DS2764 데이터 시트보기 (PDF) - Maxim Integrated

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DS2764

High-Precision Li+ Battery Monitor with 2-Wire Interface

Maxim Integrated 

Figure 2. Block Diagram

DS2764 High-Precision Li+ Battery Monitor With 2-Wire Interface

SDA

2-Wire

INTERFACE

SCL

DS2764

THERMAL

SENSE

VOLTAGE

REFERENCE

VIN

+

IS1

-

IS2

PLS

PS

SNS

MUX

ADC

INTERNAL SENSE RESISTOR

CONFIGURATION ONLY

25mW

REGISTERS AND

USER MEMORY

LOCKABLE EEPROM

TEMPERATURE

VOLTAGE

CURRENT

ACCUM. CURRENT

STATUS/CONTROL

Li+ PROTECTION

TIMEBASE

CC

DC

CHIP GROUND

VSS

IS2

IS1

DETAILED DESCRIPTION

The DS2764 high-precision Li+ battery monitor is a data-acquisition, information-storage, and safety-protection

device tailored for cost-sensitive battery pack applications. This low-power device integrates precise temperature,

voltage, and current measurement, nonvolatile (NV) data storage, and Li+ protection into the small footprint of

either a TSSOP package or flip-chip package. The DS2764 is a key component in applications including remaining

capacity estimation, safety monitoring, and battery-specific data storage.

Through its 2-Wire interface, the DS2764 gives the host system read/write access to status and control registers,

instrumentation registers, and general-purpose data storage. The 7-bit slave address is field programmable, thus

allowing up to 128 devices to be distinctly addressed by the host system.

The DS2764 is capable of performing temperature, voltage, and current measurement to a resolution sufficient to

support process monitoring applications such as battery charge control, remaining capacity estimation, and safety

monitoring. Temperature is measured using an on-chip sensor, eliminating the need for a separate thermistor.

Bidirectional current measurement and accumulation are accomplished using either an internal 25mW sense

resistor or an external device.

EEPROM memory is provided to save important battery data in true NV memory that is unaffected by severe

battery depletion, accidental shorts, or ESD events. 40 bytes are partitioned into two 16-byte blocks and one 8-byte

block. Each block can be individually locked or write protected to provide additional security for unchanging battery

data. The lock operation is permanent and thus converts rewritable EEPROM to read only memory. Devices

ordered with the unique 64-bit ID option do not have access to the 8 byte block, only the two 16 byte blocks of

EEPROM are available.

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