DS1982-F5+ Maxim Integrated Products, DS1982-F5+ Datasheet - Page 3

Manufacturer Part Number

DS1982-F5+

Description

IBUTTON 1KBit ADD-ONLY F5

Manufacturer

Maxim Integrated Products

Series

iButton®r

Datasheet

1.DS1982-F5.pdf (24 pages)

Rohs Information

IButton RoHS Compliance Plan

Memory Size

128B

Memory Type

EPROM

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

DS1982

64-BIT LASERED ROM

Each DS1982 contains a unique ROM code that is 64 bits long. The first 8 bits are a 1-Wire family code.

The next 48 bits are a unique serial number. The last 8 bits are a CRC of the first 56 bits (see Figure 3).

The 64-bit ROM and ROM Function Control section allow the DS1982 to operate as a 1-Wire device and

follow the 1-Wire protocol detailed in the section “1-Wire Bus System.” The memory functions required

to read and program the EPROM sections of the DS1982 are not accessible until the ROM function

protocol has been satisfied. This protocol is described in the ROM functions flow chart (Figure 9). The

1-Wire bus master must first provide one of four ROM function commands: 1) Read ROM, 2) Match

ROM, 3) Search ROM, or 4) Skip ROM. After a ROM function sequence has been successfully executed,

the bus master may then provide any one of the memory function commands specific to the DS1982

(Figure 6).

The 1-Wire CRC of the lasered ROM is generated using the polynomial X

+ X

+ 1. Additional

information about the Maxim 1-Wire Cyclic Redundancy Check is available in the Book of DS19xx

iButton Standards. The shift register acting as the CRC accumulator is initialized to 0. Then starting with

the least significant bit of the family code, 1 bit at a time is shifted in. After the 8

bit of the family code

has been entered, then the serial number is entered. After the 48

bit of the serial number has been

entered, the shift register contains the CRC value. Shifting in the 8 bits of CRC should return the shift

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