X3101V28 Intersil, X3101V28 Datasheet - Page 3

X3101V28

Manufacturer Part Number

X3101V28

Description

IC PROTECT/MONITOR 3CELL 28TSSOP

Manufacturer

Intersil

Datasheet

1.X3100V28.pdf (41 pages)

Specifications of X3101V28

Function

Battery Monitor

Battery Type

Lithium-Ion (Li-Ion)

Voltage - Supply

6 V ~ 24 V

Operating Temperature

-20°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

28-TSSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Pin Descriptions

NUMBER PIN NAME

VCELL4/

VCELL3

VCS1

VCS2

OVT

OCT

SCK

CB2

CB3

VSS

CB4

VSS

UVT

AS1

AS2

AS0

Cell balancing FET control output 2. These outputs are used to switch an external FETs in order to perform cell voltage

balancing control. This function can be used to adjust individual cell voltages (e.g. during cell charging). CB2 can be driven

high (Vcc) or low (Vss) to switch the external FET ON/OFF.

Battery cell 3 voltage. This pin is used to monitor the voltage of each battery cell internally. The

voltage of an individual cell can also be monitored externally at pin AO.

The X3100 monitors 4 battery cells. The X3101 monitors 3 battery cells.

Cell balancing FET control output 3. This output is used to switch an external FET in order to

perform cell voltage balancing control. This function can be used to adjust an individual cell voltage (e.g. during cell charging).

CB3 can be driven high (Vcc) or low (Vss) to switch the external FET ON/OFF.

Battery cell 4 voltage (X3100) Ground (X3101). This pin is used to monitor the voltage of this battery cell internally. The

voltage of an individual cell can also be monitored externally at pin AO.

The X3100 monitors 4 battery cells. The X3101 monitors 3 battery cells. For the X3101 device connect the VCELL4/VSS pin

to ground.

Cell balancing FET control output 4. This output is used to switch an external FET in order to

perform cell voltage balancing control. This function can be used to adjust individual cell voltages

(e.g. during cell charging). CB4 can be driven high (Vcc) or low (Vss) to switch the external FET ON/OFF.

When using the X3101, the CB4 pin can be left unconnected, or the FET control can be used for other purposes.

Ground.

Current sense voltage pin 1. A sense resistor (R

resistance in the order of 20mΩ to 100mΩ, and is used to monitor current flowing through the battery terminals, and protect

against over-current conditions. The voltage at each end of R

Current sense voltage pin 2. A sense resistor (R

resistance in the order of 20mΩ to 100mΩ, and is used to monitor current flowing through the battery terminals, and protect

against over-current conditions. The voltage at each end of R

Over-charge detect/release time input. This pin is used to control the delay time (T

over-charge condition (see section “Over-charge Protection” on page 14).

Over-discharge detect/release time input. This pin is used to control the delay times associated with the detection (T

and release (T

Over-current detect/release time input. This pin is used to control the delay times associated with the detection (T

release (T

Analog multiplexer output. The analog output pin is used to externally monitor various battery parameter voltages. The

voltages which can be monitored at AO (see section “Analog Multiplexer Selection” on page 21) are:

– Individual cell voltages

– Voltage across the current sense resistor (R

(see section “Current Monitor Function” on page 21.)

The analog select pins pins AS0 - AS2 select the desired voltage to be monitored on the AO pin.

Analog output select pin 0. These pins select which voltage is to be multiplexed to the output AO (see section “Sleep Control

(SLP)” on page 11 and section “Current Monitor Function” on page 21)

Analog output select pin 1. These pins select which voltage is to be multiplexed to the output AO (see section “Sleep Control

(SLP)” on page 11 and section “Current Monitor Function” on page 21)

Analog output select pin 2. These pins select which voltage is to be multiplexed to the output AO (see section “Sleep Control

(SLP)” on page 11 and section “Current Monitor Function” on page 21)

Serial data input. SI is the serial data input pin. All opcodes, byte addresses, and data to be written to the device are input

on this pin.

Serial data output. SO is a push/pull serial data output pin. During a read cycle, data is shifted out on this pin. Data is clocked

out by the falling edge of the serial clock. While CS is HIGH, SO will be in a High Impedance state.

Note: SI and SO may be tied together to form one line (SI/SO). In this case, all serial data communication with the X3100 or

X3101 is undertaken over one I/O line. This is permitted ONLY if no simultaneous read/write operations occur.

Serial data clock input. The Serial Clock controls the serial bus timing for data input and output. Opcodes, addresses, or

data present on the SI pin are latched on the rising edge of the clock input, while data on the SO pin change after the falling

edge of the clock input.

Chip select input pin. When CS is HIGH, the device is deselected and the SO output pin is at high impedance. CS LOW

enables the SPI serial bus.

(Continued)

OCR

) of an over-current condition (see section “Over-Current Protection” on page 19).

UVR

) of an over-discharge (under-voltage) condition (see section “Over-discharge Protection” on page 16).

X3100, X3101

SENSE

BRIEF DESCRIPTION

SENSE

)

This voltage is amplified with a gain set by the user in the control register

) is connected between VCS1 and VCS2 (Figure 1). R

SENSE

can also be monitored at pin AO.

) associated with the detection of an

January 3, 2008

SENSE

FN8110.1

has a

) and

)

X3101V28 Intersil, X3101V28 Datasheet - Page 3

X3101V28

Specifications of X3101V28

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