lv51140t Sanyo Semiconductor Corporation, lv51140t Datasheet - Page 8

lv51140t

Manufacturer Part Number

lv51140t

Description

1-cell Lithium-ion Battery Protection Ic

Manufacturer

Sanyo Semiconductor Corporation

Datasheet

1.LV51140T.pdf (13 pages)

Current page: 8 of 13
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Description of Operation

• Normal condition

• Discharge over-current detection, Load short-circuiting detection

Note : The resistance value between (+) and (-) terminals of battery pack for automatic return changes with battery voltage

• Charge over-current detection

Note : If the V M terminal voltage becomes equal to or less than V SS -7V (typical), the charge over-current detection delay

• Over-charge detection

At that time, if the V M terminal voltage is equal to or higher than Vshort and that state is maintained during more than

While load is connected, in both conditions, the V M terminal voltage equals to V DD potential due to the load, but it falls

voltage (VC) and the V M terminal voltage is in the range from the charge over-current detection voltage (VIc) to the

discharge over-current detection voltage (VIdc), this IC turns on both the charge and discharge control FETs. This state

is called the normal condition, and charge and discharge are possible together.

When the discharge current becomes equal to or higher than the specified value under the normal condition, and if the

V M terminal voltage is in the range from the discharge over current detection voltage (VIdc) to the short-circuiting

detection voltage (Vshort) and that state is maintained during more than the discharge over-current detection delay time

(tidc), this IC turns off the discharge control FET to stop discharge. This state is called the discharge over-current

condition.

the load short-circuiting detection delay time (tshort), this IC turns off the discharge control FET to stop discharge. This

state is called the load short-circuiting detection condition.

by the discharge over-current release resistance (Rdwn) when the load is removed and the resistance between (+) and (-)

terminals of battery pack (refer to “Application Circuit Example”) becomes larger than the value which enables the

automatic return.

time 1 (trel1), this IC returns to normal condition.

When the charge current becomes equal to or higher than the specified value under the normal condition, if the V M

terminal voltage becomes less than the charge over-current detection voltage (VIc) and that state is maintained during

more than the charge over-current detection delay time (tic), this IC turns off the charge control FET to stop charge. This

state is called the charge over-current detection condition.

Then the V M terminal voltage becomes equals to or higher than VIc and that state is maintained during more than the

release delay time 1 (trel1) when the charger is removed and the load is connected, this IC returns to the normal

condition.

When the battery voltage (V DD ) under the normal condition becomes equal to or higher than the over-charge detection

voltage (VC) and that state is maintained during more than the over-charge detection delay time (tc), this IC turns off the

charge control FET and stops charge. This state is called the over-charge detection condition. Release from the

over-charge detection condition includes following three cases.

This IC monitors the battery voltage (V DD ) and the voltage of V M terminal, and controls charge and discharge.

If the battery voltage (V DD ) is in the range from the over-discharge detection voltage (Vdc) to the over-charge detection

Then the V M terminal voltage becomes less than VIdc, and if that state is maintained during more than the release delay

(1) When V DD falls to Vc-VHc without load and that state is maintained during more than the delay time 2 (trel2), this

(2) When the load is installed and discharge starts, the discharge current flows through the internal parasitic diode of the

(3) In case (2), if the V M terminal voltage is higher than the discharge over-current detection voltage (VIdc) and V DD

(V DD ) or VIdc. The standard is expressed with the following equation.

time (tic) changes as below.

IC turns on the charge control FET and returns to the normal condition.

charge control FET. Then the V M terminal voltage rises to only the Vf voltage of the internal parasitic diode from

V SS potential. At this time, if the V M terminal voltage is higher than the discharge over-current detection voltage

(VIdc) and V DD is equal to or less than VC, this IC returns to the normal condition when this state continues more

than the delay time 2 (trel2).

is equal to or higher than VC, battery is discharged until V DD becomes less than VC, and then this IC returns to the

normal condition when this state continues more than the delay time 2 (trel2).

* VHc : Over-charge hysteresis voltage

Resistance value for automatic return = Rdwn × (V DD / VIdc - 1)

8ms model

125ms model

1.0s model

→

8ms (not changed)

7ms (typical)

56ms (typical)

LV51140T

No.A1024-8/13

lv51140t Sanyo Semiconductor Corporation, lv51140t Datasheet - Page 8

lv51140t

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