KR19980014998U - Battery life extension device - Google Patents

Abstract

Battery life extension device can extend the use time of the battery used in portable electronic devices. To this end, the battery life extension device employs a switching power circuit that boosts the DC voltage from the battery under the control of a voltage sensor. The voltage detector controls the switching power circuit to perform a boost operation when the DC voltage from the battery is lower than a voltage required by the portable electronic device.

Description

Battery life extension device

1 is a block diagram of a battery life extension device according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: battery part 12: regulator

14 switching power circuit 16 voltage detector

18: diode.

The present invention relates to a voltage relay device for transferring a direct current voltage from a battery to a circuit portion of a portable electronic device, and more particularly, to a battery life extension device that can extend the use time of the battery.

In general, portable electronic devices use DC voltages from batteries and accumulators as power supply voltages, or receive DC voltages from batteries and accumulators via regulators. The portable electronic device uses two or more batteries and storage batteries in series to secure a DC voltage sufficient to operate.

The batteries and accumulators used in the portable electronic device output a DC voltage which gradually decreases as the use time elapses, while the DC current maintains a constant size as long as there is a residual amount of current. This phenomenon occurs when at least two batteries and storage batteries are connected in series.

For this reason, the portable electronic device replaces the battery and the accumulator in use with a new battery and the accumulator even when the DC voltage from the battery and the accumulator is smaller than its driving voltage as the use time elapses. And shorten the life of the battery.

Accordingly, an object of the present invention is to provide a battery life extension device that can extend the life of batteries and accumulators by compensating the output voltages of the batteries and accumulators even when the output voltages of the batteries and accumulators used in portable electronic devices decrease. .

In order to achieve the above object, the battery life extension device of the present invention is a battery for supplying a driving DC voltage to the circuit portion of the portable electronic device, voltage boosting means for boosting the DC voltage from the battery, and from the battery And a control means for selectively monitoring the DC voltage and driving the voltage boosting means.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, an apparatus for extending the life of a battery according to an embodiment of the present invention having a regulator 12 for stabilizing a DC voltage from the battery unit 10 is described.

The battery unit 10 includes four 1.5V batteries connected in series to generate a 6V DC voltage. The output voltage of the battery unit 10 gradually decreases as the use time of the portable electronic device elapses, whereas the current signal of the battery unit 10 has a constant size as long as a residual current exists. The battery unit 10 may be composed of two or more batteries and accumulators connected in series or in series according to a voltage level required by the circuit unit of the portable electronic device.

The regulator 12 stabilizes the DC voltage from the battery unit 10 to a constant voltage level (for example, 5V) and outputs the stabilized voltage via the node 13. The stabilized DC voltage from the regulator 12 gradually decreases as the output voltage from the battery unit 10 decreases, and further, when the output voltage of the battery unit 10 drops below 5V. Has a voltage level of 5V or less.

The battery life extension device further includes a switching power circuit 14 that receives the DC voltage from the battery unit 10, and a voltage detector 16 that monitors the voltage on the node 13.

The switching power circuit 14 is selectively driven according to the logic state of the output signal of the voltage detector 10. In detail, the switching power circuit 14 is driven when the output logic and the low logic of the voltage detector 16 are maintained. The switching power circuit 14 boosts the DC voltage from the battery unit 10 to the predetermined voltage level and supplies the boosted voltage to the circuit unit of the portable electronic device via the output line 11. In the boosting operation, the switching power circuit 14 converts a part of the current signal from the battery unit 10 into a voltage signal so that the output voltage of the battery unit 10 is boosted.

The voltage detector 16 detects whether the DC voltage from the node 13 is below the predetermined voltage level 5V. The voltage detector 16 generates a high logic output signal when the voltage of the node 13 maintains the constant voltage level 5V so that the switching power circuit 14 is not driven. In contrast, when the voltage on the node 13 is less than or equal to the predetermined voltage level 5V, a low logic output signal is generated so that the switching power circuit 16 performs a boost operation.

The battery life extension device also includes a diode 18 connected between the node 13 and the output line 11.

The diode 18 performs an active switching function of switching the voltage on the node 13 toward the output line 11 according to the voltage on the output line 11. In detail, the diode 18 transfers the stabilized DC voltage on the node 13 toward the output line 11 only when the voltage on the output line 11 is lower than the voltage on the node 13. To pass.

As a result, when the output voltage of the battery unit 10 is greater than or equal to a predetermined voltage level (5V), the battery 12 extends the output voltage of the regulator 12 to the diode 18 and the output line 11. To be supplied to the circuit portion of the portable electronic device. On the contrary, when the output voltage of the battery unit 10 is equal to or greater than the predetermined voltage level (5V), the battery life extension device may output the output voltage of the switching power circuit 14 via the output line 11. It is supplied to the circuit portion of the portable electronic device so that the use time of the battery unit 10 is extended.

As described above, the battery life extension device of the present invention provides an advantage that the battery life can be extended by boosting the voltage of the battery when the voltage of the battery drops below the voltage required by the portable electronic device. do.

Claims (7)

A battery unit for supplying a DC voltage to a circuit portion of a portable electronic device via an output line; Voltage boosting means for boosting the DC voltage from the battery unit to a predetermined voltage level and supplying the boosted DC voltage to the circuit unit of the portable electronic device via the output line; And control means for selectively driving said voltage boosting means by monitoring that the output voltage of said battery portion is below said predetermined voltage level. The method of claim 1, And an active switching means connected between said battery portion and said output line for switching said DC voltage from said battery portion in accordance with a voltage on said output line. The method of claim 2, And said active switching means allows said DC voltage from said battery portion to be transferred to said output line when the voltage on said output line is less than the output voltage of said battery portion. The method according to claim 1 or 3, And the voltage boosting means converts the current signal from the battery unit into a voltage signal so that the DC voltage of the battery unit is stepped up. Voltage stabilization means for stabilizing the DC voltage from the battery unit to a constant voltage level and supplying the stabilized DC voltage to the circuit portion of the portable electronic device via the output line; Voltage boosting means for boosting the DC voltage from the battery unit to the predetermined voltage level and supplying the boosted DC voltage to the circuit portion of the portable electronic device via the output line; And control means for selectively driving said voltage boosting means by monitoring that an output voltage of said voltage stabilization means is below said predetermined voltage level. The method of claim 5, And an active switching means connected between said voltage stabilization means and said output line for switching said stabilized direct current voltage from said voltage stabilization means in accordance with a voltage on said output line. Extension device. The method of claim 6, And said active switching means comprises a diode for transferring said stabilized direct current voltage from said voltage stabilization means toward said output line when the voltage on said output line is less than the output voltage of said voltage stabilization means. Life extension device.