KR19980087892A - Rechargeable Battery of Cell Phone with Cell - Google Patents

Abstract

The present invention relates to a charging battery of a mobile phone, and in particular, to increase the use efficiency by attaching a solar cell to allow auxiliary charging. Conventionally, the solar cell cannot be used simply by attaching the solar cell and thus cannot charge the battery at a chargeable level. To solve this problem, the present invention attaches a solar cell to the surface of a charging battery of a mobile telephone, and compares the solar cell with a comparison circuit for determining whether the output level of the cell satisfies the charging condition of the battery and the comparison value of the comparison circuit. A charging circuit for boosting the output of the solar cell by up / down control and a charging control circuit for charging the boosted power source to the battery are included in the charging battery of the mobile telephone. As a result, the secondary battery can be recharged by the solar cell, thereby significantly improving the use efficiency of the charging battery of the mobile phone.

Description

Rechargeable Battery of Cell Phone with Cell

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to charging batteries, such as portable mobile phones, and more particularly, to charging batteries of mobile phones with solar cells attached to the charging batteries to assist charging by solar light.

In general, the charging battery of a mobile phone is charged with a general power source using a separate charging device, but the use time is limited, so it is often not available due to lack of battery while going out.

The problem of lack of battery in using mobile phones in this way is inconvenient in many ways, especially in areas where there are no telephones (e.g. mountain climbing or fishing). There was a problem that can not be forced to talk if the lack.

Accordingly, it is an object of the present invention to provide a solar cell charging device for a mobile phone which can be used as an auxiliary device by allowing a cell to charge a battery for a mobile phone.

When the intensity of light is sufficient in offline devices such as satellites, unmanned observation stations, and electric vehicles, it is used as an alternative energy source and used as an auxiliary power source for low power electronic devices such as electronic calculators and electronic clocks.

Such a method of using a solar cell that converts light energy into electrical energy is used only in a limited manner, and the commercialization is delayed, but there is a factor of low photoelectric conversion efficiency of an optical semiconductor device. Rather than low light, there is a problem in output reduction due to the difference in sunshine and illuminance.

The present invention improves the problem that it is difficult to secure the charging power due to the lack of the number of attachment of the solar cell, thereby improving the problem that the solar cell is satisfied by boosting the electric energy obtained from the solar cell to satisfy the charging conditions of the battery. It is intended to be used as an auxiliary energy for mobile phones.

According to the present invention, a solar cell is attached to the surface of a charging battery of a mobile telephone, and a comparison circuit for determining whether the output level of the cell satisfies the charging condition of the battery, and the output of the solar cell based on the comparison value of the comparison circuit. This is achieved by including a boosting circuit for boosting by up / down control and a charging control circuit for charging the boosted power supply to a battery in the charging battery of the mobile telephone.

Accordingly, when the battery is charged with a general power source and discharged under a chargeable voltage in the cell charge control circuit, the battery is charged with a power source obtained from the solar cell so that the battery can be temporarily charged and used.

1 to 3 is an illustration of a charging battery for a mobile phone with a cell of the present invention,

1 shows that the solar cell is attached to the inner surface of the battery,

Figure 2 shows that the solar cell is attached to the back of the battery,

3 is a view showing a state in which a battery attached to the mobile phone mounted on the mobile phone.

Figure 4 is a block diagram of a battery charging device of a mobile phone with a cell of the present invention.

Explanation of symbols on the main parts of the drawings

10: cell 20: comparison circuit

21: Comparator 22: Buffer

30 booster circuit 40 charge control circuit

50: charging battery

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

1 to 3 is an exemplary view showing a charging battery for a mobile phone with a solar cell of the present invention, Figure 1 shows that the solar cell 10 is attached to the inner surface of the battery 50, Figure 2 Shows that the solar cell 10 is attached to the back of the battery 50, Figure 3 shows a state in which the battery attached to the solar cell mounted on the mobile phone.

4 is a block diagram of a battery charging device of a mobile phone with a solar cell of the present invention, as shown in the cell 10 attached to the surface of the charging battery 50 of the mobile phone, and the solar cell The output of the cell 10 based on the comparison circuit 20 for comparing and determining whether the output voltage of the cell 10 is a voltage capable of charging the charging battery 50 and the output voltage of the comparison circuit 20. The booster circuit 30 boosts the voltage to DC-DC step-up / down to satisfy the charging condition of the battery, and charges the voltage boosted by the booster circuit 30 while preventing overcharging of the charge battery 50. It is configured to include a charge control circuit 40 to. The comparator circuit includes a comparator 21 and a buffer 22, and the comparator 21 divides the output of the solar cell 10 into the resistors R1 and R2 and charges the battery 50. The reference voltage (Vref) set by receiving the charging power of?) Is compared with each other, and the comparison value is buffered through the buffer 22 and supplied as a step up / down signal of the boost circuit 30.

According to the present invention configured as described above, the solar cell 10 is first attached to the surface of the charging battery 50 of the mobile telephone to constitute a charging circuit as shown in FIG. Accordingly, the charging battery 50 is intended to be recharged by the solar cell 10 when the battery is charged with a general power source and falls below an appropriate voltage during use.

The solar cell 10 is a photoelectric conversion semiconductor device that receives light energy and converts the light energy into electrical energy, and attaches the solar cell 10 by connecting the unit cells with an appropriate number. The power source obtained from the solar cell 10 is compared with the reference value Vref through the comparator 21 of the comparison circuit 20 of the present invention, and as a result of the comparison, when the voltage is not directly chargeable, the buffer 22 The step-up circuit 30 boosts the output power of the solar cell 10 step by step by the comparison signal buffered through the step-up circuit to meet the charging conditions.

Step-up circuit 30 is a circuit for up / down the input power (IN) step by step because it is a circuit known in the prior art, the detailed description of the operation is omitted. However, in the present invention, since the size of the solar cell 10 (the number of unit cells) does not sufficiently generate the charging voltage of the charging battery 50, the step-up operation is mainly performed, and the charging battery 50 is operated by the step-up operation. ) To a voltage that can be charged.

As such, the voltage boosted by the step-up operation in the boosting circuit 30 is charged to the charging battery 50 while the charge control circuit 40 performs the overcharge prevention operation.

Therefore, the solar cell 10 alone does not sufficiently charge the charging battery 50, but may be auxiliaryly charged by the solar cell 10, so that the problem of not using the phone due to battery consumption while going out is secondaryly charged with the solar cell. Can be used.

As described in detail above, the present invention attaches a solar cell to a charging battery of a mobile phone to assist in charging the cell, so that the mobile phone can be used by charging auxiliary when going outdoors. Since the charging operation becomes possible, the use time of the battery can be greatly improved.

Claims (2)

A comparison circuit 20 for comparing the solar cell 10 attached to the surface of the charging battery 50 of the mobile telephone with the output voltage of the solar cell 10 to determine whether the charging battery 50 can be charged And a booster circuit 30 for boosting the output voltage of the solar cell 10 to DC-DC step up / down based on the output voltage of the comparison circuit 20 to satisfy the charging condition of the battery. The charging battery of a mobile phone with a solar cell, characterized in that it comprises a charge control circuit 40 for charging the voltage boosted by the boosting circuit 30 to prevent overcharging of the charging battery (50). The method of claim 1, wherein the comparison circuit Comparator 21 for comparing the output voltage of the solar cell 10 and the reference voltage set by receiving the charging voltage of the charging battery 50 and the output of the comparator 21 to buffer the output of the booster circuit 30 A charging battery for a mobile phone with a solar cell, comprising a buffer 22 for supplying a step up / down control signal.