DS2786BG+T&R Maxim Integrated Products, DS2786BG+T&R Datasheet - Page 18

DS2786BG+T&R

Manufacturer Part Number

DS2786BG+T&R

Description

IC FUEL GAUGE OCV-BASED 10-TDFN

Manufacturer

Maxim Integrated Products

Datasheets

1.DS2786G.pdf (22 pages)

2.DS2786BG.pdf (21 pages)

Specifications of DS2786BG+T&R

Function

Fuel, Gas Gauge/Monitor

Battery Type

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

Voltage - Supply

2.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

10-TDFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DS2786 Stand-Alone OCV-Based Fuel Gauge

COMMAND REGISTER

The Command Register is read/write accessible. Bit values indicate operations requested to be performed by the

device.

Figure 23. Command Register Format

ADDRESS Feh

BIT 7

BIT 6

BIT 5

BIT 4

BIT 3

BIT 2

BIT 1

BIT 0

POR

POCV

SOCV

RCALL

COPY

Bit 7: POR—Power-On Reset. A value of 1 starts a power-on reset event. The bit is cleared on the next start or

stop on the 2-Wire bus, exiting the reset state.

Bit 6: 0—Bit always reads logic 0.

Bits 5 and 4: X—Reserved.

Bit 3: POCV—Present OCV Calculation. When set to one the part is performing an OCV calculation based on the

voltage stored in the Voltage Register, and the OCV lookup table values present in the scratch pad. Writing the bit

to 1 forces a calculation. This function should be used for test purposes only. Forcing an OCV calculation will

create capacity estimation error. The bit is cleared when the hardware completes the calculation.

Bit 2: SOCV—Stored OCV Calculation. This command may be used to reset the Relative Capacity calculation after

updating OCV cell model data in the Scratchpad. When set to one the part is performing an OCV calculation based

on the voltage stored in the Initial Voltage Register, and the OCV lookup table values present in the scratch pad.

Writing the bit to 1 forces a calculation. Forcing an OCV calculation will create capacity estimation error. The bit is

cleared when the hardware completes the calculation.

Bit 1: RCALL—The Recall bit is set to recall the contents of EEPROM into the scratch pad.

Bit 0: COPY—The Copy bit is set to start a copy command of the scratch pad to EEPROM. A programming voltage

must be present on the VPROG pin prior for the copy to be successful. The COPY bit must be cleared by software

within the t

time window.

PROG

USER EEPROM

Location 7Fh provides one byte available for storage of user-defined information. This byte does not affect

operation of the fuel gauge. Factory default is 00h.

2-WIRE BUS SYSTEM

The 2-Wire bus system supports operation as a slave only device in a single or multislave, and single- or

multimaster system. The 2-wire interface consists of a serial data line (SDA) and serial clock line (SCL). SDA and

SCL provide bidirectional communication between the DS2786 slave device and a master device at speeds up to

400kHz. The DS2786’s SDA pin operates bidirectionally, that is, when the DS2786 receives data, SDA operates as

an input, and when the DS2786 returns data, SDA operates as an open-drain output, with the host system

providing a resistive pullup. The DS2786 always operates as a slave device, receiving and transmitting data under

the control of a master device. The master initiates all transactions on the bus and generates the SCL signal as

well as the START and STOP bits which begin and end each transaction.

Bit Transfer

One data bit is transferred during each SCL clock cycle, with the cycle defined by SCL transitioning low-to-high and

then high-to-low. The SDA logic level must remain stable during the high period of the SCL clock pulse. Any

change in SDA when SCL is high is interpreted as a START or STOP control signal.

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DS2786BG+T&R Maxim Integrated Products, DS2786BG+T&R Datasheet - Page 18

DS2786BG+T&R

Specifications of DS2786BG+T&R

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