BQ27505-J3 Datasheet, PDF(32/44 Page) Texas Instruments – System-Side Impedance Track™ Fuel Gauge

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BQ27505-J3 Datasheet, PDF (32/44 Pages) Texas Instruments – System-Side Impedance Track™ Fuel Gauge

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bq27505-J3

Not Recommended for New Designs

SLUS986A â OCTOBER 2009 â REVISED FEBRUARY 2010

www.ti.com

The charging should not start when the temperature is below the Charge Inhibit Temp Low or above the

Charge Inhibit Temp High. The charging can continue if the charging starts inside the window [Charge

Inhibit Temp Low, Charge Inhibit Temp High] until the temperature is either below Suspend Low Temp or

above the Suspend Low Temp. Therefore, the window [Charge Inhibit Temp Low, Charge Inhibit Temp

High] must be inside the window of [Suspend Low Temp, Suspend High Temp].

5.7 POWER MODES

The bq27505 has different power modes: BAT INSERT CHECK, NORMAL, SLEEP, SLEEP+ and

HIBERNATE. In NORMAL mode, the bq27505 is fully powered and can execute any allowable task. In

SLEEP+ mode, both low frequency and high frequency oscillators are active. Although the SLEEP+ has

higher current consumption than the SLEEP mode, it is also a reduced power mode. In SLEEP mode, the

fuel gauge turns off the high frequency oscillator and exists in a reduced-power state, periodically taking

measurements and performing calculations. In HIBERNATE mode, the fuel gauge is in a very low power

state, but can be woken up by communication or certain I/O activity. Finally, the BAT INSERT CHECK

mode is a powered-up, but low-power halted, state, where the bq27505 resides when no battery is

inserted into the system.

The relationship between these modes is shown in Figure 5-1.

5.7.1 BAT INSERT CHECK Mode

This mode is a halted-CPU state that occurs when an adapter, or other power source, is present to power

the bq27505 (and system), yet no battery has been detected. When battery insertion is detected, a series

of initialization activities begin, which include: OCV measurement, setting the BAT_GD pin, and selecting

the appropriate battery profiles.

Some commands, issued by a system processor, can be processed while the bq27505 is halted in this

mode. The gauge will wake up to process the command, then return to the halted state awaiting battery

insertion.

5.7.2 NORMAL MODE

The fuel gauge is in NORMAL mode when not in any other power mode. During this mode,

AverageCurrent( ), Voltage( ) and Temperature( ) measurements are taken, and the interface data set is

updated. Decisions to change states are also made. This mode is exited by activating a different power

mode.

Because the gauge consumes the most power in NORMAL mode, the Impedance Trackâ¢ algorithm

minimizes the time the fuel gauge remains in this mode.

5.7.3 SLEEP MODE

SLEEP mode is entered automatically if the feature is enabled (Operation Configuration [SLEEP] = 1)

and AverageCurrent( ) is below the programmable level Sleep Current. Once entry into SLEEP mode has

been qualified, but prior to entering it, the bq27505 performs an coulomb counter autocalibration to

minimize offset.

During SLEEP mode, the bq27505 periodically takes data measurements and updates its data set.

However, a majority of its time is spent in an idle condition.

The bq27505 exits SLEEP if any entry condition is broken, specifically when (1) AverageCurrent( ) rises

above Sleep Current, or (2) a current in excess of IWAKE through RSENSE is detected.

In the event that a battery is removed from the system while a charger is present (and powering the

gauge), Impedance Trackâ¢ updates are not necessary. Hence, the fuel gauge enters a state that checks

for battery insertion and does not continue executing the Impedance Trackâ¢ algorithm.

FUNCTIONAL DESCRIPTION

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