KR100752299B1 - A badness battery detection apparatus of the mobile communication terminal - Google Patents

Abstract

The present invention relates to an apparatus for detecting a battery of a mobile communication terminal, and more particularly, to determine whether or not a protection circuit is installed in a battery mounted on a mobile communication terminal. The present invention relates to a device for detecting a battery of a terminal.

The present invention described above includes a protection circuit unit having a terminal connection terminal for supplying power to a mobile communication terminal by controlling the charge and discharge of the battery cell; A voltage divider circuit unit which is added to one side of the terminal connection terminal to divide and output the output voltage output from the terminal connection terminal; And a controller for detecting the output voltage of the voltage dividing circuit unit to determine whether the protection circuit is present and then turning off the power of the mobile communication terminal when the protection circuit is not provided.

Mobile communication terminal, battery, protection circuit, protection circuit detection device

Description

A badness battery detection apparatus of the mobile communication terminal

1 is a block diagram of a protection circuit of a mobile communication terminal in the prior art,

2 is a view showing a battery using a general chemical cell,

3 is a diagram illustrating a detailed configuration of a terminal connection terminal unit of the battery;

4 is a diagram illustrating a circuit configuration of an apparatus for detecting equipment battery according to an embodiment of the present invention.

* Description of Major Symbols in Drawings *

BC: battery cell 10: protection circuit

11: protection circuit control unit 12: switching unit

20: voltage divider circuit 30: control unit

The present invention relates to an apparatus for detecting a battery of a mobile communication terminal, and more particularly, to determine whether or not a protection circuit is installed in a battery mounted on a mobile communication terminal. The present invention relates to a device for detecting a battery of a terminal device.

In general, a battery provided in a mobile terminal includes a protection circuit for performing overcharge protection, overdischarge protection, overcourrent protection, and short-circuit protection. Is built.

The overcharge protection function described above stops charging when a specific voltage is exceeded in order to protect the battery from overheating or explosion due to battery overcharging.

The overdischarge protection function described above is operated to stop the discharge when the voltage is below a certain voltage to prevent damage to the battery due to overdischarge.

The overcurrent protection function described above is operated to stop the discharge when there is an abnormal current flow in the battery due to a device error.

In addition, the short-circuit protection function described above is operated to stop charging at a moment when a large amount of current flows due to an external short circuit of the battery pack.

The protection circuit of the battery having the protection function as described above is referred to as a protection circuit module (PCM) (hereinafter referred to as a 'protection circuit'), Figure 1 shows the configuration of the protection circuit of the mobile communication terminal in the prior art described above It is.

As shown in FIG. 1, the protection circuit installed in the battery of the mobile communication terminal monitors the voltage of the battery cell BC during charging and outputs a control signal for stopping charging when the voltage exceeds the specified voltage. Wow; By the control signal of the control unit 1, it is composed of a switching unit (2) which is turned on / off to provide a connection passage for charging and discharging the battery between the battery cell (BC) and the external connection terminal (3).

Referring to the operation of the battery protection circuit in the prior art having the above configuration is as follows.

First, in the battery charging mode, the controller 1 applies a control signal to the switching unit 2 for controlling to start charging, whereby the switching unit 2 is turned on by the control signal of the control unit 1 Then, the charging voltage is input through an external connection terminal (not shown) and applied to the battery cell BC to perform a battery charging operation. At this time, when the controller 1 detects the battery cell voltage and detects the voltage higher than the specified voltage, the controller 1 applies a control signal to the switching unit 2 to cut off the charging, and accordingly, the switching unit 2 is turned off and charged. In which the discharge is possible.

If the controller 1 senses the voltage of the battery cell BC and is detected to be lower than or equal to the prescribed voltage, the controller 1 applies a control signal to the switching unit 2 to block the discharge, and accordingly, the switching unit 2 discharges the discharge. It is possible to cut off the discharge by turning off the connection terminal for.

In addition, the controller 1 senses the voltage applied to the switching unit 2 and stops charging and discharging when an overcurrent is detected.

By the operation as described above it is possible to prevent accidents such as explosion due to the battery of the mobile communication terminal in advance.

Therefore, in order to prevent the occurrence of safety accidents, a hard pack battery having a built-in protection circuit is used. However, in recent years, a soft pack battery is often used by the same company to use the battery in common. There was a problem of being exposed to safety accidents such as battery explosion due to a non-genuine battery manufactured only with battery cells without using a protection circuit module (PCM).

Accordingly, the present invention is to solve the above-mentioned problems in the prior art, to determine whether or not the protection circuit is built in the battery inside the mobile communication terminal is mounted so that the protection circuit is normally operated, the protection circuit In the case where it is detected that there is no, it is an object of the present invention to provide an apparatus for detecting equipment battery of a mobile communication terminal that can be used to prevent the use of the equipment by turning off the power after indicating that the equipment.

The present invention for achieving the above object, the first terminal and the second terminal connected in parallel to the positive terminal (B +) of the battery cell to output two reference voltage, the negative terminal (B-) reference of the battery cell A first resistor (R1) connected in series with the second terminal at a front end of the second terminal of the battery having a third terminal for voltage; A second resistor R2 connected in parallel to one end of the power input terminal of the mobile communication terminal connected to the second terminal to apply a divided voltage Vadc to the controller of the mobile communication terminal; A control unit for outputting a warning signal for informing the supply battery by determining the battery as a supply battery when the divided voltage Vadc by the first resistor R1 and the second resistor R2 is out of a predetermined value range; It is configured to include.
The above-described battery may be provided with a protection circuit unit having a terminal connection terminal for supplying power to the mobile communication terminal by controlling the charge and discharge of the battery cell.

The above protection circuit unit includes a protection circuit control unit for outputting a control signal for controlling charging and discharging according to the voltage of the battery cell; A switching unit switched on / off by a control signal of the protection circuit control unit so as to apply a voltage of a battery cell to a mobile communication terminal; And a terminal connection terminal for supplying power to the mobile communication terminal according to the switching of the switching unit.

Next, the first resistor is provided on the battery side and the second resistor is provided on the mobile terminal side to form a voltage divider circuit. The divided voltage divided by the second resistor side of the voltage dividing circuit part is input to the Vadc terminal of the controller so that the controller recognizes the voltage value.

The control unit determines that an output voltage value V between the first voltage divider R1 and the second voltage divider R2 is equal to V = R2 * (output voltage Vout of the first terminal) / (R1 + R2) . When the deviation is determined to determine the battery as a fixture battery, characterized in that configured to turn off the power of the mobile communication terminal.
That is, the divided circuit part of the present invention configured as described above applies the divided voltage having a fixed value range with respect to the normal voltage by fixing the first resistor and the second resistor to the controller. Therefore, when the first resistor is not configured on the battery side, the divided voltage value is out of the range of the predetermined value. That is, when the genuine battery is configured to configure the first resistor and the second resistor is configured to the terminal, it may be determined that the first resistor is not configured when the divided voltage input to the controller is out of the predetermined range. If the first resistor is not configured, it may be determined as a non-genuine equipment battery. This means that in the case of a genuine product, the terminal battery can be detected by the terminal battery by defining the first resistor.

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

2 is a view showing a battery using a general chemical cell, Figure 3 is a view showing a detailed configuration of the terminal connection terminal portion of the battery, Figure 4 is a circuit diagram of a device battery detection apparatus according to an embodiment of the present invention It is a figure which shows.

As shown in Figures 2 and 3, a typical chemical cell is provided with a battery cell (BC), and has a terminal connection terminal 40 for supplying power of the battery cell (BC) to the mobile communication terminal. The above-mentioned terminal connection terminal 40 includes two reference voltage Vcc third terminal for providing a first terminal 41 and second terminal 42 and the ground voltage of the reference voltage applied to the (Vout, V ₂ +) ( V-) 43 is provided.

The present invention protects the battery by additionally configuring a voltage divider circuit 20 composed of the first resistor R1 and the second resistor R2 on the side of the second terminal 42 of the Vcc terminals providing the aforementioned reference voltage. By determining whether or not a circuit is built in, it is possible to prevent the use of equipment batteries.

The present invention described above will be described in more detail with reference to FIG. 4 as follows.

As shown in Fig. 4, the apparatus for detecting a battery of the present invention, as in the prior art, controls the charge / discharge of the battery protection circuit and has a protection circuit controller 10 having terminal connection terminals 41, 42, and 43. And a Vadc value after receiving the divided DC circuit 20 added to the second terminal 42 configured at the terminal connection terminals 41, 42, 43 and the divided DC voltage value output from the divided circuit unit contact. If it is out of the range of the predetermined value, the first resistor is determined to include a non-configured battery is configured to include a control unit 30 to cut off the power of the mobile communication terminal to block the use of the battery.

In the above configuration, the controller 30 determines whether the Vadc value of the voltage divider circuit always satisfies the value of Vadc = R2 * (output voltage Vout of the first terminal) / (R1 + R2) , and satisfies the value. If not, it will be recognized as a defective equipment battery that does not have a built-in protection circuit or is defective. For example, if R1 is 1K ohm and R2 is 1K ohm, Vadc is always 1/2 of Vout. Therefore, it is possible to determine the presence or absence of a protection circuit based on this value. When a value of Vadc other than this value is detected, it is determined that the first resistor is not configured, and it is determined that the use of the equipment battery is used. In use, the control unit 30 turns off the power of the mobile communication terminal to prevent the use of the equipment battery.

The present invention as described above, by identifying whether the battery attached to the mobile communication terminal, or whether or not the protection circuit is mounted to prevent the use of the equipment battery by blocking the use of equipment or defective battery to prevent in advance. It also provides the effect of fundamentally blocking the distribution of fixtures or defective batteries.

Claims (4)

A battery having a first terminal and a second terminal connected in parallel to the positive terminal (B +) of the battery cell to output two reference voltages, and a third terminal for the negative terminal (B-) reference voltage of the battery cell. A first resistor (R1) connected in series with the second terminal at the front end of the second terminal; A second resistor R2 connected in parallel to one end of the power input terminal of the mobile communication terminal connected to the second terminal to apply a divided voltage Vadc to the controller of the mobile communication terminal; A control unit for outputting a warning signal for informing the supply battery by determining the battery as a supply battery when the divided voltage Vadc by the first resistor R1 and the second resistor R2 is out of a predetermined value range; Equipment for detecting equipment of the mobile communication terminal, characterized in that comprising a . delete delete The method of claim 1, wherein the control unit, The mobile communication when the divided voltage value output by the first resistor R1 and the second resistor R2 is out of V = R2 * (output voltage Vout of the first terminal) / (R1 + R2). Apparatus for detecting battery of the mobile communication terminal, characterized in that configured to turn off the power of the terminal.

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