BQ24232H_15 Datasheet, PDF(19/42 Page) Texas Instruments – bq2423xx USB-Friendly Lithium-Ion Battery Charger and Power-Path Management IC

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BQ24232H_15 Datasheet, PDF (19/42 Pages) Texas Instruments – bq2423xx USB-Friendly Lithium-Ion Battery Charger and Power-Path Management IC

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bq24230H, bq24232H

SLUSBI8A â JANUARY 2014 â REVISED DECEMBER 2014

9.3.4.2 Battery Detection and Recharge

The bq2423xH automatically detects if a battery is connected or removed. Once a charge cycle is complete, the

battery voltage is monitored. When the battery voltage falls below VRCH, the battery detection routine is run. The

detection routine first applies IBAT(DET) for tDET to see if VBAT drops below VLOWV. If not, it indicates that the battery

is still connected, but has discharged. If CE is low, the charger is turned on again to top off the battery. During

this recharge cycle, the CHG output remains high-impedance as recharge cycles are not indicated by the CHG

pin. If the BAT voltage falls below VLOWV during the battery detection test, it indicates that the battery has been

removed or the protector is open. Next, the precharge current is applied for tDET to close the protector if possible.

If the battery voltage does not rise above VRCH, it indicates that the protector is closed, or a battery has been

inserted, and a new charge cycle begins. If the voltage rises above VRCH, the battery is determined missing and

the detection routine continues. The battery detection runs until a battery is detected.

9.3.4.3 Termination Disable (TD Input, bq24230H)

The bq24230H contains a TD input that allows termination to be enabled/disabled. Connect TD to a logic high to

disable charge termination. When termination is disabled, the device goes through the precharge, fast-charge,

and CV phases, then remains in the CV phase. During the CV phase, the charger maintains the output voltage at

BAT equal to VBAT(REG), and charging current does not terminate. BAT sources currents up to ICHG or IIN-MAX,

whichever is less. Battery detection is not performed. The CHG output is high impedance once the current falls

below ITERM and does not go low until the input power or CE are toggled. When termination is disabled, the

precharge and fast-charge safety timers are also disabled. Battery pack temperature sensing (TS pin

functionality) is also disabled if the TD pin is high and the TS pin is unconnected.

9.3.4.4 Adjustable Termination Threshold (ITERM Input, bq24232H)

The termination current threshold for the bq24232H is user-programmable. Set the termination current by

connecting a resistor from ITERM to VSS. For USB100, mode (EN1 = EN2 = VSS), the termination current value

is calculated as:

ITERM = 0.01 Ã RITERM / RISET

(4)

In the other input current limit modes (EN1 â EN2), the termination current value is calculated as:

ITERM = 0.03 Ã RITERM / RISET

(5)

The termination current is programmable up to 50% of the fast-charge current. The RITERM resistor must be less

than 15 kâ¦. Leave ITERM unconnected to select the default internally set termination current.

9.3.4.5 Dynamic Charge Timers (TMR Input)

The bq2423xH devices contain internal safety timers for the precharge and fast-charge phases to prevent

potential damage to the battery and the system. The timers begin at the start of the respective charge cycles.

The timer values are programmed by connecting a resistor from TMR to VSS. The resistor value is calculated

using the following equation:

tPRECHG = KTMR Ã RTMR

(6)

tMAXCHG = 10 Ã KTMR Ã RTMR

(7)

Leave TMR unconnected to select the internal default timers. Disable the timers by connecting TMR to VSS.

Reset the timers by toggling the CE pin, or by toggling EN1, EN2 pin to put the device in and out of USB

suspend mode (EN1 = HI, EN2 = HI).

Timers are suspended when the device is in thermal shutdown, and the timers are slowed proportionally to the

charge current when the device enters thermal regulation. For the bq24230H, the timers are disabled when TD is

connected to a high logic level.

During the fast-charge phase, several events increase the timer durations.

1. The system load current activates the DPPM loop which reduces the available charging current

2. The input current is reduced because the input voltage has fallen to VIN(LOW)

3. The device has entered thermal regulation because the IC junction temperature has exceeded TJ(REG)

During each of these events, the internal timers are slowed down proportionately to the reduction in charging

current. For example, if the charging current is reduced by half for 2 minutes, the timer clock is reduced to half

the frequency and the counter counts half as fast resulting in only 1 minute of counted time.

Product Folder Links: bq24230H bq24232H

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