KR100238877B1 - Battery change cunnent control method - Google Patents

Abstract

end. FIELD OF THE INVENTION The present invention relates to a battery charging method of a portable wireless device.

I. The present invention is to provide a method for reducing the charging time by supplying a charging current only to the charging port equipped with a battery by checking whether the battery is installed in each charging port.

All. Summary of the Invention Solution of the Invention: When the battery is installed in only one charging port, the charging current output from the constant current source is supplied only to the charging port equipped with the battery, and when the battery is mounted in the plurality of charging ports, the output is output from the constant current source. It is characterized by distributing the charging current and supplying it to the charging port equipped with a battery.

la. Significant Use of the Invention: Can be used to charge batteries in portable wireless devices.

Description

Charging current control method according to battery installation {BATTERY CHANGE CUNNENT CONTROL METHOD}

The present invention relates to a battery charging method of a portable wireless device, and more particularly to a charging current control method for distributing the charging current according to the battery mounting state.

In general, portable wireless devices are powered by a battery to form a call. In this case, the battery uses a rechargeable battery, and the rechargeable battery (hereinafter referred to as a battery) must be charged in a usable state at all times.

In a conventional portable wireless device, there are two methods for charging a battery. As a first method, there is a sequential charging method in which the first charging hole is first charged and the second charging hole is later charged. As a second method, there is a method of simultaneously charging the first and second charging holes with one fixed constant current. The conventional charging method is a method of supplying current to both charging holes when the battery is mounted on one side regardless of whether the battery is installed or not. Therefore, when the charging current is fixed, even if only one battery is mounted, only a fixed current flows, so there is a problem in that the charging time is long even though the capacity of the constant current supply source (adapter) is sufficient. In addition, when the capacity of the charging adapter is increased in order to solve the above problem, the volume of the portable wireless device charger becomes large and heavy.

Accordingly, an object of the present invention is to provide a charging current control method that can shorten the charging time by supplying a charging current only to the charging port equipped with a battery by checking whether the battery is installed in each charging port.

The present invention for achieving the above object is a charger of a portable wireless device having a plurality of charging ports, and a constant current supply source for charging the battery mounted to the charging port,

A first process of checking whether a battery is mounted in each of the plurality of charging holes;

A second process of supplying a charging current output from the constant current supply source only to a battery-equipped charging port when the battery is mounted only to one charging port as a result of the inspection;

When the battery is mounted on the plurality of charging holes as a result of the inspection, a third process of distributing the charging current output from the constant current supply source and supplying the charging holes to the battery is provided.

1 is a block diagram of a general charging device.

FIG. 2 is a detailed configuration diagram of the first charging hole charging circuit of FIG. 1. FIG.

3 is a battery charging control flow chart according to an embodiment of the present invention.

Hereinafter, an operation according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the accompanying drawings, the detailed configuration of the charging port charging circuit is well-known technology, and thus it will be omitted, and many specific details such as specific processing flows are shown to provide a more general understanding of the present invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details. And detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a block diagram of a general charging device. In FIG. 1, the constant current supply unit 10 inputs AC power and outputs the AC power by lowering it to a current required for charging the battery. At this time, the constant current supply unit 10 flows a constant current when the load is connected, that is, when the battery is mounted, and does not flow a constant current when the load is not connected. Therefore, the current supplied to the charging circuits 20 and 30 is always constant. The first charger charging circuit 20 and the second charger charging circuit 30 are supplied with a predetermined level of constant current from the constant current supply unit 10 under the control of the MPU 40. The MPU 40 checks whether a battery is mounted in the first and second charging hole charging circuits 20 and 30 and controls the current supply path from the constant current supply unit 10 on / off. In addition, the MPU 40 controls the charging of the battery by detecting the voltage and temperature of the battery being charged, and has a memory in which a control program according to an embodiment of the present invention is stored. Hereinafter, a detailed configuration of the first and second charger charging circuits 20 and 30 will be described with reference to FIG. 2. In the following description, only the configuration of the first charging unit charging circuit 20 is illustrated for convenience, but the second charging unit charging circuit 30 is also the same as the configuration of the first charging unit charging circuit 20.

FIG. 2 is a detailed configuration diagram of the first charging hole charging circuit 20 of FIG. 1, wherein the battery 21 and the connector 22 may be coupled to the battery 10. The charge path selector 23 for turning on / off the supply path of the constant current supplied from the constant current supply unit 10 under the control of the MPU 40, and the battery voltage sensing for detecting and outputting the voltage of the battery 21. The unit 24, a battery temperature sensing unit 25 that detects and outputs a temperature of the battery 21, and voltages and temperatures detected by the battery voltage sensing unit 24 and the battery temperature sensing unit 25, respectively. A / D converter 26 converts and outputs the digital signal into a digital signal.

3 illustrates a battery charging control flow chart according to an embodiment of the present invention. Hereinafter, the charging current control process according to the battery installation will be described with reference to FIGS. 1 to 3.

First, when the power supply is "on", the MPU 40 detects from the battery voltage sensing unit 24 and the battery temperature sensing unit 25 through the connector 22 of the first charging unit charging circuit 20 in step 50. It is determined whether the battery is installed in the first charging hole by monitoring whether the supplied voltage and temperature are input as the digitally converted signal through the A / D converter 26. In this case, when the digitally converted voltage and temperature are input through the P1 and P3 terminals, the MPU 40 proceeds to step 52 to determine whether the battery is installed in the second charging hole in the same manner as the above method. As a result of determination in step 52, when the battery is installed in the second charging hole, the MPU 40 proceeds to step 54 and supplies constant current to the first and second charging holes. In the constant current supply method, the constant current supplied from the constant current supply unit 10 is ″ on ″ the charging path of the charging path selecting unit 23 through the P2 and P6 terminals so that the constant current is supplied to the battery 21 mounted through the connector 22. To control. Thereafter, the MPU 40 receives the digitally converted signal through the A / D converter 26 in step 56 and compares it with a set reference value to check the full charge state of the mounted battery 21. If the mounted battery 21 is not fully charged, the process returns to step 54 and repeats steps 54 and 56 described above. After the battery 21 is fully charged, the MPU 40 proceeds to step 58 to ″ off ″ the charge path of the charge path selector 23 to stop charging and set a full charge flag. Thereafter, the MPU 40 controls the battery charge display unit (not shown) in step 60 to display the full charge state, and returns to step 50 again. As described above, when the batteries are mounted in the two charging holes, the current of the predetermined level supplied from the constant current supply unit 10 is distributed to the two charging holes under the control of the MPU 40 to charge the battery.

On the other hand, if the battery is not installed in the first charging hole in step 50, the MPU 40 proceeds to step 64 and checks the digitally converted signal input to the P4 and P5 terminals, and the battery is installed in the second charging hole. Determine if there is. If it is determined that the battery is installed in the second charging hole, the MPU 40 proceeds to step 66 to supply a constant current only to the battery mounted in the second charging hole charging circuit 30. In step 56, the full charge state of the battery installed in the second charging hole is examined in the same manner as described above. If there is no battery installed in the second charging hole in step 64, the MPU 40 proceeds to step 68 to indicate that the battery is not installed in the battery charge display unit, clears the full charge flag, and returns to step 50 again. . On the other hand, if it is determined in step 52 that the battery is not installed in the second charging hole, the MPU 40 proceeds to step 62 so that the constant current is supplied only to the battery mounted in the first charging hole charging circuit 20. Turn on the charging path. At this time, the charging path of the second charging hole charging circuit 30 is maintained in the ″ off ″ state. Thereafter, the MPU 40 proceeds to step 56 and checks whether the battery mounted in the first charging hole is fully charged, and if it is fully charged, performs the steps 58 and 60 described above sequentially. Thereafter, the MPU 40 returns to step 50 again to check whether the battery is installed in each charging port. As described above, when the battery is installed in only one charging hole, the current of a predetermined level supplied from the constant current supply unit 10 is supplied to only one charging hole in which the battery is mounted under the control of the MPU 40.

As described above, the present invention provides a charging current supplied from a constant current source only to a charging port equipped with a battery when only one of the charging ports is equipped with a battery, thereby shortening the charging time and providing current supply efficiency of the constant current source. There is an advantage to increase.

Claims (1)

In the charger of the portable wireless device having a plurality of charging ports and a constant current source for charging the battery mounted to the charging port, A first process of checking whether a battery is mounted in each of the plurality of charging holes; A second process of supplying a charging current output from the constant current supply source only to a battery-equipped charging port when the battery is mounted only to one charging port as a result of the inspection; And a third process of distributing the charging current output from the constant current supply source and supplying the battery to the charging hole equipped with the battery when the battery is mounted in the plurality of charging holes.

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