DS2784G+T&R Maxim Integrated Products, DS2784G+T&R Datasheet - Page 34

DS2784G+T&R

Manufacturer Part Number

DS2784G+T&R

Description

IC FUEL GAUGE STND-ALONE 14-TDFN

Manufacturer

Maxim Integrated Products

Datasheet

1.DS2784G.pdf (43 pages)

Specifications of DS2784G+T&R

Function

Fuel, Gas Gauge/Monitor

Battery Type

Lithium-Ion (Li-Ion), Lithium-Polymer (Li-Pol)

Voltage - Supply

2.5 V ~ 4.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

14-TDFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DS2784: 1-Cell Stand-Alone Fuel Gauge IC with Li+ Protector and SHA-1 Authentication

CRC GENERATION

The DS2784 has an 8-bit CRC stored in the most significant byte of its 1-Wire net address and generates a CRC

during some command protocols. To ensure error-free transmission of the address, the host system can compute a

CRC value from the first 56 bits of the address and compare it to the CRC from the DS2784.

The host system is responsible for verifying the CRC value and taking action as a result. The DS2784 does not

compare CRC values and does not prevent a command sequence from proceeding as a result of a CRC mismatch.

Proper use of the CRC can result in a communication channel with a very high level of integrity.

The CRC can be generated by the host using a circuit consisting of a shift register and XOR gates as shown in

Figure 8, or it can be generated in software using the polynomial X

+ X

+ 1. Additional information about the

Dallas 1-Wire CRC is available in Application Note 27: Understanding and Using Cyclic Redundancy Checks with

Dallas Semiconductor iButton Products.

In the circuit in Figure 8, the shift register bits are initialized to 0. Then, starting with the least significant bit of the

family code, one bit at a time is shifted in. After the 8th bit of the family code has been entered, then the serial

number is entered. After the 48th bit of the serial number has been entered, the shift register contains the CRC

value.

Figure 8. 1-Wire CRC Generation Block Diagram

INPUT

MSb

LSb

XOR

During some command sequences, the DS2784 also generates an 8-bit CRC and provides this value to the bus

master to facilitate validation for the transfer of command, address, and data from the bus master to the DS2784.

The DS2784 computes an 8-bit CRC for the command and address bytes received from the bus master for the

read memory, read status, and read/generate CRC commands to confirm that these bytes have been received

correctly. The CRC generator on the DS2784 is also used to provide verification of error-free data transfer as each

EEPROM page is sent to the master during a Read Data/Generate CRC command and for the 8 bytes of

information in the status memory field.

In each case where a CRC is used for data transfer validation, the bus master must calculate the CRC value using

the same polynomial function and compare the calculated value to the CRC either stored in the DS2784 Net

Address or computed by the DS2784. The comparison of CRC values and decision to continue with an operation

are determined entirely by the bus master. There is no circuitry in the DS2784 that prevents the command

sequence from proceeding if the stored or calculated CRC from the DS2784 and the calculated CRC from the host

do not match.

HARDWARE CONFIGURATION

Because the 1-Wire bus has only a single line, it is important that each device on the bus be able to drive it at the

appropriate time. To facilitate this, each device attached to the 1-Wire bus must connect to the bus with open-drain

or tri-state output drivers. The DS2784 uses an open-drain output driver as part of the bidirectional interface

circuitry shown in Figure 9. If a bidirectional pin is not available on the bus master, separate output, and input pins

can be connected together.

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DS2784G+T&R Maxim Integrated Products, DS2784G+T&R Datasheet - Page 34

DS2784G+T&R

Specifications of DS2784G+T&R

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