DS2784G+ Maxim Integrated Products, DS2784G+ Datasheet - Page 21

DS2784G+

Manufacturer Part Number

DS2784G+

Description

IC FUEL GAUGE STND-ALONE 14-TDFN

Manufacturer

Maxim Integrated Products

Datasheet

1.DS2784G.pdf (43 pages)

Specifications of DS2784G+

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

Product

Fuel Gauges

Operating Supply Voltage

2.5 V to 4.6 V

Supply Current

85 uA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Charge Safety Timers

Yes

Mounting Style

SMD/SMT

Temperature Monitoring

Yes

Uvlo Start Threshold

2.4 V

Uvlo Stop Threshold

2.5 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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CAPACITY ESTIMATION ALGORITHM

Remaining capacity estimation uses real-time measured values, stored parameters describing the cell

characteristics, and application operating limits. Figure 3 describes the algorithm inputs and outputs.

Figure 3. Top-Level Algorithm Diagram

MODELING CELL CHARACTERISTICS

To achieve reasonable accuracy in estimating remaining capacity, the cell performance characteristics

overtemperature, 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 DS2784 is described in general in

Application Note 131: Lithium-Ion Cell Fuel Gauging with Dallas Semiconductor Battery Monitor ICs. To facilitate

efficient implementation in hardware, a modified version of the method outlined in AN131 is used to store cell

characteristics in the DS2784. Full and empty points are retrieved in a lookup process which retraces a piece-wise

linear model consisting of three model curves named full, active empty, and standby empty. Each model curve is

constructed with 5-line segments, numbered 1 through 5. Above 40°C, the segment 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 infinitely colder temperatures. The three junctions or

breakpoints that join the segments (labeled TBP12, TBP23, and TBP34 in Figure 4) are programmable in 1°C

increments from -128°C to +40°C. The slope or derivative for segments 1, 2, 3, and 4 are also programmable over

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

FuelPack is a trademark of Dallas Semiconductor, a wholly owned subsidiary of Maxim Integrated Products, Inc.

Accumulated

Current (ACR) (R/W)

Average Current (R)

Aging Cap (AC)

(2 bytes EE)

Age Scalar (AS)

Sense Resistor’

(RSNSP) (1byte EE)

Charge Voltage

(VCHG) (1 byte EE)

Min Chg Current

(IMIN) (1 byte EE)

Empty Voltage

(VAE) (1 byte EE)

Empty Current (IAE)

(1 byte EE)

Voltage

Temperature

Current

(1 bytes EE)

Parameters

(EEPROM)

Model

Cell

(R)

Available Capacity Calculation

ACR Housekeeping

Capacity Look-up

Learn Function

Age Estimator

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FULL(T)

Active Empty (T)

Standby Empty (T)

Remaining Active Absolute

Capacity (RAAC) mAh

Remaining Standby Absolute

Capacity (RSAC) mAh

Remaining Active Relative

Capacity (RARC) %

Remaining Standby Relative

Capacity (RSRC) %

User Memory (EEPROM)

16 bytes

(R)

DS2784G+ Maxim Integrated Products, DS2784G+ Datasheet - Page 21

DS2784G+

Specifications of DS2784G+

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