BQ2031PN-A5 Datasheet, PDF(2/19 Page) Texas Instruments – Lead-Acid Fast-Charge IC

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

BQ2031PN-A5 Datasheet, PDF (2/19 Pages) Texas Instruments – Lead-Acid Fast-Charge IC

◁

bq2031

Pin Descriptions

TMTO Time-out timebase input

This input sets the maximum charge time.

The resistor and capacitor values are deter-

mined using equation 6. Figure 9 shows the

resistor/capacitor connection.

FLOAT Float state control output

BAT

This open-drain output uses an external re-

sistor divider network to control the BAT in-

put voltage threshold (VFLT) for the float

charge regulation. See Figure 1.

Battery voltage input

VCOMP

BAT is the battery voltage sense input. This po-

tential is generally developed using a high-

impedance resistor divider network connected

between the positive and the negative terminals

of the battery. See Figure 6 and equation 2.

Voltage loop compensation input

IGSEL

This input uses an external C or R-C net-

work for voltage loop stability.

Current gain select input

This three-state input is used to set IMIN for

fast charge termination in the Two-Step

Voltage algorithm and for maintenance cur-

rent regulation in the Two-Step Current al-

gorithm. See Tables 3 and 4.

ICOMP Current loop compensation input

This input uses an external C or R-C net-

work for current loop stability.

SNS

Charging current sense input

Battery current is sensed via the voltage de-

veloped on this pin by an external sense re-

sistor, RSNS, connected in series with the low

side of the battery. See equation 8.

TS

Temperature sense input

This input is for an external battery tem-

perature monitoring thermistor or probe. An

external resistor divider network sets the

lower and upper temperature thresholds.

See Figures 7 and 8 and equations 4 and 5.

TPWM

COM

QSEL

MOD

LED1â3

DSEL

TSEL

VCC

VSS

Regulation timebase input

This input uses an external timing capacitor

to ground the pulse-width modulation

(PWM) frequency. See equation 9.

Common LED output

Common output for LED1â3. This output is

in a high-impedance state during initiali-

zation to read program inputs on TSEL,

QSEL, and DSEL.

Charge regulation select input

With TSEL, selects the charge algorithm.

See Table 1.

Current-switching control output

MOD is a pulse-width modulated push/pull

output that is used to control the charging

current to the battery. MOD switches high

to enable current flow and low to inhibit cur-

rent flow.

Charger display status 1â3 outputs

These charger status output drivers are for

the direct drive of the LED display. Display

modes are shown in Table 2. These outputs are

tri-stated during initialization so that QSEL,

TSEL, and DSEL can be read.

Display select input

This three-level input controls the LED1â3

charge display modes. See Table 2.

Termination select input

With QSEL, selects the charge algorithm.

See Table 1.

VCC supply

5.0V, Â± 10% power

Ground

Functional Description

The bq2031 functional operation is described in terms of:

n Charge algorithms

n Charge qualification

n Charge status display

n Voltage and current monitoring

n Temperature monitoring

2

▷