X3100V28T1 Intersil, X3100V28T1 Datasheet - Page 12

X3100V28T1

Manufacturer Part Number

X3100V28T1

Description

IC PROTECT/MONITOR 4CELL 28TSSOP

Manufacturer

Intersil

Datasheet

1.X3100V28.pdf (41 pages)

Specifications of X3100V28T1

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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Current Sense Gain (CSG1, CSG0)

These bits set the gain of the current sense amplifier.

These are x10, x25, x80 and x160. For more detail,

see section “Current Monitor Function” on page 21.

Table 14. Current Sense Gain Control

Charge/Discharge Control (OVPC, UVPC)

The OVPC and UVPC bits allow control of cell charge

and discharge externally, via the SPI port. These bits

control the OVP/LMON and UVP/OCP pins, which in turn

control the external power FETs.

Using P-channel power FETs ensures that the FET is

on when the pin voltage is low (Vss), and off when the

pin voltage is high (Vcc).

OVP/LMON and UVP/OCP can be controlled by using

the WCNTR Instruction to set bits OVPC and UVPC in

the Control register (See page 11).

Table 15. UVP/OVP Control

It is possible to set/change the values of OVPC and

UVPC during a protection mode. A change in the state

of the pins OVP/LMON and UVP/OCP, however, will

not take place until the device has returned from the

protection mode.

Cell Voltage Balance Control (CBC1-CBC4)

This function can be used to adjust individual battery

cell voltage during charging. Pins CB1 - CB4 are used

to control external power switching devices. Cell volt-

age balancing is achieved via the SPI port.

Control Register Bits

CSG1

OVPC

CSG0

UVPC

Set current sense gain = x10

Set current sense gain = x25

Set current sense gain = x80

Set current sense gain = x160

Pin OVP = V

Pin UVP = V

Operation

(FET OFF)

(FET ON)

X3100, X3101

Table 16. CB1—CB4 Control

CB1 - CB4 can be controlled by using the WCNTR In-

struction to set bits CBC1 - CBC4 in the control register

(Table 16).

STATUS REGISTER

The status of the X3100 or X3101 can be verified by

using the RDSTAT command to read the contents of

the Status Register (Table 17).

Table 17. Status Register.

The function of each bit in the status register is shown

in Table 18.

Bit 0 of the status register (VRGS+OCDS) actually

indicates the status of two conditions of the X3100 or

X3101. Voltage Regulator Status (VRGS) is an inter-

nally generated signal which indicates that the output

of the Voltage Regulator (VRGO) has reached an out-

put of 5VDC ± 0.5%. In this case, the voltage regulator

is said to be “tuned”. Before the signal VRGS goes low

(i.e. before the voltage regulator is tuned), the voltage

at the output of the regulator is nominally 5VDC ± 10%

(See section “Voltage Regulator” on page 22.) Over-

current Detection Status (OCDS) is another internally

generated signal which indicates whether or not the

X3100 or X3101 is in over-current protection mode.

Signals VRGS and OCDS are logically OR’ed together

(VRGS + OCDS) and written to bit 0 of the status reg-

ister (See Table 18, Table 17 and Figure ).

CBC4 CBC3 CBC2 CBC1

Control Register Bits

CCES+

OVDS

Set CB1 = V

Set CB1=V

Set CB2 = V

Set CB3 = V

Set CB4 = V

UVDS

Operation

January 3, 2008

VRGS+

OCDS

(OFF)

FN8110.1

(ON)

X3100V28T1 Intersil, X3100V28T1 Datasheet - Page 12

X3100V28T1

Specifications of X3100V28T1

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