X3101V28 Intersil, X3101V28 Datasheet - Page 4

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

principles of operation

The X3100 and X3101 provide two distinct levels of

functionality and battery cell protection:

First, in Normal mode, the device periodically checks each

cell for an overcharge and overdischarge state, while

continuously watching for a pack over-current condition. A

protection mode violation results from an over-charge, over-

discharge, or overcurrent state. The thresholds for these

states are selected by the user through software. When one

of these conditions occur, a Discharge FET or a Charge FET

or both FETs are turned off to protect the battery pack. In an

over-discharge condition, the X3100 and X3101 devices go

into a low power sleep mode to conserve battery power.

During sleep, the voltage regulator turns off, removing power

from the microcontroller to further reduce pack current.

Second, in Monitor mode, a microcontroller with A/D converter

measures battery cell voltage and pack current via pin AO and

the X3100 or X3101 on-board MUX. The user can thus

implement protection, charge/discharge, cell balancing or gas

gauge software algorithms to suit the specific application and

characteristics of the cells used. While monitoring these

voltages, all protection circuits are on continuously.

NUMBER PIN NAME

LMON

OVP/

UVP/

RGO

RGC

OCP

RGP

VCC

Over-charge Voltage Protection output/Load Monitor output. This one pin performs two functions depending upon the

present mode of operation of the X3100 or X3101.

Over-charge Voltage Protection (OVP)

This pin controls the switching of the battery pack charge FET. This power FET is a P-channel device. As such, cell charge is

possible when OVP/LMON=V

X3101 turn off the charge voltage when the cells reach the over-charge limit. This prevents damage to the battery cells due to

the application of charging voltage for an extended period of time (see section “Over-charge Protection” on page 14).

Load Monitor (LMON)

In Over-current Protection mode, a small test current (7.5µA typ.) is passed out of this pin to sense the load resistance. The

measured load resistance determines whether or not the X3100 or X3101 returns from an over-current protection mode (see

section “Over-Current Protection” on page 19).

Over-discharge protection output/Over-current protection output. Pin UVP/OCP controls the battery cell discharge via

an external power FET. This P-channel FET allows cell discharge when UVP/OCP=Vss, and prevents cell discharge when

UVP/OCP=Vcc. The X3100 and X3101 turn the external power FET off when the X3100 or X3101 detects either:

Over-discharge Protection (UVP)

In this case, pin 24 is referred to as “Over-discharge (Under-Voltage) protection (UVP)” (see section “Over-discharge

Protection” on page 16). UVP/OCP turns off the FET to prevent damage to the battery cells by being discharged to

excessively low voltages.

Over-current protection (OCP)

In this case, pin 24 is referred to as “Over-current protection (OCP)” (see section “Over-Current Protection” on page 19).

UVP/OCP turns off the FET to prevent damage to the battery pack caused by excessive current drain (e.g. as in the case of

a surge current resulting from a stalled disk drive).

Voltage regulator output pin. This pin is an input that connects to the collector of an external PNP transistor. The voltage

at this pin is the regulated output voltage, but it also provides the feedback voltage for the regulator and the operating voltage

for the device.

Voltage regulator control pin. This pin connects to the base of an external PNP transistor and controls the transistor turn on.

Voltage regulator protection pin. This pin is an input that connects to the emitter of an external PNP transistor and an

external current limit resistor and provides a current limit voltage.

Power supply. This pin is provides the voltage for FET control, regulator operation, and wake-up

circuits.

(Continued)

, and cell charge is prohibited when OVP/LMO = V

X3100, X3101

BRIEF DESCRIPTION

In a typical application, the microcontroller is also

programmed to provide an SMBus interface along with the

Smart Battery System interface protocols. These additions

allow an X3100 or X3101 based module to adhere to the

latest industry battery pack standards.

Typical Application Circuit

The X3100 and X3101 have been designed to operate

correctly when used as connected in the Typical Application

Circuit (see Figure 1 on page 5).

The power MOSFET’s Q1 and Q2 are referred to as the

“Discharge FET” and “Charge FET,” respectively. Since

these FETs are p-channel devices, they will be ON when the

gates are at V

their names imply, the discharge FET is used to control cell

discharge, while the charge FET is used to control cell

charge. Diode D

even if the Discharge FET is OFF, while diode D

cells to discharge even if the charge FET is OFF. D

are integral to the Power FETs. It should be noted that the

cells can neither charge nor discharge if both the charge FET

and discharge FET are OFF.

, and OFF when the gates are at V

allows the battery cells to receive charge

. In this configuration the X3100 and

January 3, 2008

allows the

and D

FN8110.1

. As

X3101V28 Intersil, X3101V28 Datasheet - Page 4

X3101V28

Specifications of X3101V28

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