP330-15 EP330-15CFN
    Text: C D f« C C D IC C HIGH-PERFORMANCE 8-MACROCELL ONE-TIME PROGRAMMABLE LOGIC DEVICES _ SRES002A - D3374, OCTOBER 1 9 8 9 - REVISED SEPTEMBER 1992 N PACKAGE Programmable Replacement for Conventional TTL, 74HC, and 20-Pin PLD Family TOP VIEW) High-Voltage EPIC Process Allows for


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    PDF SRES002A D3374, 20-Pin EP330 EP330-12CN EP330-15CN EP330-15C EP330-15 EP330-15CFN

    EP330-15CN

    Abstract: ep330 16XXB EP330-15CFN EP330-15
    Text: EP330 HIGH-PERFORMANCE 8-MACROCELL ERASABLE PROGRAMMABLE LOGIC DEVICE ! D3374, O C TO B ER 196! J OR N PACKAGE Programmable Replacement for Conventional TTL, 74HC, and 20-Pin PAL Family TOP VIEW CLK/I [ 1 UV-Light-Erasable Cell Technology Provides: — Reconfigurable Logic


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    PDF EP330 D3374, 20-Pin EP330-15CN 16XXB EP330-15CFN EP330-15

    Untitled

    Abstract: No abstract text available
    Text: TIBPAL22V10C, TIBPAL22V10AC, TIBPAL22V10AM HIGH-PERFORMANCE IMPACT PROGRAMMABLE ARRAY LOGIC CIRCUITS SRPS024 - D2943. OCTOBER 1 9 8 6 - REVISED MARCH 1992 • C SUFFIX. •NT PACKAGE M SUFFIX. . JT PACKAGE TOP VIEW Second-Generation PLD Architecture


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    PDF TIBPAL22V10C, TIBPAL22V10AC, TIBPAL22V10AM SRPS024 D2943. TIBPAL22V10AC. TIBPAL22V10AM. TIBPAL22V10C.

    Untitled

    Abstract: No abstract text available
    Text: PEEL 20CG10 AMI SEMICONDUCTORS CMOS Programmable Electrically Erasable Logic Device General Description Features The AMI PEEL20CG10 is a CMOS Programmable Electrically Erasable Logic device that provides a highperformance, low-power, reprogrammable, and architecturally enhanced alternative to conventional


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    PDF 20CG10 PEEL20CG10 PEEL20CG10

    programmable array logic

    Abstract: TIBPAL22V10-15BC
    Text: TIBPAL22V10-15BC HIGH-PERFORMANCE IMPACT-X PROGRAMMABLE ARRAY LOGIC CIRCUITS I SRPS009A - D3356, O CTO BER 1989 - REVISED JUNE 1990 NT PACKAGE TOP VIEW • Second-Generation PLD Architecture • High-Performance Operation: fmax (External Feedback). . . 40 MHz


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    PDF TIBPAL22V10-15BC Rel1989 programmable array logic

    Untitled

    Abstract: No abstract text available
    Text: TIBPAL22V1 OC, TIBPAL22V10AC, TIBPAL22V10AM HIGH-PERFORMANCE IM PACT PROGRAMMABLE ARRAY LOGIC CIRCUITS SRPS024 - D2943, O CTO BER 1986 - REVISED MARCH 1992 • Second-Generation PLD Architecture • Choice of Operating Speeds TIBPAL22V10AC . . . 25 ns Max


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    PDF TIBPAL22V1 TIBPAL22V10AC, TIBPAL22V10AM SRPS024 D2943, TIBPAL22V10AC TIBPAL22V10AM TIBPAL22V10C

    Untitled

    Abstract: No abstract text available
    Text: TIBPAL22V10-7C HIGH-PERFORMANCE IM PACT-X PROGRAMMABLE ARRAY LOGIC CIRCUITS SRPS014D - D3520, AUGUST 1990 - REVISED NOVEMBER 1995 I * Second-Generation PLD Architecture I * I High-Performance Operation: fmax External Feedback . . . 80 MHz Propagation Delay . . . 7.5 ns Max


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    PDF TIBPAL22V10-7C SRPS014D D3520,

    Untitled

    Abstract: No abstract text available
    Text: TIBPAL22V10-10C HIGH-PERFORMANCE IMPACT-X PROGRAMMABLE ARRAY LOGIC CIRCUITS R P S 0 1 5 - D3972, FEBRUARY 1992 • Second-Generation PLD Architecture • High-Performance Operation:


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    PDF TIBPAL22V10-10C D3972, 10-BIT