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ON Semiconductor
MC68020CRC16 - Bulk (Alt: MC68020CRC16)
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Avnet MC68020CRC16 Bulk 0 2 - - - - - Get Quote
Avnet, Inc.
MC68882CRC16A Hcmos Enhanced Floating-Point Coprocessor 68-Pin PGA Tray - Bulk (Alt: MC68882CRC16A)
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Avnet, Inc.
MC68302CRC16C MPU M68000 RISC 32-Bit HCMOS 16MHz 132-Pin PGA Tray - Bulk (Alt: MC68302CRC16C)
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Phoenix Contact
C-RC 16/M10 DIN Ring cable lug, non-insulated, 16 mmA², M10
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Onlinecomponents.com C-RC 16/M10 DIN 819 $0.6695 $0.6695 $0.6108 $0.5706 $0.5706 Buy Now
Phoenix Contact
C-RC 16/M8 DIN Ring cable lug, non-insulated, 16 mmA², M8
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Onlinecomponents.com C-RC 16/M8 DIN 80 $0.583 $0.583 $0.5531 $0.4656 $0.4656 Buy Now
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Phoenix Contact
C-RC 16/M6 DIN Ring cable lug, non-insulated, 16 mmA², M6
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Onlinecomponents.com C-RC 16/M6 DIN 400 $0.6026 $0.6026 $0.5449 $0.4759 $0.4759 Buy Now
Others
MC68020CRC16E Microprocessor, 32-Bit, 16.67MHz, HCMOS, CPGA114
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Others
MC68020CRC16 Microprocessor, CMOS
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Freescale Semiconductor
MC68020CRC16 undefined
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Freescale Semiconductor
MC68020CRC16E undefined
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Rochester Electronics (2) MC68020CRC16E 0 1 - - - - - Buy Now
MC68020CRC16E 4 1 $236.44 $236.44 $210.53 $192.11 $192.11 Buy Now
Freescale Semiconductor
MC68302CRC16C LAN Controller, 4 Channel(s), 1.25MBps, HCMOS, CPGA132
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Rochester Electronics MC68302CRC16C 28 1 $118.27 $118.27 $105.31 $96.09 $96.09 Buy Now
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Motorola Mobility LLC
MC68882CRC16A Math Coprocessor, 32-Bit, HCMOS, CPGA68
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Rochester Electronics MC68882CRC16A 910 1 $169.7 $169.7 $151.1 $137.88 $137.88 Buy Now
Motorola Semiconductor Products
MC68302CRC16
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Others
CRC1625
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Chip 1 Exchange CRC1625 5,078 - - - - - Get Quote
Others
CRC16-3322-FL
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Chip 1 Exchange CRC16-3322-FL 5,010 - - - - - Get Quote
Amphenol ICC
CRC16M23D28
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Master Electronics CRC16M23D28 1,733 - - - - - Buy Now
Cornell Dubilier Electronics Inc
CRC160J Cap Ceramic 16pF 2000V C0G 5% (10 X 5mm) Radial 6.4mm 125°C
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Sager CRC160J 0 - - - - - Buy Now

CRC-16 datasheet (2)

Part Manufacturer Description Type PDF
CRC160J Cornell Dubilier Capacitor: 16PF: 2K: C0G: Original PDF
CRC-16 and CRC-32 Cypress Semiconductor Parallel Cyclic Redundancy Check (CRC) for HOTLink Original PDF

CRC-16 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
001H

Abstract: Dallas iButton DS1990A CRC16 CRC-16 DS1990A DS1991 040-H CRC16L 160dec
Text: codes that are commonly used in digital data communications include the CRC-16 and the CRC-CCITT, each , Complement of Xi CRC-16 COMPUTATION FOR RAM RECORDS IN iButtons As mentioned in the introduction, some , the ROM. The particular CRC suggested is commonly referred to as CRC-16. The shift register and , numbers of bit errors to occur in the data, which the normal CRC-16 function is designed to detect. The , host. The normal CRC-16 function can also detect this condition under most circumstances. The third


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PDF DS1990A DS1991 crc16: CRC-16 001H Dallas iButton DS1990A CRC16 040-H CRC16L 160dec
1997 - CRC-16 ccitt

Abstract: CRC-16 XOR Gates codes for -16 bits crc implementation CRC calculator crc-16 implementation CRC16 crc 16 crc-calculator HSP3824
Text: Harris Semiconductor No. AN9701 Harris Wireless Products February 1997 CRC-16 Algorithm , divisor commonly called the polynomial. The CRC-16 algorithm is specified by the IEEE802.11 for use in the direct sequence physical layer PLCP (Physical Layer Convergence Protocol). The CCITT CRC-16 is a , Protected Fields in the PLCP Header The CCITT CRC-16 is calculated bit serially in the HSP3824 protecting , 3 and 4 of control register CR# 0 to a logic "1". Before the PLCP header is transmitted a CRC-16


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PDF AN9701 CRC-16 HSP3824 16-bit 1-800-4-HARRIS CRC-16 ccitt XOR Gates codes for -16 bits crc implementation CRC calculator crc-16 implementation CRC16 crc 16 crc-calculator HSP3824
1994 - CRC-32 LFSR

Abstract: CY7C384 cyclic redundancy check CY7C291A CY7B933 CY7B923 CRC-32 CRC-16 vhdl code CRC XOR four inputs
Text: CRC-16 Cypress Semiconductor Corporation · 3901 North First Street · San Jose · CA , then describes the most common CRC codes (CRC­ 16 and CRC­32) used in high-speed communications systems. Finally, an algorithm for calculating CRC­ 16 one byte at a time and for calculating CRC­32 two bytes at , programmable devices at the 155 to 330 MHz required to calculate the CRCs in a bit-serial fashion. CRC­ 16 , with CRC codes and two suitable codes are CRC­ 16 and CRC­32. As the names imply, CRC­ 16 is 16 bits


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PDF CY7B923 CY7B933 CRC-32 LFSR CY7C384 cyclic redundancy check CY7C291A CRC-32 CRC-16 vhdl code CRC XOR four inputs
1997 - CRC-16

Abstract: CRC-16 ccitt touch memory 041H CRC calculator 50 Ways to TOuch Memory Dallas semiconductor DS1991 DS1990A 12TH 50 Ways to TOuch Memory
Text: include the CRC-16 and the CRC-CCITT , each of which computes a 16 -bit CRC value. The Dallas , Decimal Note: Xi* = Complement of Xi CRC-16 COMPUTATION FOR RAM RECORDS IN TOUCH MEMORIES As , referred to as CRC-16. The shift register and polynomial representations are given in Figure 6. The figure , , which the normal CRC-16 function is designed to detect. The second type of error occurs when contact is , connection to a Touch Memory will be interpreted as all 1's by the host. The normal CRC-16 function can also


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

Abstract: CRC16 crc-16 implementation
Text: 02.18.99 Design Ideas Page 1 o f 2 PIC |jC implements CRC-16 algorithm Lon Glastner , , including the Dow CRC (8 bits), CRC-16 , and CRC-CCITT (both 16 bits). The CRC-16 uses a 16 -bit shift , large clusters of errors. You can characterize the CRC-16 as both a polynomial expression and as a hardware-based shift register (Figure 1). You can implement a CRC-16 in a midrange PIC pC with minimal coding and , communications. This implementation does not focus on the mathematical proof of a CRC-16's errorcorrecting


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PDF CRC-16 CRC-16, 16-bit CRC16 999/021899/di2321 crc-16 implementation
CRC16

Abstract: CRC-16 CRC-16 pin A001 ST01 modbus RS485
Text: PROTOCOL 7.1 Error check ( CRC-16 ) 7.2 Master to one slave communication frame 7.3 Broadcast , 1 Data n Error check ( CRC-16 ) (low byte) 1 Error check ( CRC-16 ) (high byte) 1 , greater than 3,5 T.U. (Time Unit = time necessary to transmit one character). 7.1 ERROR CHECK ( CRC-16 ) The CRC-16 value is calculated by the transmitting device, this value is appended to the message. The receiving device recalculates a CRC-16 and compares the calculated value to the received value


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PDF ST57-01C-xx CRC-16) CRC-16 CRC16 CRC-16 CRC-16 pin A001 ST01 modbus RS485
1999 - 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 , divisor commonly called the polynomial. The CRC-16 algorithm is specified by the IEEE802.11 for use in the direct sequence physical layer PLCP (Physical Layer Convergence Protocol). The CCITT CRC-16 is a , in the PLCP Header The CCITT CRC-16 is calculated bit serially in the HFA3824 protecting the Signal , Register CR# 0 to a logic "1". Before the PLCP header is transmitted a CRC-16 checksum calculated and


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PDF CRC-16 HFA3824 AN9701 CRC-16 ccitt codes for -16 bits crc implementation XOR Gates CRC16 HFA3824 polynomial calculation
2001 - CRC-16 ccitt

Abstract: CRC-16 crc-calculator AN9701 CRC16 HFA3824 XOR Gates
Text: CRC-16 Algorithm for Packetized WLAN Protocols on the HFA3824 TM Application Note October , divisor commonly called the polynomial. The CRC-16 algorithm is specified by the IEEE802.11 for use in the direct sequence physical layer PLCP (Physical Layer Convergence Protocol). The CCITT CRC-16 is a , in the PLCP Header The CCITT CRC-16 is calculated bit serially in the HFA3824 protecting the Signal , Register CR# 0 to a logic "1". Before the PLCP header is transmitted a CRC-16 checksum calculated and


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PDF CRC-16 HFA3824 AN9701 CRC-16 CRC-16 ccitt crc-calculator CRC16 HFA3824 XOR Gates
Not Available

Abstract: No abstract text available
Text: Keywords: 1-wire devices, DOW CRC, CRC-16 , 16 -bit 8-bit CRC, ¡Button CRC, cyclic redundancy check, ROM ID , ory o f the devices. Both the DOW CRC and the CRC-16 are also generated in hardware o f select 1 , computed. CRC codes that are commonly used in digital data communications include the CRC-16 and the , * x0 * Final 1 1 1 Note: X|* = Complement of X* CRC-16 Computation for RAM Records in , referred to as CRC-16. The shift register and polynomial representations are given in Figure 3. The figure


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PDF CRC-16, 16-bit 18S20: DS1904: DS1920: DS1963L: DS1963S: DS1971: DS1973: DS1982:
1995 - CRC-32 LFSR

Abstract: CRC-16 and CRC-32 CRC-32 CRC 32 cyclic redundancy check CRC-16 crc32 CY7C384 CY7C291A CY7B933
Text: most common CRC CRC-16 and CRC-32 codes ( CRC-16 and CRC-32) used in highspeed com In , algorithm for cal culating CRC-16 one byte at a time and for calcu lating CRC-32 two bytes at a time is , Some systems go to great lengths to detect data cor CRC-16 ruption. Parity is sometimes used to provide a small CRC-16 is 16 bits long and CRC-32 is 32 bits long. measure of robustness by , ap 16 CRC-16 has a generator polynomial G(x) = x x x 15 23 + x + x 2 32 + 1


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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 CY7C291A
1999 - vhdl code for 8-bit parity checker

Abstract: vhdl code for 8 bit odd parity checker vhdl code for parity checker CRC-16 and CRC-32 vhdl code CRC vhdl code for 8-bit odd parity checker 04C11DB7 vhdl code CRC 32 h8005 vhdl code for 8 bit parity generator
Text: first be converted to a binary value. For example, the CRC-16 generator polynomial is defined as: X16 , where there is a non-zero power in the generator polynomial. Thus, the CRC-16 generator polynomial , 17-bit binary number, which represents the CRC-16 generator polynomial, becomes the following 16 , CHECK (Hexadecimal) CRC-16 /ARC 16 8005 0000 "YES" "YES" 0000 BB3D CRC-16 , ) 318 8-bit wide input 87 70 560 1-bit wide input CRC-16 /CCITT generator polynomial


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1997 - H8005

Abstract: 04c11db7 vhdl code for 8-bit odd parity checker vhdl code for 8 bit odd parity checker vhdl code for 3 bit parity checker vhdl code CRC 32 CRC-16 ccitt CRC-32 vhdl code for 8 bit ODD parity generator CRC Generator checker 32-bit
Text: be converted to a binary value. For example, the CRC-16 generator polynomial is defined as: X16 + X15 , there is a non-zero power in the generator polynomial. Thus, the CRC-16 generator polynomial equals the , number, which represents the CRC-16 generator polynomial, becomes the following 16 -bit binary number: B , (Hexadecimal) CRC-16 /ARC CRC-16 /CITT Kermit CRC-32/ ADCCP JamCRC ZMODEM Note: (1) (Hexadecimal) "YES" , -32 generator polynomial CRC-16 /CCITT generator polynomial 32-bit wide input 8-bit wide input 1-bit wide input


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1999 - codes for -16 bits crc implementation

Abstract: AN9701.1
Text: CRC-16 Algorithm for Packetized WLAN Protocols on the HFA3824 Application Note October 1998 AN9701 , commonly the CRC. The fixed binary number is the divisor commonly called the polynomial. The CRC-16 , Convergence Protocol). The CCITT CRC-16 is a standardized algorithm with origins to the CCITT standards body , CCITT CRC-16 is calculated bit serially in the HFA3824 protecting the Signal, Service and Length fields , logic "1". Before the PLCP header is transmitted a CRC-16 checksum calculated and appended to the length


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PDF CRC-16 HFA3824 AN9701 an970 CRC16 HFA38 codes for -16 bits crc implementation AN9701.1
2012 - CRC-8 ccitt

Abstract: No abstract text available
Text: standard polynomial is given in the tool tip. The default is CRC-16. Polynomial Name Custom CRC-1 CRC , ) PSoC® CreatorTM Component Datasheet Polynomial Name CRC-8 CRC-8-SAE CRC-10 CRC-12 CRC-15-CAN CRC-16-CCITT 8 8 7 4 6 3 4 2 2 Polynomial x +x +x +x +x +1 x +x +x +x +1 x x x x 10 12 15 16 Use General , , CRCCCITT USB +x +1 CRC-16 CRC-24-Radix64 CRC-32-IEEE802.3 CRC-32C CRC-32K CRC-64-ISO CRC-64-ECMA x 16 24 +x 15 23 +x +1 18 2 x +x +x +x+1 x +x +x 2 +x +x+1 32 28 32 26 +x +x 17


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2002 - 001H

Abstract: volume 36
Text: commonly used in digital data communications include the CRC-16 and the CRC-CCITT, each of which computes a , : Xi* = Complement of Xi CRC-16 COMPUTATION FOR RAM RECORDS IN iButtons As mentioned in the , for the ROM. The particular CRC suggested is commonly referred to as CRC-16. The shift register and , errors to occur in the data, which the normal CRC-16 function is designed to detect. The second type of , logic 1s, since no connection to an iButton will be interpreted as all 1s by the host. The normal CRC-16


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

Abstract: 001H CRC-16 ccitt CRC16 DS18B20 DS18S20 DS1990A DS1991 Appnote27 volume 36
Text: Maxim > App Notes > 1-Wire® DEVICES BATTERY MANAGEMENT Keywords: 1-wire devices, DOW CRC, CRC-16 , is used to verify records saved in the memory of the devices. Both the DOW CRC and the CRC-16 are , data communications include the CRC-16 and the CRCCCITT, each of which computes a 16 -bit CRC value. The , CRC Value = 35 Hex, 53 Decimal Note: Xi* = Complement of Xi CRC-16 Computation for RAM Records , referred to as CRC-16. The shift register and polynomial representations are given in Figure 3. The figure


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PDF CRC-16, 16-bit DS2432: DS2433: DS2438: DS2450: DS2502: DS2502-E48: DS2505: CRC-16 001H CRC-16 ccitt CRC16 DS18B20 DS18S20 DS1990A DS1991 Appnote27 volume 36
2011 - crc 64

Abstract: CRC32-C CRC-15-CAN CRC32C CRC-8 ccitt
Text: standard polynomial is given in the tool tip. The default is CRC-16. Polynomial Name Custom CRC-1 CRC , ) PSoC CreatorTM Component Datasheet ® Polynomial Name CRC-8 CRC-8-SAE CRC-10 CRC-12 CRC-15-CAN CRC-16-CCITT 8 8 7 4 6 3 4 2 2 Polynomial x +x +x +x +x +1 x +x +x +x +1 x x x x 10 12 15 16 Use General , , CRCCCITT USB +x +1 CRC-16 CRC-24-Radix64 CRC-32-IEEE802.3 CRC-32C CRC-32K CRC-64-ISO CRC-64-ECMA x 16 24 +x 15 23 +x +1 18 2 x +x +x +x+1 x +x +x 2 +x +x+1 32 28 32 26 +x +x 17


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XOR Gates

Abstract: codes for -16 bits crc implementation crc16 ccitt
Text: Sem iconductor CRC-16 Algorithm for Packetized WLAN Protocols on the HFA3824 A p p lic a t io n , binary number is the divisor commonly called the polynomial. The CRC-16 algorithm is specified by the , CCITT CRC-16 is a standardized algorithm with origins to the CCITT standards body. The polynomial for , condition needs to be avoided. CRC16 Protected Fields in the PLCP Header T^e CCITT CRC-16 is calculated , header is transmitted a CRC-16 checksum calculated and appended to the length field. The Signal, Service


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PDF CRC-16 HFA3824 16-bit 1-800-4-HARRIS CRC-16POLYNOMIAL: CCITTCRC-16 XOR Gates codes for -16 bits crc implementation crc16 ccitt
1998 - 12TH

Abstract: DS1990A DS1991
Text: include the CRC­ 16 and the CRC­CCITT, each of which computes a 16 ­bit CRC value. The Dallas , , 182, 156, 1, 191, 34, 218, 71, 249, 100, 16 , 141, 51, 174, 86, 203, 117, 232, 126 , Xi CRC­ 16 COMPUTATION FOR RAM RECORDS IN iButtons As mentioned in the introduction, some iButton , using a 16 ­bit CRC value to ensure the integrity of the data, rather than the 8­bit DOW CRC used for the ROM. The particular CRC suggested is commonly referred to as CRC­ 16 . The shift register and


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PDF DS1990A DS1991 AB01X ABCDEFG0123456 ABCDEFGH01234567 12TH
2012 - crc8 1wire

Abstract: CRC-16 ccitt CRC-64-ISO CRC-8 ccitt ECMA-182 code 4 bit LFSR
Text: standard polynomial is given in the tool tip. The default is CRC-16. Polynomial Name Custom CRC-1 CRC , ) PSoC® CreatorTM Component Datasheet Polynomial Name CRC-8 CRC-8-SAE CRC-10 CRC-12 CRC-15-CAN CRC-16-CCITT 8 8 7 4 6 3 4 2 2 Polynomial x +x +x +x +x +1 x +x +x +x +1 x x x x 10 12 15 16 9 5 4 Use , +x +1 CRC-16 CRC-24-Radix64 CRC-32-IEEE802.3 CRC-32C CRC-32K CRC-64-ISO CRC-64-ECMA x 16 24 , General Ethernet, MPEG2 General General ISO 3309 23 22 16 12 11 +x +x +x +x +x +x 19


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2013 - CRC-15-CAN

Abstract: CRC 8 cyclic redundancy check bluetooth usb CRC-16 v.41 ECMA-182 CRC-16-CCIT psoc full projects CRC-8 ccitt
Text: standard polynomial is given in the tool tip. The default is CRC-16. Polynomial Name Custom CRC-1 CRC , ) PSoC® CreatorTM Component Datasheet Polynomial Name CRC-8 CRC-8-SAE CRC-10 CRC-12 CRC-15-CAN CRC-16-CCITT 8 8 7 4 6 3 4 2 2 Polynomial x +x +x +x +x +1 x +x +x +x +1 x x x x 10 12 15 16 Use General , , CRCCCITT USB +x +1 CRC-16 CRC-24-Radix64 CRC-32-IEEE802.3 CRC-32C CRC-32K CRC-64-ISO CRC-64-ECMA x 16 24 +x 15 23 +x +1 18 2 x +x +x +x+1 x +x +x 2 +x +x+1 32 28 32 26 +x +x 17


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2005 - RX-UHF-00C01-03

Abstract: CRC-16 60H-6FH 00c01 EPC-31 50H-5FH 40H-4FH
Text: 70h-7Fh 60h-6Fh 40h-4Fh EPC[79:64] EPC[95:80] 10h-1Fh PROTOCOL CONTROL BITS 00h-0Fh CRC-16 , > 44 Yes CRC-16 Reserved for future use 1011 - - NAK 11000000 8 Yes Unique command length Req_RN 11000001 40 Yes CRC-16 Read 11000010 > 57 Yes CRC-16 Write Kill 11000011 11000100 > 58 59 Yes Yes CRC-16 CRC-16 Protection - Lock 11000101 60 Yes CRC-16 Access 11000110 56 Yes CRC-16


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2009 - DS2505

Abstract: 007H DS2505P
Text: example implementations in both hardware and software, see the Book of DS19xx iButton Standards. CRC-16 , scratchpad and then verified by reading a 16 -bit CRC from the DS2505 that confirms proper receipt of the , , the bus master may issue sixteen additional read time slots and the DS2505 will respond with a 16 , issued. Any reads ended by a reset pulse prior to reaching the end of memory will not have the 16 -bit CRC available. Typically a 16 -bit CRC would be stored with each page of data to ensure rapid


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PDF DS2505 64-bit 48-bit 256-bit DS2505 007H DS2505P
puls p-f2

Abstract: scada intouch RVVP wire 100v40 CRC-16 1kva kilowatt hour meter 220-6v three phase kilowatt-hour meter IS2208
Text: the last two bytes in message, and it is used for transmitting the value of CRC-16 which is for , calculate the value of CRC-16 and attach it into check section. The equipment received message will calculate the value of CRC-16 again and compare it with the value of CRC-16 received. If these two values , CRC-16 lists as below: 1) preset 16 bit register as 0xFFFF(i.e. all digits are 1), this register is , Data # of Reg lo 0x03 Byte Count 0x01 Data 0xff CRC-16 lo 0x02 CRC-16 lo 0xB9 DO #


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PDF EN9620 RS-485 RS-485: AWG18. puls p-f2 scada intouch RVVP wire 100v40 CRC-16 1kva kilowatt hour meter 220-6v three phase kilowatt-hour meter IS2208
2010 - EP2AGX125

Abstract: EP2AGX190 EP2AGX260 EP2AGX45 EP2AGX65
Text: engine generates 16 CRC check bits per frame and then stores them into the configuration random access memory (CRAM). The CRAM chain used for storing CRC check bits is 16 -bits wide; its length is equal to , software. A single 16 -bit CRC calculation is done on a per-frame basis. After it has finished the CRC calculation for a frame, the resulting 16 -bit signature is hex 0000, if there are no detected CRAM bit errors , error detection logic continues to calculate the CRC_ERROR and 16 -bit signatures for the next frame of


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PDF AIIGX51010-3 EP2AGX125 EP2AGX190 EP2AGX260 EP2AGX45 EP2AGX65
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