ds2775 Maxim Integrated Products, Inc., ds2775 Datasheet - Page 17

ds2775

Manufacturer Part Number

ds2775

Description

2-cell, Stand-alone, Li+ Fuel-gauge Ic With Protector And Optional Sha-1 Authentication

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.DS2775.pdf (44 pages)

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In some designs a systematic error or an application

preference requires the application of an arbitrary bias

to the current accumulation process. The Current

Accumulation Bias register (CAB) allows a user-pro-

grammed constant positive or negative polarity bias to

be included in the current accumulation process. The

value in CAB can be used to estimate battery currents

that do not flow through the sense resistor, estimate

battery self-discharge, or estimate current levels below

the current measurement resolution. The user-pro-

grammed two’s complement value, with bit weighting

the same as the current register, is added to the ACR

once per current conversion cycle. CAB is loaded on

power-up from EEPROM memory.

The cycle counter is an absolute count of the cumula-

tive discharge cycles. This register is intended to act as

a “cell odometer.” The LSb is two cycles, which allows

a maximum count of 510 discharge cycles. The register

does not loop. Once the maximum value is reached,

the register is clamped. This register is read and write

accessible while the parameter EEPROM memory block

(block 1) is unlocked. The Cycle Count register

becomes read-only once the EEPROM block is locked.

Remaining capacity estimation uses real-time mea-

sured values and stored parameters describing the cell

characteristics and application operating limits. Figure

13 describes the algorithm inputs and outputs.

Figure 11. Current Accumulation Bias Register Format

Figure 12. Cycle Counter Register Format

Capacity Estimation Algorithm

Protector and Optional SHA-1 Authentication

2-Cell, Stand-Alone, Li+ Fuel-Gauge IC with

______________________________________________________________________________________

Accumulation Bias

Cycle Counter

“S”: SIGN BIT(S)

MSb

ADDRESS 61h

ADDRESS 1Eh

To achieve reasonable accuracy in estimating remain-

ing capacity, the cell performance characteristics over

temperature, load current, and charge-termination point

must be considered. Since the behavior of Li+ cells is

nonlinear, these characteristics must be included in the

capacity estimation to achieve an acceptable level of

accuracy in the capacity estimation. The FuelPack

method used in the DS2775–DS2778 is described in

general in Application Note 131: Lithium-Ion Cell Fuel

Gauging with Maxim Battery Monitor ICs. To facilitate

efficient implementation in hardware, a modified version

of the method outlined in Application Note 131 is used

to store cell characteristics in the DS2775–DS2778. Full

and empty points are retrieved in a lookup process that

retraces a piecewise linear model consisting of three

model curves named full, active empty, and standby

empty. Each model curve is constructed with five line

segments, numbered 1 through 5. Above 40°C, the seg-

ment 5 model curves extend infinitely with zero slope,

approximating the nearly flat change in capacity of Li+

cells at temperatures above +40°C. Segment 4 of each

model curves originates at +40°C on its upper end and

extends downward in temperature to the junction with

segment 3. Segment 3 joins with segment 2, which in

turn joins with segment 1. Segment 1 of each model

curve extends from the junction with segment 2 to infi-

nitely colder temperatures. The three junctions or break-

points that join the segments (labeled TBP12, TBP23,

and TBP34 in Figure 14) are programmable in 1°C

increments from -128°C to +40°C. The slope or deriva-

tive for segments 1, 2, 3, and 4 are also programmable

over a range of 0 to 15,555ppm in steps of 61ppm.

UNITS: 6.25μV/R

UNITS: 2 cycles

Modeling Cell Characteristics

LSb

SNS

ds2775 Maxim Integrated Products, Inc., ds2775 Datasheet - Page 17

ds2775

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