KR101080454B1 - Apparatus and method for power supply control by using magnetic sensor - Google Patents

Abstract

The present invention is an apparatus and method for controlling the power supply of a battery pack to a mobile phone using a detector, to prevent various problems caused by the use of a defective battery of counterfeit goods. In view of the above problems, the present invention provides a magnetic sensor that detects magnetic force by putting a magnet inside the battery pack to distinguish a genuine battery pack from a counterfeit battery pack, and when the battery pack is connected, the magnetic sensor detects magnetic force. In some cases, the power switch is closed to allow power to the phone through the set power block. Therefore, there is an effect that can prevent the problem of the mobile phone function caused by the use of the counterfeit battery pack and can promote the profit of genuine battery manufacturers.

Description

Battery power supply and method of mobile phone {APPARATUS AND METHOD FOR POWER SUPPLY CONTROL BY USING MAGNETIC SENSOR}

1 is a schematic configuration diagram of a battery power supply of a conventional mobile phone.

2 is a block diagram of a battery power supply of a mobile phone according to the present invention.

3 is a flow chart of a battery power supply method of a mobile phone according to the present invention.

DESCRIPTION OF REFERENCE NUMERALS

100: battery pack 110: magnet

200: set power block 300: power switch

400: magnetic sensor

The present invention relates to a battery power supply device and method of the mobile phone, and in particular, in order to prevent damage to the performance of the mobile phone that can occur when using a battery pack (Battery Pack) and the performance of the battery pack mounted on the mobile phone in hardware The present invention relates to a battery power supply device and a method of controlling a mobile phone.                         

1 is a schematic configuration diagram of a battery power supply of a conventional mobile phone. As shown in FIG. 1, in the battery power supply of the conventional mobile phone, when the battery pack 10 is connected to the set power block 20 of the mobile phone, the battery pack 10 may be connected through the set power block 20. 10) power is supplied to the mobile phone to operate the mobile phone. That is, when the battery pack 10 is mounted on the mobile phone, the power of the battery pack 10 is configured to be directly supplied to the mobile phone.

In general, when the battery pack is used for a long time, the charging and discharging functions are deteriorated, and after a long time use, a new battery pack must be purchased and used. Currently, counterfeit batteries are sold in the battery pack market of mobile phones along with genuine battery packs of mobile phone manufacturers. Since the price of a genuine battery pack is usually higher than a counterfeit battery pack, many mobile phone users purchase and use a counterfeit battery at a low price.

The use of counterfeit battery packs not only causes business losses for genuine battery pack producers, but also causes great damage to mobile phone users who use counterfeit battery packs. Genuine mobile phone batteries are designed to have triple or quadruple safety measures to prevent burning or explosion in the worst case, but counterfeit batteries may explode during charging or during a call by neglecting the installation of these safety measures to lower the unit price. There was a problem such as an accident. In other words, using a counterfeit battery pack not only degrades the performance of the mobile phone, but can also cause serious damage to mobile phone users. There is a problem.

Conventional battery packs have a built-in ID resistor configured to allow the mobile phone to know the battery pack information such as the type and capacity of the battery by measuring a constant voltage level therein. There was no device or method to exclude its use.

Therefore, when a counterfeit battery pack is used, it is necessary to cut off the power supplied to the mobile phone so that the mobile phone cannot operate, thereby protecting the business interests of the genuine battery pack producer and preventing the user's mobile phone from being damaged. .

Therefore, the present invention was devised in view of the above problems, and when the use of the counterfeit battery pack is cut off the power supply to the mobile phone to prevent the failure and performance degradation of the mobile phone caused by the use of the counterfeit battery pack and produce a genuine battery pack It is an object of the present invention to provide a mobile phone battery power supply and method that can promote the business profits of a supplier.

To this end, the battery power supply of the mobile phone according to the present invention is a battery power supply of a mobile phone for supplying power of the battery pack to the mobile phone by connecting the battery pack to the set power block, indicating that the built-in battery pack is genuine A detector to receive power from the battery pack and to transmit an on / off signal according to whether a signal generated by the detector is detected; and to receive the signal from the detector. It characterized in that it comprises a connection means for transmitting the power of the set power block and the power supply of the battery pack when the off signal is received.

In addition, the battery power supply method of the mobile phone according to the present invention, if the battery pack is mounted on the mobile phone detects whether the signal of the detected object indicating that the battery pack is genuine, and if the signal is detected power of the battery pack Supplying to the mobile phone and if the signal is not detected, characterized in that it comprises a step of blocking the power supply of the battery pack.

In the battery power supply of the conventional mobile phone, the battery pack and the set power block are directly connected to each other, so that even when the counterfeit battery pack is mounted, power is supplied to the mobile phone through the set power block, but the present invention indicates that the battery pack is genuine. The sensor is built in, and when the battery pack is installed in the mobile phone, the sensor is configured to supply power only to the mobile phone when the sensor recognizes the detected person and identifies the authenticity.

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

2 is a block diagram of a battery power supply of a mobile phone according to an embodiment of the present invention. As shown in FIG. 2, the battery power supply device of the mobile phone includes a battery pack 100 having a magnet 110 embedded in a predetermined position therein, and receiving power from the battery pack 100. Magnetic sensor 400 that transmits the on / off signal to the power switch 300 according to the detection of the magnetic force generated in the) and, when receiving the signal from the magnetic sensor 400 is short-circuit and open when receiving the off signal The power switch 300 and the set power block 200 that can receive the power of the battery pack 100 according to the operation of the power switch 300 is configured.

In the embodiment of the present invention as a sensor to identify the authenticity when manufacturing the battery pack 100, the magnet 110 is embedded in a predetermined position therein, as a sensor that can sense the magnetic force of the magnet 110 The magnetic sensor 400 may be installed to distinguish a genuine battery pack. In addition, the power switch 300 is provided to transfer the power of the battery pack 100 to the set power block 200 only when the magnetic force is detected and recognized as a genuine battery pack.

When the battery power supply device of the mobile phone according to the present invention is implemented, the magnetic sensor 400 supplied with power from the battery pack 100 detects the magnetic force of the magnet 110 embedded in the battery pack 100. When the power switch 300 is shorted by transmitting a signal, on the contrary, when the magnetic sensor 400 does not detect a magnetic force, the power switch 300 is opened by transmitting an off signal to cut off the power supply of the mobile phone to block the counterfeit battery pack. Disable it.

The operation of the battery power supply of the mobile phone configured as described above will be described in detail.

When the battery pack 100 is mounted on the mobile phone, the battery pack 100 is connected to the power switch 300, and the magnetic sensor 400 detects whether or not magnetic force is generated in the battery pack 100. That is, the magnetic sensor 400 checks whether the magnet 110 is provided inside the battery pack 100. The magnetic sensor 400 transmits an on signal to the power switch 300 when sensing the magnetic force of the magnet 110. The power switch 300 receiving the ON signal is closed so that a circuit is connected between the battery pack 100 and the set power block 200, so that power of the battery pack 100 is transferred to the set power block 200. . On the contrary, when the counterfeit battery is mounted on the mobile phone, the magnetic sensor 400 cannot detect the magnetic force of the magnet 100, and thus the magnetic sensor 400 transmits an off signal to the power switch 300. The power switch 300 receiving the off signal is opened. Therefore, when a non-genuine battery pack is mounted, power may not be supplied to the set power block 200, thereby eliminating the use of a counterfeit battery pack.

In another embodiment of the present invention, an infrared ray generating apparatus may be mounted as a detector and an infrared sensor may be installed as a detector. In this case, when a genuine battery is connected, the sensor that detects infrared rays transmits an ON signal to the power switch 300 to close the power switch 300, and when the counterfeit battery is connected, the sensor cannot detect infrared rays, thereby transmitting an off signal. Opening the switch 300 makes the mobile phone inoperable.

3 is a flowchart illustrating a battery power supply method of a mobile phone according to an embodiment of the present invention. In the present invention, when the battery pack is mounted on the mobile phone, it is determined whether the battery pack is genuine, and when the battery pack is determined to be genuine, the battery pack is configured to supply power to the mobile phone.

As shown in Figure 3, the battery power supply method of the mobile phone according to an embodiment of the present invention (S1) that the battery pack is mounted on the mobile phone, and the step of detecting the magnetic force by the magnetic sensor when the battery pack is mounted ( S2), and when the magnetic force is detected, the magnetic sensor transmits an ON signal, and the power switch is closed (S3). Then, the power is supplied to the set power block (S5), and when the magnetic force is not detected, the magnetic sensor is detected. And a step S4 of opening the power switch by transmitting an OFF signal.

In other words, when the battery pack is connected to the mobile phone, the magnetic sensor detects the magnetic force, and when the magnetic force is detected, the battery pack is regarded as genuine and the power switch is closed to transmit power to the set power block. Since the battery pack is determined to be non-genuine, the power switch is opened so that power is not transmitted to the set power block.
Hereinafter, a battery power supply method of a mobile phone according to an embodiment of the present invention will be described in more detail with reference to FIG. 3.
First, when the battery pack 100 is mounted on the mobile phone (S1), the magnetic sensor 400 checks whether the magnetic force is detected from the battery pack 100 (S2). In other words, when the battery pack 100 is connected to the mobile phone, the magnetic sensor 400 checks whether the magnet 110 is mounted inside the battery pack 100 to check whether the battery pack 100 is genuine.
As a result of the check, when the magnetic force is detected in the battery pack 100, the magnetic sensor 400 transmits an on signal to the power switch 300. The power switch 300 is closed according to the control signal (on signal) of the magnetic sensor 400 (S3).
On the other hand, if the magnetic force is not detected in the battery pack 100, the magnetic sensor 400 transmits an off signal to the power switch 300 to maintain the power switch 300 in the open state (S4).
When the power switch 300 is closed, the battery pack 100 supplies power to the set power block 200 (S5).

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described in detail above, the present invention has the effect that the power of the battery pack is supplied to the mobile phone only when using a genuine battery pack, it is possible to prevent the cell phone performance degradation and large damage that may occur to the mobile phone when the battery charge.

In addition, since the use of counterfeit battery packs can be excluded, there is an effect to protect the operating profit of genuine battery producers.

Claims (4)

In the battery power supply of the mobile phone which connects the battery pack to the set power block and supplies the battery pack power to the mobile phone, A sensor to be built in the battery pack, indicating the authenticity and implemented as an infrared ray generating device; A detector that is supplied with power from the battery pack and transmits an on / off signal according to whether a signal generated by the detector is detected and is implemented as an infrared sensor; And a connection means for transmitting the power of the battery pack to the set power block when receiving the signal from the detector and cutting off the power supply of the battery pack when receiving the off signal. Battery power supply. delete delete If the battery pack is mounted in a mobile phone, detecting whether the battery pack is genuine and generating a signal of a subject to be implemented by an infrared ray generating device; And supplying power of the battery pack to the mobile phone when the signal is detected, and cutting off the power supply of the battery pack if the signal is not detected.

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