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S I GN S

NE W D E

D ED F O

EMENT

OMMEN

REC

REPL A C

Data Sheet

N OT

EN DED

R E C OM M

ISL6295

February 8, 2011

FN9074.2

Low Voltage Fuel Gauge

The ISL6295 is a cost-effective, highly accurate IC that

measures, stores, and reports all of the critical parameters

required for rechargeable battery monitoring with a minimum

of external components. It precisely measures charge/

discharge current as well as voltage and temperature of a

battery pack. In addition, the ISL6295 accurately

accumulates both charge and discharge current as

independent parameters. Temperature history can also be

maintained for calculating self-discharge effects.

The ISL6295 integrates a highly accurate 16-bit (15-bit plus

sign) integrating A/D converter that performs calibrated

current measurement to within ±0.5% error. On-chip

counters precisely track battery charge/discharge and

temperature history. Also included are an on-chip voltage

regulation circuit, non-crystal time base, and on-chip

temperature sensor. The operating voltage range of the

ISL6295 is optimized to allow a direct interface to a single

cell Li-Ion/Li-Poly pack. 256 bytes of general-purpose

nonvolatile EEPROM storage are provided to store factory

programmed, measured, and user defined parameters.

Efficient communication is provided through an industry

standard SMBus/I

C™ compatible 2-wire communications

interface. This interface allows the host to determine

accurate battery status for effective system power

management and for communication to the end user. A

battery management solution utilizing the ISL6295 delivers

both space and total system component cost savings for a

wide variety of battery operated applications.

Features

• Measures, maintains, and reports all critical rechargeable

battery parameters with high accuracy

• Supports Lithium Ion and Lithium Polymer battery packs

• Current measurement with 16-bit (15-bit plus sign)

integrating A/D accurate to less than ±0.5% error

• Calibrated temperature measurement accurate to within

±3°C absolute using on-chip temp sensor or external

thermistor

• Accumulation of charge current, discharge current,

temperature, and voltage in independent 32-bit registers

• 256-byte nonvolatile EEPROM stores factory

programmed, measured, and user-defined parameters

• In-system offset calibration compensates for offset error in

current measurement

• Industry standard SMBus/I

C™ compatible 2-wire

communications interface

- SMBus V1.1 with PEC/CRC-8 communication

• -20°C to +85°C operating temperature range

• NTC pin can be configured as a thermistor input or GPIO

• GPAD pin can be configured as an independent A/D input

or GPIO

• Flexible power operating modes allow low-power

monitoring of battery conditions during system full

operating and standby conditions:

- Run: Continuous Conversion; 85µA typ.

- Sample: Sample interval from 0.5-64s @ 45µA typ.

- Sample-Sleep: Sample interval from 0.5-138s min. @

20µA typ.

• Shelf-Sleep mode reduces power consumption to pack

storage conditions to 300nA typ., with automatic wake-up

upon pack insertion.

• Pb-free plus anneal available (RoHS compliant)

Ordering Information

PART

NUMBER

ISL6295CV

ISL6295CV-T

ISL6295CVZ

(Note)

PART

TEMP

MARKING RANGE (°C)

6295CV

6295CVZ

-20°C to 85

PKG.

PACKAGE DWG. #

8 Ld TSSOP M8.173

(Pb-free)

8 Ld TSSOP M8.173

(Pb-free)

Applications

• Notebook PC, PDAs, Hand Held Devices

ISL6295CVZ-T 6295CVZ

(Note)

NOTE: Intersil Pb-free plus anneal products employ special Pb-free

material sets; molding compounds/die attach materials and 100%

matte tin plate termination finish, which are RoHS compliant and

compatible with both SnPb and Pb-free soldering operations. Intersil

Pb-free products are MSL classified at Pb-free peak reflow

temperatures that meet or exceed the Pb-free requirements of IPC/

JEDEC J STD-020.

Pinout

ISL6295 (TSSOP)

TOP VIEW

GPAD/IO1

SCL

SDA

GND

NTC/IO0

ROSC

CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.

1-888-INTERSIL or 1-888-468-3774

Intersil (and design) is a registered trademark of Intersil Americas Inc.

All other trademarks mentioned are the property of their respective owners.

ISL6295

Absolute Maximum Ratings

Supply Voltage V

. . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.5V to 10V

Input Voltage or IO Voltage . . . . . . . . . . . . . . . . . . . . . . . -0.5V to 7V

Thermal Information

Thermal Resistance (Typical, Note 1)

TSSOP Package . . . . . . . . . . . . . . . . . . . . . . . . . . .

(°C/W)

115

Recommended Operating Conditions

Ambient Temperature Range . . . . . . . . . . . . . . . . . . . .-20°C to 85°C

Operating Supply Voltage (VP Pin) . . . . . . . . . . . . . . . . . 2.8V to 7V

Maximum Junction Temperature (Plastic Package) . . . . . . . . 120°C

Maximum Storage Temperature Range . . . . . . . . . . . -35°C to 120°C

Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . . 300°C

CAUTION: Stress above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation of the

device at these or any other conditions above those indicated in the operational section of this specification is not implied.

NOTE:

is measured with the component mounted on a high effective thermal conductivity test board in free air. See Tech Brief TB379 for details.

Electrical Specifications

PARAMETER

DC CHARACTERISTICS

Supply Voltage

Typical Values Are Tested at V

= 5V and ambient temperature is at 25°C, All Maximum and Minimum Values

Are Guaranteed Under the Recommended Operating Conditions., Unless Otherwise Noted.

SYMBOL

TEST CONDITIONS

MIN

TYP

MAX

UNITS

For SMBus and register access

For EEPROM write

For guaranteed analog parametrics

2.8

3.3

3.0

400

7.0

120

800

0.6

μA

Supply Current Run Mode

Supply Current Sample Mode

Supply Current Sample - Sleep Mode

Supply Current Shelf Sleep Mode

Input Low Voltage IO0, IO1

Input High Voltage IO0, IO1

GPIO Input Low Current Pull-up mode

Leakage Current IO pin programmed

as outputs or inputs without pullup

Output low voltage for IO0, IO1

Output high voltage for IO0 configured

as push-pull

Thermistor Output Current

Input Low Voltage for SMBus pins

Input High Voltage for SMBus pins

Output Low Voltage for SMBus pins

Output High Voltage for SMBus pins

Input leakage current SMBus pins

IDD

IDDINS

IDDSLP

IDDSSLP

VIL

VIH

IIL-IO0PU

IL-IO

VOL-IO

VOH-IO

INTC

VIL-SMB

VIH-SMB

VOL-SMB

VOH-SMB

ILEAK-SMB

A/D Active (Note 1)

A/D Inactive (Notes 1, 2)

Sample -Sleep Mode (Note 1)

Shelf Sleep Mode (Note 1)

2.4

IOL = 0.5mA

IOH = 100μA

ROSC = 221kΩ ± 0.1%

2.1

0.8

2.0

IPULLUP = 4mA

(Note 3)

2.1

-5.0

5.5

0.4

5.5

+5.0

600

0.4

μA

AC CHARACTERISTICS

= -20°C to +85°C; V

= 3.0V to 7.0V; ROSC = 221kΩ ± 0.1%)

Internal main oscillator frequency

Internal auxiliary oscillator frequency

Accumulator Time Base Accuracy

(internal 2Hz clock)

fRC

fAUX

fACC

During Run and Sample mode

(Note 3)

During Sample-Sleep mode (Note 3)

Internal A/D operating clock

Power-on-Reset Threshold

Delay to entry of Shelf-Sleep mode

fA/D

VPOR

tSHELF

(Note 3)

Voltage at VP

(Shent = 1 or VP < VPtrip) and (SDA

and SCL go low)

2.4

ROSC = 221kΩ ± 0.1%

130.8

118

-0.6

-10

2.75

131.5

131

132.2

144

+0.6

+10

kHz

FN9074.2

February 8, 2011

ISL6295

Electrical Specifications

PARAMETER

Typical Values Are Tested at V

= 5V and ambient temperature is at 25°C, All Maximum and Minimum Values

Are Guaranteed Under the Recommended Operating Conditions., Unless Otherwise Noted.

(Continued)

SYMBOL

TEST CONDITIONS

MIN

TYP

MAX

UNITS

A/D CONVERTER CHARACTERISTICS

= -20°C to +85°C; V

= 3.0V to 7.0V, Note 3, 4)

A/D Converter Resolution

A/D Conversion Measurement Time

A/D Converter Input Voltage Range

(internal)

Internal Temperature Accuracy

Calibrated Voltage Measurement

Gain Error

Calibrated Current Measurement

Gain Error (with ideal ZTC current

sense resistor)

Calibrated Temperature Measurement

Gain Error (internal sensor)

Calibrated ADC Offset Error

tconv

VADIN

Magnitude only (Note 5)

N-bit + sign

Differential

Single-Ended

ACC

EVGAIN

Max deviation over supply voltage

and temperature range (assumed

ideal under the calibration condition)

Max deviation over supply voltage

and temperature range (assumed

ideal under the calibration condition)

Max deviation over supply voltage

and temperature range (assumed

ideal under the calibration condition)

Max deviation over supply voltage

and temperature range (assumed

ideal under the calibration condition)

REF

= 170mV

REF

= 340mV

Integrated Nonlinearity Error

NOTES:

1. Does not include current consumption due to external loading on pins. No EEPROM access.

2. Sample mode current is specified during an A/D inactive cycle. Sample mode average current can be calculated using the formula: Average

Sample Mode Supply Current = (IDDRUN + (n-1)*IDDINS)/Ns; where Ns is the programmed sample rate.

3. Guaranteed by characterization or correlation to other test.

4. The max calibrated gain and offset errors are based on a 15-bit calibration procedure to generate the calibration factors. These calibration

factors are then applied to correct the ADC results.

5. Voltage is internal at A/D converter inputs. VSR is measured directly. VP and GPAD inputs are measured using internal level-translation circuitry

that scales the input voltage range appropriately for the converter.

EINL

0.30

0.15

0.01

-152

-3

(N+1)

A/D

+152

309

0.60

bits

°K

EIGAIN

0.50

ETEMP

0.60

EVOFFSET

FN9074.2

February 8, 2011

ISL6295

Cell +

100nF

MM3077DN

VDD

V-

COUT

100nF 1.0nF

221K 0.1%

SI6880EDQ

0.020 1%

RT1

THERMISTOR

VSS DOUT

ISL6295

NTC

ROSC

GPAD

GND

CELL CONNECTION

J3B+

SCL

SDA

680

CMSZDA5V6

680

J4 C

J5D

J6 B

Cell -

PLACE THERMAL

FUSE NEXT TO Q1

ON PCB LAYOUT

Note: Connect NTC pin to ground if thermister is not used

FIGURE 1. ISL6295 APPLICATIONS SCHEMATIC

Functional Pin Descriptions

GPAD/IO1 (Pin 1)

General purpose A/D input or general purpose input/output

pin. Grounded if not used.

Theory of Operation

The ISL6295 contains a complete analog "front-end" for

battery monitoring as well as digital logic for control,

measurement accumulation, timing, and communications.

Major functions within the ISL6295 include:

• Voltage Regulator

• Precision Time Base

• Temperature Sensor

• 256 Byte NV-EEPROM

• 32 Byte general purpose SRAM

• Analog-to-Digital (A/D) Converter

• 32-bit Accumulators/Timers

• SMBus/I

C™ Communications Interface

Figure 2 is a block diagram of the internal circuitry of the

ISL6295. Figure 1 is a schematic diagram that depicts the

ISL6295 in a typical single cell Lithium-ion application. The

function of each of the blocks listed above is summarized in

the following sections.

VP (Pin 2)

Cell input connection for the positive terminal of the Li-Ion

cell. Connects to the positive terminal of 1-cell series packs.

VP serves as the power supply input for the ISL6295.

SCL (Pin 3)

SMBus/I

C™ clock line connection

SDA (Pin 4)

SMBus/I

C™ data line connection

ROSC (Pin 5)

External bias resistor. 221kΩ (±0.1%) oscillator reference

setting resistor connected between this pin and GND.

NTC/IO0 (Pin 6)

Connection for an external temperature sensor using a

thermistor. Can also be configured as an open drain general

purpose input/output pin. Grounded if not used.

GND (Pin 7)

Analog and digital ground

SR (Pin 8)

Current measurement A/D input. Connects to the other

terminal of a grounded current sense resistor.

FN9074.2

February 8, 2011

ISL6295

DIGITAL SECTION

VOLTAGE

REFERENCE AND

TEMP SENSOR

ANALOG SECTION

256

EEPROM

32-BIT

ACCUMULATORS/

TIMERS

VOLTAGE

REGULATOR

SDA

COMM

INTERFACE

REGISTERS

SCL

16-BIT

SIGMA-DELTA

INTEGRATING

A/D CONVERTER

ANALOG

INPUT MUX

CONTROL

AND

STATUS

RUN

OSCILLATOR

SLEEP

OSCILLATOR

NTC/IO0

GPAD/IO1

ROSC

GND

FIGURE 2. BLOCK DIAGRAM

Internal Voltage Regulator

The ISL6295 incorporates an internal voltage regulator that

supports 1-cell series lithium pack configurations. The

internal regulator draws power directly from the VP input. No

other external components are required to regulate circuit

voltage.

A/D Converter

The ISL6295 incorporates an integrating sigma-delta A/D

converter together with an analog MUX that has inputs for

charge and discharge currents, pack voltage, GPAD voltage,

the on-chip temperature sensor, and an off-chip thermistor.

The converter can be programmed to perform a conversion

with magnitude resolution of 8- to 15-bits while using either a

single 170mV or 340mV reference.

Precision Time Base

The integrated precision time base is a highly accurate RC

oscillator that provides precise timing for the sigma-delta A/D

and for the on-chip elapsed time counters without the need

for an external crystal. This time base is trimmed during

manufacturing to a nominal frequency of 131.072kHz.

32-Bit Accumulator/Timers

The ISL6295 incorporates four 32-bit accumulators and four

32-bit elapsed time counters. The Discharge Current

Accumulator (DCA) and the Charge Current Accumulator

(CCA) are intended to record discharge and charge capacity

values. The Discharge Time Counter (DTC) and the Charge

Time Counter (CTC) are intended to maintain the total

discharge time and charge time. Accumulated charge and

discharge values can be used to determine state of charge

of the battery as well as cycle count information. With

information provided by the elapsed time counters, average

charge and discharge currents over an extended period of

time can be calculated.

Temperature Sensor

An integrated temperature sensor is provided that can

eliminate the need for an external thermistor. As an option, a

connection is provided for an external thermistor for

applications where the battery pack is physically located at a

distance from the ISL6295.

EEPROM

256 bytes of EEPROM memory is incorporated for storage

of non-volatile parameters such as cell models for use with

Intersil’s host driver firmware. An an initialization block with

values that are loaded into ISL6295 registers following a

power on condition. Included in this block is 16 bytes for

battery ID information.

SMBus/I

™

Communications Interface

This communications port for the ISL6295 is a 2-wire

industry-standard SMBus/I

C™ interface. All commands,

status, and data is read or written from the host system via

this interface.

RAM

32 bytes of general purpose RAM memory are provided for

storage of temporary parameters.

A/D and Accumulator/Timer Operation

A/D CONVERSION CYCLE

When the A/D converter is enabled and active, it repeatedly

performs a cycle of 1 to 8 conversions as programmed by

FN9074.2

February 8, 2011