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    CRC16-POLYNOMIAL CIRCUIT DESIGN Search Results

    CRC16-POLYNOMIAL CIRCUIT DESIGN Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TLP2701 Toshiba Electronic Devices & Storage Corporation Photocoupler (photo-IC output), 5000 Vrms, 4pin SO6L Visit Toshiba Electronic Devices & Storage Corporation
    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
    74HC4051FT Toshiba Electronic Devices & Storage Corporation CMOS Logic IC, SP8T(1:8)/Analog Multiplexer, TSSOP16B, -40 to 125 degC Visit Toshiba Electronic Devices & Storage Corporation
    TCKE800NA Toshiba Electronic Devices & Storage Corporation eFuse IC (electronic Fuse), 4.4 to 18 V, 5.0 A, Auto-retry, WSON10B Visit Toshiba Electronic Devices & Storage Corporation
    TCKE800NL Toshiba Electronic Devices & Storage Corporation eFuse IC (electronic Fuse), 4.4 to 18 V, 5.0 A, Latch, WSON10B Visit Toshiba Electronic Devices & Storage Corporation

    CRC16-POLYNOMIAL CIRCUIT DESIGN Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    CRC-16-CCIT

    Abstract: No abstract text available
    Text: 13. 16-Bit CRC Generator 16-Bit CRC Generator Data Sheet CRC16 vX.Y Copyright 2002-2008. Cypress Semiconductor. All Rights Reserved. Digital Analog CT Analog SC Flash RAM Pins per External I/O and Clock CY8C29/27/24/22/21xxx, CY8C23x33, CY8CLED02/04/08/16


    Original     		PDF 16-Bit CRC16 CY8C29/27/24/22/21xxx, CY8C23x33, CY8CLED02/04/08/16 CYWUSB6953 CY8C26/25xxx CRC-16-CCIT

    CRC-16 ccitt

    Abstract: CRC-16 codes for -16 bits crc implementation XOR Gates CRC16 AN9701 HFA3824 polynomial calculation
    Text: CRC-16 Algorithm for Packetized WLAN Protocols on the HFA3824 Application Note October 1998 AN9701.1 Authors: Al Petrick, John Fakatselis Introduction In packetize RF data transmissions systems, transmitted messages are susceptible to various types of bit errors


    Original     		PDF CRC-16 HFA3824 AN9701 CRC-16 ccitt codes for -16 bits crc implementation XOR Gates CRC16 HFA3824 polynomial calculation

    CRC-16 ccitt

    Abstract: CRC-16 codes for -16 bits crc implementation XOR Gates CRC calculator crc-calculator CRC16 crc-16 implementation crc 16 AN9701
    Text: Harris Semiconductor No. AN9701 Harris Wireless Products February 1997 CRC-16 Algorithm for Packetized WLAN Protocols on the HSP3824 Authors: Al Petrick, John Fakatselis Introduction 2 arithmetic. Only the coefficient taps in the polynomial are used with the XOR gates for modulo 2 arithmetic. The message is shifted in serially MSB first. The resultant 16-bit parallel output is the remainder, inverted and appended as the


    Original     		PDF AN9701 CRC-16 HSP3824 16-bit 1-800-4-HARRIS CRC-16 ccitt codes for -16 bits crc implementation XOR Gates CRC calculator crc-calculator CRC16 crc-16 implementation crc 16 AN9701

    CRC-32 LFSR

    Abstract: CRC-16 and CRC-32 CRC-32 CRC 32 cyclic redundancy check CRC-16 crc32 COM0009-0394 CY7B933 CY7C291A
    Text: Parallel Cyclic Redundancy Check CRC t for HOTLink ful. Introduction Since an error of any kind is rare in typical sysĆ 12 tems (1 in 10 bits), errors of greater than two bits This note discusses using CRC codes to insure data are only a small portion of this number, which leaves


    Original     		PDF CY7B923 CY7B933 CRC-16 CRC-32 CRC-32) CY7C384A-1JC CRC-32 CY7C384 CRC-32 LFSR CRC-16 and CRC-32 CRC 32 cyclic redundancy check crc32 COM0009-0394 CY7C291A

    CRC-16

    Abstract: CRC-16 ccitt touch memory 041H CRC calculator 50 Ways to TOuch Memory Dallas semiconductor transistor 016h 12TH DS1990A DS1991
    Text: APPENDIX 1 UNDERSTANDING AND USING CYCLIC REDUNDANCY CHECKS WITH TOUCH MEMORY PRODUCTS INTRODUCTION The Touch Memory products are a family of devices that all communicate over a single wire following a specific command sequence referred to as the one-wire Protocol. A key feature of each device is a unique 8-byte ROM code


    Original     		PDF DS1990A DS1991 ABCDEFGHP01234567 AB01X AB01X CRC-16 CRC-16 ccitt touch memory 041H CRC calculator 50 Ways to TOuch Memory Dallas semiconductor transistor 016h 12TH

    CRC-16

    Abstract: 001H CRC-16 ccitt CRC16 DS18B20 DS18S20 DS1904 DS1990A DS1991 Appnote27
    Text: Maxim > App Notes > 1-Wire DEVICES BATTERY MANAGEMENT Keywords: 1-wire devices, DOW CRC, CRC-16, 16-bit 8-bit CRC, iButton CRC, cyclic redundancy check, ROM ID, 1-wire bus Mar 29, 2001 APPLICATION NOTE 27 Understanding and Using Cyclic Redundancy Checks with Maxim


    Original     		PDF CRC-16, 16-bit DS2432: DS2433: DS2438: DS2450: DS2502: DS2502-E48: DS2505: CRC-16 001H CRC-16 ccitt CRC16 DS18B20 DS18S20 DS1904 DS1990A DS1991 Appnote27

    crc verilog code 16 bit

    Abstract: CRC-16 and CRC-32 Ethernet verilog code CRC8 CRC-32 LFSR crc 16 verilog 802.3 CRC32 cyclic redundancy check verilog source CRC-16 and CRC-32 verilog code 8 bit LFSR XAPP209
    Text: Application Note: Virtex Series and Virtex-II Family R IEEE 802.3 Cyclic Redundancy Check Author: Chris Borrelli XAPP209 v1.0 March 23, 2001 Summary Cyclic Redundancy Check (CRC) is an error-checking code that is widely used in data communication systems and other serial data transmission systems. CRC is based on


    Original     		PDF XAPP209 CRC-12, CRC-16, CRC-32, CRC-32. geG256 crc verilog code 16 bit CRC-16 and CRC-32 Ethernet verilog code CRC8 CRC-32 LFSR crc 16 verilog 802.3 CRC32 cyclic redundancy check verilog source CRC-16 and CRC-32 verilog code 8 bit LFSR XAPP209

    001H

    Abstract: volume 36
    Text: Application Note 27 Understanding and Using Cyclic Redundancy Checks with Dallas Semiconductor iButtonTM Products www.dalsemi.com INTRODUCTION The Dallas Semiconductor iButton products are a family of devices that all communicate over a single wire following a specific command sequence referred to as the 1-WireTM Protocol. A key feature of each


    Original     		PDF DS1990A DS1991 CRC-16 crc16: 001H volume 36

    001H

    Abstract: Dallas iButton DS1990A CRC16 CRC-16 DS1990A DS1991 040-H CRC16L 160dec
    Text: Application Note 27 Understanding and Using Cyclic Redundancy Checks with Dallas Semiconductor iButtonTM Products www.dalsemi.com INTRODUCTION The Dallas Semiconductor iButton products are a family of devices that all communicate over a single wire following a specific command sequence referred to as the 1-WireTM Protocol. A key feature of each


    Original     		PDF DS1990A DS1991 crc16: CRC-16 001H Dallas iButton DS1990A CRC16 040-H CRC16L 160dec

    0x1021

    Abstract: AN3969 crc-16 implementation APP3969 AT29LV512 CRC-16 MAXQ2000 atmel sd card module
    Text: Maxim > App Notes > MICROCONTROLLERS Keywords: SD, external memory, nonvolatile, MAXQ2000 Jan 12, 2007 APPLICATION NOTE 3969 SD Media Format Expands the MAXQ2000's Space for Nonvolatile Data Storage Abstract: This article demonstrates how to use the Secure Digital SD media format to expand the


    Original     		PDF MAXQ2000 MAXQ2000 32kWords com/an3969 MAXQ2000: AN3969, 0x1021 AN3969 crc-16 implementation APP3969 AT29LV512 CRC-16 atmel sd card module

    6ap3

    Abstract: No abstract text available
    Text: 54F 74F402 Serial Data Polynomial Generator Checker General Description Features The ’F402 expandable Serial Data Polynomial generator checker is an expandable version of the ’F401 It provides an advanced tool for the implementation of the most widely


    Original     		PDF 74F402 CRC-16 54F402 59629059301M2A 5962-9059301M2A 5962-9059301MEA 1-Sep-2000] 54F402DMQB 5962-9059301MEA 6ap3

    Untitled

    Abstract: No abstract text available
    Text: Rev 1; 3/08 1024-Bit, 1-Wire EEPROM for Automotive Applications The DS2431-A1 is an AEC-Q100 Grade 1 qualified version of the DS2431. The logical behavior of both versions is identical. The DS2431-A1 is a 1024-bit, 1-Wire EEPROM chip organized as four memory pages of 256


    Original     		PDF 1024-Bit, DS2431-A1 AEC-Q100 DS2431. 64-bit numbe024-Bit, DS2431-A1

    Untitled

    Abstract: No abstract text available
    Text: Rev 1; 3/08 1024-Bit, 1-Wire EEPROM for Automotive Applications The DS2431-A1 is an AEC-Q100 Grade 1 qualified version of the DS2431. The logical behavior of both versions is identical. The DS2431-A1 is a 1024-bit, 1-Wire EEPROM chip organized as four memory pages of 256


    Original     		PDF 1024-Bit, DS2431-A1 AEC-Q100 DS2431. 64-bit DS2431-A1

    Maxim date code DS2431

    Abstract: No abstract text available
    Text: Rev 1; 3/08 1024-Bit, 1-Wire EEPROM for Automotive Applications The DS2431-A1 is an AEC-Q100 Grade 1 qualified version of the DS2431. The logical behavior of both versions is identical. The DS2431-A1 is a 1024-bit, 1-Wire EEPROM chip organized as four memory pages of 256


    Original     		PDF 1024-Bit, DS2431-A1 AEC-Q100 DS2431. 64-bit DS2431-A1 Maxim date code DS2431

    1189h

    Abstract: B69Ah CRCD CRC-16 PM20 crc-16 implementation
    Text: APPLICATION NOTE M16C/26A,29 Group CRC Calculation Circuit 1. Abstract This application note describes how to use CRC calculation circuit of the M16C/26A and M16C/29 Group microcomputers, and shows a method on how to detect a communication error. 2. Introduction


    Original     		PDF M16C/26A M16C/29 M16C/26A, REC05B0005-0102/Rev 1189h B69Ah CRCD CRC-16 PM20 crc-16 implementation

    Maxim date code DS2431

    Abstract: DS2431-A1 AEC-Q100 CRC-16 DS2431 DS2480B DS2490
    Text: Rev 0; 11/07 1024-Bit, 1-Wire EEPROM for Automotive Applications The DS2431-A1 is an AEC-Q100 Grade 1 qualified version of the DS2431. The logical behavior of both versions is identical. The DS2431-A1 is a 1024-bit, 1-Wire EEPROM chip organized as four memory pages of 256


    Original     		PDF 1024-Bit, DS2431-A1 AEC-Q100 DS2431. 64-bit 0000h 56-G2016-001 Maxim date code DS2431 CRC-16 DS2431 DS2480B DS2490

    28EC20

    Abstract: DS28EC20 ink cartridge chip CRC16 CRC-16 DS2433 DS2480B DS2490 J-STD-020A 0A05H
    Text: DS28EC20 20Kb 1-Wire EEPROM www.maxim-ic.com GENERAL DESCRIPTION FEATURES The DS28EC20 is a 20480-bit, 1-Wire EEPROM organized as 80 memory pages of 256 bits each. An additional page is set aside for control functions. Data is written to a 32-byte scratchpad, verified, and


    Original     		PDF DS28EC20 DS28EC20 20480-bit, 32-byte 64-bit CRC16\ 28EC20 ink cartridge chip CRC16 CRC-16 DS2433 DS2480B DS2490 J-STD-020A 0A05H

    X3.28 nak

    Abstract: No abstract text available
    Text: Signetics SCN2653/SCN68653 Polynomial Generator Checker PGC Product Specification Microprocessor Products DESCRIPTION FEATURES The Signetics SCN2653/68653 Polyno­ mial Generator Checker (PGC) Is a poly­ nomial generator ch e c k e r/c h a ra c te r comparator circuit that complements a


    OCR Scan     		PDF SCN2653/SCN68653 SCN2653/68653 600ns 150pF. X3.28 nak

    SCN2653/SCN68653

    Abstract: SCN2653AC4N16 SCN2653 2653 SIGNETICS X3.28 nak SCN2661 300MIL CRC-12 CRC-16 SCN2651
    Text: Signetics SCN2653/SCN68653 Polynomial Generator Checker PGC Product Specification Microprocessor Products DESCRIPTION FEATURES The Signetics SCN2653/68653 Polyno­ mial Generator Checker (PGC) Is a poly­ nomial ge nerator ch e c k e r/c h a ra c te r comparator circuit that complements a


    OCR Scan     		PDF SCN2653/68653 600ns 150pF. SCN2653/SCN68653 SCN2653/SCN68653 SCN2653AC4N16 SCN2653 2653 SIGNETICS X3.28 nak SCN2661 300MIL CRC-12 CRC-16 SCN2651

    SCN2651

    Abstract: SCN2661 300MIL CRC-12 CRC-16 SCN2652 SCN2653AC4I16 SCN2653AC4N16 SCN2653ACD16
    Text: SCN2653/SCN68653 Polynomial Generator Checker PGC Product Specification Microprocessor Products DESCRIPTION FEATURES T h e S ig n e tic s S C N 2 6 5 3 /6 8 6 5 3 P o ly n o ­ m ia l G e n e r a to r C h e c k e r (P G C ) is a p o ly ­ n o m ia l g e n e r a to r c h e c k e r / c h a r a c t e r


    OCR Scan     		PDF SCN2653/68653 600ns 150pF. SCN2663/SCN68653 wmq430s SCN2651 SCN2661 300MIL CRC-12 CRC-16 SCN2652 SCN2653AC4I16 SCN2653AC4N16 SCN2653ACD16

    Untitled

    Abstract: No abstract text available
    Text: iW 5 E K ON DU C T ^ Maxim/Dalias > A d d Notes > 1-WIRE 5> DEVICES BATTERY MANAGEMENT Keywords: 1-wire devices, DOW CRC, CRC-16, 16-bit 8-bit CRC, ¡Button CRC, cyclic redundancy check, ROM ID, 1-wire bus Mar 29, 2001 A P P L I C A T I O N N O TE 27 Understanding and Using Cyclic Redundancy Checks with Dallas


    OCR Scan     		PDF CRC-16, 16-bit 18S20: DS1904: DS1920: DS1963L: DS1963S: DS1971: DS1973: DS1982:

    74LS1801

    Abstract: diode oat 74LS1802 CRC-16 DAT14 crc circuits polynomials intel
    Text: Signetics 7 4 LS1802 Bit Stream Manager Serializer/Deserializer Product Specification Logic Products DESCRIPTION FEATURES The 74LS1802 Serializer/Deserializer Figure 1 incorporates speed, flexibility, and proven ISL technology into a gener­ al-purpose device that performs many of


    OCR Scan     		PDF 74LS1802 74LS1802 16-bit DAT0-DAT15 dato-dat15 74LS1801 diode oat CRC-16 DAT14 crc circuits polynomials intel

    74ls180

    Abstract: ix2122 74LS1801 DAT14 74LS1802
    Text: 74LS1802 Signetics Bit Stream Manager Serializer/Deserializer Product Specification Logic Products DESCRIPTION FEATURES The 74LS1802 Serializer/Deserializer Figure 1 incorporates speed, flexibility, and proven ISL technology into a gener­ al-purpose device that performs many of


    OCR Scan     		PDF 74LS1802 74LS1802 16-bit 74ls180 ix2122 74LS1801 DAT14

    74ls1801

    Abstract: No abstract text available
    Text: Signetics 74LS1802 Bit Stream Manager Serializer/Deserializer Product Specification Logic Products DESCRIPTION FEATURES The 74LS1802 Serializer/Deserializer Figure 1 incorporates speed, flexibility, and proven ISL technology into a gener­ al-purpose device that performs many of


    OCR Scan     		PDF 74LS1802 74LS1802 16-bit 74ls1801