KR100697069B1 - Battery Protecting Apparatus and method for automatic Power cutoff of Mobile Communication Terminal - Google Patents

Abstract

The present invention relates to a battery protection device and an automatic power off method for detecting a battery installation and temperature through a single battery detection signal and automatically shutting off the power supply according to the present invention. And a battery monitoring unit for detecting a temperature of the battery and a control unit for shutting off the operation power supplied from the battery when the battery is above a predetermined temperature according to a monitoring signal transmitted from the battery monitoring unit. The battery protection circuit can be easily designed and the stability can be greatly improved.

Battery, connection terminal, monitoring, protection circuit, mobile communication terminal

Description

 Battery protection device and automatic power off method of mobile communication terminal {Battery Protecting Apparatus and method for automatic Power cutoff of Mobile Communication Terminal}             

1 is a view showing a configuration of a general battery connection terminal,

2 is a block diagram showing the configuration of a battery protection device according to the prior art;

3 is a circuit diagram showing a battery protection circuit according to the prior art,

4 is a block diagram schematically showing the configuration of a battery protection device according to the present invention;

5 is a circuit diagram showing a battery protection circuit according to the present invention;

6 is a flowchart illustrating an automatic power off method according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: battery connection terminal 20: battery monitoring unit

30: control unit

The present invention relates to a battery protection device and an automatic power off method of a mobile communication terminal, in particular to detect the battery installation and temperature through one battery detection signal and to automatically cut off the power supply when the battery is above a certain temperature It relates to a battery protection device and an automatic power off method.

Currently, lithium-ion batteries or lithium polymer batteries are widely used in mobile communication terminals because of their advantages in performance and small screen.

Such lithium ion and lithium polymer batteries cannot perform the functions of the battery during overdischarge due to their chemical characteristics, and there is a risk of expansion, explosion, and fire of the battery due to overcurrent due to overdischarge or short. All electronic products are connected with a protection circuit to prevent safety accidents caused by overcharge, over discharge and over current.

1 is a diagram illustrating a configuration of a general battery connection terminal.

In general, a battery connection terminal for supplying operating power of a mobile communication terminal is a receptacle connector composed of a total of 28 pins, and is used as a path through which data can be input / output through an external cable as well as a battery supply.

The receptacle connector pins 1 to 24 are connected to the signal set as standard by the information communication unit, pins 25 and 26 are connected to the negative terminal of the battery, pins 27 and 28 are positive (+) of the battery. Terminal), pin 27 outputs the operating power supply VBATT of the mobile communication terminal supplied from the battery, and pin 28 outputs a detection signal VBATT1 indicating that the battery is mounted.

2 is a block diagram showing a configuration of a battery protection device according to the prior art, Figure 3 is a circuit diagram showing a battery protection circuit according to the prior art, respectively.

The battery protection device according to the related art is a battery connection terminal 1 for supplying the operating power from the battery, and controls the overall operation of the terminal and the operating power of the terminal supplied from the battery according to the temperature of the battery It is configured to include a control unit 4 to be blocked.

In addition, the battery connection unit (1) connected to the battery connection terminal (1) detects the mounting of the battery, and connected to the battery to detect the temperature of the battery and the corresponding detection signal according to the control unit (4) It is configured to include a battery temperature detector (3) for transmitting to.

The battery detector 2 includes at least one resistor. When the battery is connected to the pin 28 and the battery is mounted and a battery voltage is applied thereto, the battery detector 2 sends a logic high signal to the controller 4. To pass.

The battery temperature detection unit 3 is attached to a thermistor (R _TH) is the resistance value variable according to the temperature around the battery, the control unit in accordance with the change of the resistance value of the thermistor (R _TH) according to the temperature of the battery The voltage applied to (4) is varied, and the temperature of the battery is detected according to the variation of the voltage applied to the controller (4).

However, the battery protection device configured as described above must configure a separate circuit block to detect the presence or absence of the battery and the temperature, and the control unit 4 is mounted to receive a detection signal from each circuit block. The GPIO and ADC for sensing should be used.

In addition, in order to perform a function to cut off the power supply when the battery reaches a predetermined temperature or more according to a signal transmitted from the battery temperature detector 3, the controller 4 or a separate battery in the battery A power interrupt circuit should be provided.

Therefore, in manufacturing the mobile communication terminal, it is difficult to design individual circuit blocks constituting the battery protection device, and the control unit 4 has various functions because it must allocate a plurality of connection terminals for the battery protection device. There is a difficulty in implementing a mobile communication terminal.

In particular, when the connection of a plurality of connection lines connecting each circuit block is poor, or any one of the circuit blocks malfunctions, the battery protection device will not operate normally.

The present invention has been made to solve the above problems of the prior art, and determines whether the battery is installed or not through a single detection signal, the mobile communication terminal supplied from the battery when the temperature of the battery is above a certain temperature It is an object of the present invention to provide a battery protection device and an automatic power off method of a mobile communication terminal to automatically cut off the operation power.

The battery protection device of the mobile communication terminal according to the present invention for solving the above problems is a battery monitoring outputs any one of the monitoring signal of high (high) and low (low) according to the presence of the battery and the temperature of the battery And a controller to block the operation power supplied from the battery when the low signal is applied according to the monitoring signal.
Here, the monitoring signal is high when the battery is mounted or its temperature is lower than the limit temperature, and low when the temperature of the battery is detected to be above the limit.

In addition, the automatic power off method of the mobile communication terminal according to the present invention generates a battery monitoring signal consisting of one signal when the first step of mounting the battery, and when the mounting of the battery is detected as a high (high) When the temperature of the battery is higher than a predetermined temperature while the power is supplied from the battery, the second step is generated to be low and transmitted to the controller, and the power supply is cut off according to the received battery monitoring signal. And a third step of stopping the operation of the terminal.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. 4 is a block diagram schematically showing the configuration of a battery protection device according to the present invention, Figure 5 is a circuit diagram showing a battery protection circuit according to the present invention.

The battery protection device of the mobile communication terminal according to the present invention is connected to the battery connection terminal 10 for supplying the operating power for operating the terminal from the battery when the battery is connected, the battery connection terminal 10 is connected to the Battery monitoring unit 20 for detecting the presence and temperature of the installation, and generates a control signal for controlling the overall operation of the terminal and supplies the operating power supply of the battery according to the detection signal transmitted from the battery monitoring unit 20 It is configured to include a control unit 30 for blocking.

In this case, the battery monitoring unit 20 is configured to include a thermistor R _T mounted near the battery and having a variable resistance value according to the temperature of the battery, and monitoring by the resistance value of the thermistor R _T. Outputs the signal VBATT_MON.

That is, the thermistor R _T is a negative temperature coefficient (NTC) component, and a resistance value decreases according to temperature, so that the voltage of the monitoring signal VBATT_MON output from the battery monitoring unit 20 decreases with temperature.

Therefore, when the battery is mounted or the temperature is below the limit temperature, the battery monitoring unit 20 transmits a high signal through the ADC input terminal of the controller 30 to recognize the battery installation or the temperature is in a normal range. Judging from the inside

In addition, when the temperature of the battery is greater than or equal to the limit temperature, the resistance value of the thermistor R _T decreases, and accordingly, the output voltage of the monitoring signal VBATT_MON output from the battery monitoring unit 20 decreases. A low signal is transmitted to the controller 30 through the ADC input terminal.

In this case, the controller 30 includes a first transistor FET2 having a source connected to a power supply terminal VBATT of the battery, a drain connected to a power supply terminal VPWR of the terminal, and a gate of the battery monitoring unit. And a second transistor FET1 connected to the gate of the first transistor.

In addition, the first transistor (FET2) of the control unit 30 according to the present invention is a P-channel MOSFET, the second transistor (FET1) is preferably composed of an N-channel MOSFET, but this is changed by the producer It is possible.

When the high monitoring signal is applied from the battery monitoring unit 20, the control unit 30 configured as described above operates the first and second transistors FET2 and FET1 to power the battery. It is supplied to the terminal via the power supply terminal VPWR of the terminal.

In addition, when a low monitoring signal is applied to the controller 30, the second transistor FET1 is cut off, and the voltage of the battery is connected to the resistor Rf connected in parallel with the first transistor FET2. As applied, the first transistor FET2 is cut off so that the battery power is not supplied to the terminal.

Looking at the automatic power off method of the present invention configured as described above are as follows. 6 is a flowchart illustrating an automatic power off method according to the present invention.

First, a battery is mounted in the mobile communication terminal (S1).

When the battery is mounted, a battery monitoring signal applied to the controller of the terminal is generated high, and thus operating power of the terminal is supplied from the battery (S2).

When the temperature of the battery reaches a predetermined temperature or more while operating power is supplied, the battery monitoring signal is generated as a low signal and is transmitted to the controller. Otherwise, a high signal is transmitted. (S3, S4)

When a low signal is applied to the controller, the controller cuts off the operation power supply from the battery through a series of circuits and prevents the mobile communication terminal from continuously operating.

As described above, the battery protection circuit and the automatic power off method of the mobile communication terminal according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, The technical idea of the present invention to detect whether the battery is installed and the battery temperature through the battery monitoring signal input to the ADC terminal and automatically cut off the battery power supply can be easily applied by those skilled in the art within the protected range. .

The battery protection circuit and the automatic power off method of the mobile communication terminal according to the present invention configured as described above are configured to include a battery monitoring unit for detecting the presence or absence of the battery temperature and automatically supply the battery power when a certain temperature is reached. By shutting off, the battery protection circuit can be easily designed and stability can be greatly improved.

Claims (6)

A battery monitoring unit configured to output one of a high and low monitoring signals according to whether a battery is installed and the temperature of the battery; And a controller which blocks the operation power supplied from the battery when the low signal is applied according to the monitoring signal. The monitoring signal is high when the battery is mounted or its temperature is below the limit temperature, and when the temperature of the battery is detected to be above the limit, the battery protection device of the mobile communication terminal, characterized in that the low (low) state . delete The method of claim 1, The battery monitoring unit includes a negative thermistor (negative thermistor) whose resistance value decreases as the temperature of the battery increases. The method of claim 1, The control unit includes a first transistor having a source connected to a power supply terminal of the battery and a drain connected to a power supply terminal of the mobile communication terminal; And a second transistor having a gate connected to the battery monitoring unit and a drain connected to a gate of the first transistor. The method of claim 4, wherein Wherein the first transistor is a P-channel MOSFET, and the second transistor is an N-channel MOSFET. A first step of mounting a battery; The battery monitoring signal is generated high when the mounting of the battery is detected, and the battery monitoring signal is a low signal when the temperature of the battery becomes higher than a predetermined temperature while power is supplied from the mounted battery. A second step generated and delivered to the controller; And a third step of interrupting power supply from the battery according to the received battery monitoring signal to stop the operation of the terminal.

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