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In a battery pack, undesired current consumption is reduced during a shipping period to extend the charge keeping time of the battery pack. The battery pack includes at least one of battery cells, a charge switch, a discharge switch, and a microcomputer for controlling the charge switch and the disc

In a battery pack, undesired current consumption is reduced during a shipping period to extend the charge keeping time of the battery pack. The battery pack includes at least one of battery cells, a charge switch, a discharge switch, and a microcomputer for controlling the charge switch and the discharge switch in accordance with a voltage of the battery cells. The battery pack has a shipping mode where the battery pack is shut down during the shipping period.

대표청구항 ▼

1. A battery pack comprising: a battery cell;a charge/discharge switch configured to enable charge/discharge of the battery cell;a microcomputer configured to control the charge/discharge switch in accordance with a voltage of the battery cell; anda mode switch, operable by a user of the battery pac

1. A battery pack comprising: a battery cell;a charge/discharge switch configured to enable charge/discharge of the battery cell;a microcomputer configured to control the charge/discharge switch in accordance with a voltage of the battery cell; anda mode switch, operable by a user of the battery pack, configured to make the microcomputer enter a shipping mode,wherein the charge/discharge switch is turned off in the shipping mode. 2. The battery pack of claim 1, wherein, in the shipping mode, the microcomputer is turned on or off. 3. The battery pack of claim 1, wherein the mode switch is configured to be toggled on when the battery pack is electrically connected to an external device. 4. The battery pack of claim 1, wherein a remaining capacity of the battery cell is checked by operating the mode switch. 5. The battery pack of claim 1, wherein when the microcomputer is in the shipping mode, a current consumption of the battery pack is between about 2 uA/hr and about 3 uA/hr. 6. The battery pack of claim 5, further comprising a current probe connected to a first power terminal of the battery pack or a current meter connected between the battery cell and a ground, and configured to measure the current consumption of the battery pack. 7. The battery pack of claim 1, wherein the microcomputer is configured to operate with an electric power supplied from a charger when the battery pack is coupled to the charger and the microcomputer is configured to turn on the charge switch and the discharge switch so that the battery pack is in a normal mode. 8. The battery pack of claim 1, wherein when the microcomputer is in the shipping mode, the battery pack is shut down. 9. The battery pack of claim 1, wherein when the microcomputer is in the shipping mode, a current consumption of the battery pack is an amount of self-discharge current that flows through the battery cell in the shipping mode. 10. The battery pack of claim 1, wherein the microcomputer is configured to analyze codes in accordance with on and off operations of the mode switch and the microcomputer is configured to control on and off of the charge/discharge switch. 11. The battery pack of claim 1, further comprising a light emitting diode unit configured to be turned on in accordance with a switching operation of the mode switch to display a remaining capacity of the battery cell. 12. The battery pack of claim 11, wherein the microcomputer comprises: a switching sensor configured to sense a switching signal of the mode switch;a light emitting diode (LED) driver configured to drive the light emitting diode unit in accordance with the switching signal sensed by the switching sensor to emit light;a code analyzer configured to analyze the switching signal of the mode switch;a mode setting unit configured to set a mode of the battery pack in accordance with a result analyzed by the code analyzer;a switching driver configured to operate the charge/discharge switch in accordance with the mode set by the mode setting unit; anda controller configured to: control the LED driver to generate a lighting signal of the light emitting diode unit in accordance with the signal sensed by the switching sensor,control the mode setting unit in accordance with the result analyzed by the code analyzer, andcontrol the switching driver in accordance with the mode set by the mode setting unit. 13. The battery pack of claim 12, wherein the microcomputer further comprises: a sensor for sensing voltage, current, and temperature of the battery cell;a remaining capacity estimator for estimating the remaining capacity of the battery cell in accordance with the voltage, current, and temperature sensed by the sensor; anda memory for storing the voltage, current, and temperature sensed by the sensor. 14. The battery pack of claim 12, wherein the controller is configured to set the mode of the microcomputer to the shipping mode by utilizing the mode setting unit when a code analyzed by the code analyzer is equal to a code stored in the controller. 15. The battery pack of claim 12, wherein the controller is configured to turn off the charge/discharge switch by utilizing the switch driver in the shipping mode. 16. The battery pack of claim 12, wherein the microcomputer is configured to be in a sleep mode when the charge/discharge switch is turned on. 17. The battery pack of claim 16, wherein the battery cell is configured to supply an electric power to the microcomputer via the charge/discharge switch during the sleep mode.