KR200165537Y1 - Electric source circuit using primary cell and charging battery by combined use - Google Patents

Abstract

The present invention has been made to solve the problems of the prior art, a portable communication device in a state where the normal battery pack is connected in the power circuit of the portable communication device that can be used as a rechargeable battery pack and a general battery pack The purpose is to provide a power supply circuit so that the power supply circuit is not damaged even when connected to the charger.

To this end, the present invention, the power terminal is shared between the normal battery pack and the rechargeable battery pack, and the base end is connected to the positive terminal of the battery cell connected to the negative electrode of the ground of the rechargeable battery, the charge power by the potential change of the base And a transistor 3 for controlling the supply of current to the power supply terminal.

Therefore, the present invention has the effect of ensuring the safe operation of the power supply circuit of a portable communication device using a common battery by the addition of a simple circuit element.

Description

Improved charger that can charge only a dedicated battery

1 is a schematic block diagram showing a state of use of the charging device according to the present invention.

* Explanation of symbols for main parts of the drawings

1: normal battery pack 2: rechargeable battery pack

3: transistor R1, R2: resistance

The present invention relates to a battery charger of a portable communication device, and more particularly, when a battery pack containing a built-in battery is inserted into a socket of a charger to prevent power supply for charging, and a rechargeable battery It relates to a charging device in which power for charging is supplied only when the pack is inserted into the socket of the charging device.

Recently, the use of portable communication devices is increasing rapidly as mobile communication develops. Most of these portable communication devices use a rechargeable battery as a power source. When it is exhausted beyond the limit, the battery cannot be recharged unless a general charging device for charging the rechargeable battery is carried, so that the portable communication device cannot be used. On the other hand, even if you have the general charging device, since the battery can be used for a certain time or after the use of the portable communication device, there are many problems in the sustainability of the portable communication device.

In order to solve this problem, recently, as a power source of a portable communication device, a battery pack capable of supplying power using a general battery has been proposed. That is, when all of the charging power of the rechargeable battery is exhausted, a battery pack has been proposed to remove the rechargeable battery pack from a portable communication device and to install and use a battery pack having a general battery.

However, the user may not recognize that the battery pack mounted in the portable communication device is a battery pack having a built-in normal battery, and may connect the charging terminal of the battery pack to the charging power supply terminal of the charging device for charging. In this case, when left in a state of charge for a predetermined time or more, there is a problem in that, in a severe case, a general battery may explode, or a power circuit or a charging device of a portable communication device may be damaged.

Therefore, the present invention has been devised to solve the problems of the prior art as described above, so that the power for charging is not supplied when inserted into the socket of the charging device to charge a battery pack containing a common battery, An object of the present invention is to provide a charging device in which power for charging is supplied only when a rechargeable battery pack is inserted into a socket of a charging device.

In order to achieve the above object, the present invention provides a charging device for charging a battery that provides power to a portable communication device, wherein the rechargeable battery pack includes first and second terminals for supplying charging power, and A third terminal is provided for supplying redundant power, and the charging device is connected to a third terminal of the rechargeable battery pack, and is turned on when the power supplied through the third terminal is less than or equal to a first threshold value. And supply switching power to the battery and turn off when the power supplied through the third terminal is greater than or equal to a second threshold greater than the first threshold indicating that the battery is fully charged. In this case, the charging power is supplied only when the rechargeable battery pack is connected to the charging device.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is a schematic block diagram showing a state of use of the charging device according to the present invention, in which 1 is a battery pack with a built-in general battery, 2 is a rechargeable battery pack, 3 is a PNP transistor, R1 and R2 are resistors, respectively. Indicates.

As shown in the figure, the rechargeable battery pack 2 according to the present invention has a transistor for driving a PNP transistor 3 which is not provided in the battery pack 1 with a built-in general battery as well as a terminal for application of a general charging power source. A terminal for supplying power to the base end of (3) is further provided. In addition to the general configuration, the charging device further includes a transistor 3 that performs a switching function for determining whether to supply power supplied for charging. That is, the transistor 3 is a PNP transistor, and when the battery pack is charged, the power supplied from the battery pack is applied to the base end of the transistor 3 so that the transistor 3 is driven using this power supply. Be sure to In such a configuration, since the terminal for supplying power to the base end of the transistor 3 is formed only in the rechargeable battery pack, the transistor 3 may be driven using the power remaining in the rechargeable battery. Can be. Of course, the power remaining in the rechargeable battery must be greater than or equal to a threshold value capable of driving the transistor 3. Meanwhile, a resistor R2 is connected between the charging power supply terminal and the emitter terminal of the transistor 3, and a resistor R1 is connected between the transistor driving power supply terminal of the rechargeable battery and the base terminal of the transistor.

Looking at the charging process of the battery pack according to this configuration, first, when the user is using the portable communication device by mounting the rechargeable battery pack (2) when the charging power of the rechargeable battery pack (2) is exhausted below a certain value The battery pack (1) with a built-in normal battery is replaced. If you use it in this state and forget the fact that the battery pack 1 with the built-in battery is installed, and connect the portable communication device with the charging device, the transistor is turned off because the driving power is not supplied to the base terminal of the PNP transistor 3. In this state, charging power is not applied to the battery pack 1.

When the user finds this and connects the almost discharged rechargeable battery pack 2 with the charging device, the terminal provided separately of the rechargeable battery pack and the base terminal of the PNP transistor 3 are connected to each other so that a power source for driving the transistor is provided. Is approved. After a certain time, when the transistor 3 is turned on, the charging power is applied to the battery pack through the transistor.

When the rechargeable battery is charged after a predetermined time, the potential applied to the base end of the transistor 3 rises, and when the potential applied to the base end exceeds a predetermined value, the transistor 3 is turned off. As a result, no more charging current is delivered to the battery pack.

Therefore, the present invention made as described above is not supplied with the charging power when the battery pack with a built-in ordinary battery is coupled to the charging device by the addition of a simple circuit element. The charging power is supplied only when only the rechargeable battery pack is coupled to the charging device, thereby protecting the portable communication device power circuit and the charging device.

Claims (2)

A charging device for charging a battery for supplying power to a portable communication device, wherein the rechargeable battery pack includes first and second terminals for supplying charging power and a third terminal for supplying extra power of the battery. The charging device is connected to a third terminal of the rechargeable battery pack, and when the power supplied through the third terminal is less than or equal to a first threshold value, the charging device is turned on to supply charging power to the battery; And a switching means that is turned off when the power supplied through the third terminal is greater than or equal to a second threshold value greater than the first threshold value indicating that the battery is fully charged. Charging apparatus characterized in that the charging power is supplied only when connected to the device. A charging device according to claim 1, wherein said switching means comprises a PNP transistor.