KR100619902B1 - Circuit and method for compensating voltage drop in mobile communication terminal - Google Patents

Abstract

According to the present invention, when the voltage of the battery is a low voltage level close to the cutoff voltage at which the terminal is turned off, the voltage of the mobile communication terminal can be prevented from being forcibly turned off due to the temporary voltage drop when the function of the temporary increase in current consumption occurs. A drop compensation circuit and a method thereof, comprising: an analog-to-digital converter (ADC) for converting a battery voltage into a digital value, the voltage drop compensation method of a mobile communication terminal detecting the battery voltage using the digital value, the method comprising: Setting a preset offset value in the analog-to-digital converter when the function of the terminal selected by the terminal is a preset function; Detecting the battery voltage at which the offset value is set, comparing the detected voltage with a preset cutoff voltage for turning off the terminal, and repeating the use of the preset function when the detected voltage is greater than the cutoff voltage. Wow; Comprising the step of releasing the offset value set in the analog-to-digital converter when the use of the preset function is terminated, it is possible to compensate for the temporary voltage drop due to the use of a function that consumes a lot of current at the low voltage level of the battery, Due to this there is an effect that can prevent the abnormal off of the terminal.

Description

Voltage drop compensation circuit of mobile communication terminal and its method {CIRCUIT AND METHOD FOR COMPENSATING VOLTAGE DROP IN MOBILE COMMUNICATION TERMINAL}

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing an embodiment of a voltage drop compensating circuit of a mobile communication terminal of the present invention.

2 is a flow chart of an embodiment of a voltage drop compensation method of the present invention.

Figure 3 is a flow chart of another embodiment of the voltage drop compensation method of the present invention mobile communication terminal.

** Description of the symbols for the main parts of the drawings **

10: Battery 20: Analog-to-digital converter (ADC)

30: central processing unit (CPU)

The present invention relates to a voltage drop compensating circuit of a mobile communication terminal and a method thereof, and more particularly, when the voltage of the battery is at a low voltage level close to the cutoff voltage at which the terminal is turned off. A voltage drop compensating circuit of a mobile communication terminal capable of preventing a terminal from being forcibly turned off and a method thereof.

The conventional mobile communication terminal sets a cut-off voltage for turning off the terminal in consideration of the discharge blocking voltage of the battery cell. Such a conventional mobile communication terminal is configured to recognize a digital value of a battery voltage output from an analog-to-digital converter (ADC) by a central processing unit (CPU) to perform a function such as power off regardless of an operation mode. For example, when the terminal voltage drops to the cutoff voltage due to the use of a function such as a standby state or a call state, the CPU recognizes that the battery voltage is the cutoff voltage and displays a predetermined message for turning off the terminal on the display window. Turn off the power supply of the terminal.

However, the conventional mobile communication terminal consumes a large amount of current when the battery voltage is near the cutoff voltage at which the terminal is turned off. For example, if a mobile terminal uses a function such as a call in a shaded area or uses a melody bell, the current consumption is temporary. The voltage drop occurs due to the increase in power. When the battery voltage recognized by the CPU falls below the cut-off voltage due to the voltage drop, the terminal power is cut off in a state in which the normal power-off process is not performed.

As described above, when the conventional mobile communication terminal uses a large amount of temporary current consumption near the cutoff voltage at which the terminal is turned off, the battery voltage drops below the cutoff voltage due to the temporary voltage drop of the battery. Due to the terminal has a problem that the power of the terminal is cut off in a state that does not go through the normal power off process.

Therefore, in view of the above problem, the present invention provides a predetermined offset value to the ADC for outputting a digital value for the voltage of the battery only when the function of the preset terminal is used or when the output current of the battery is greater than or equal to the preset reference current. By increasing the battery voltage perceived by the CPU by the offset value, it is possible to compensate for the temporary voltage drop caused by the use of a function that consumes a lot of current at the low voltage level of the battery, thereby moving to prevent abnormal off of the terminal. It is an object of the present invention to provide a voltage drop compensating circuit of a communication terminal and a method thereof.

In order to achieve the above object, a voltage drop compensating circuit of a mobile communication terminal includes an analog-to-digital converter (ADC) for converting and outputting a voltage and a current of a battery into digital values; Recognizes the voltage and current of the battery by receiving the digital value output from the analog-to-digital converter, and when the preset terminal function is used or the current of the battery is greater than or equal to the preset reference current, the preset offset value is input to the analog-to-digital converter. It characterized by including the central processing unit (CPU) to output.

The voltage drop compensation method of the mobile communication terminal of the present invention for achieving the above object comprises an analog-to-digital converter (ADC) for converting the battery voltage into a digital value, the mobile communication terminal of detecting the battery voltage with the digital value A voltage drop compensation method comprising: setting a preset offset value in the analog-to-digital converter when a function of a terminal selected by a user is a preset function; Detecting the battery voltage at which the offset value is set, comparing the detected voltage with a preset cutoff voltage for turning off the terminal, and repeating the use of the preset function when the detected voltage is greater than the cutoff voltage. Wow; And when the use of the preset function is terminated, releasing the offset value set in the analog-to-digital converter.

The voltage drop compensation method of the mobile communication terminal of the present invention for achieving the above object comprises an analog-to-digital converter (ADC) for converting the battery voltage into a digital value, the mobile communication terminal of detecting the battery voltage with the digital value A voltage drop compensation method comprising: detecting a battery current when using a terminal function and comparing the detected current with a preset reference current; Setting a preset offset value in the analog-to-digital converter when the sensed current is greater than the reference current as a result of the comparison; Sensing the battery voltage at which the offset value is set, comparing the detected voltage with a preset cutoff voltage for turning off the terminal, and repeating the execution of the function if the detected voltage is greater than the cutoff voltage; Comprising the step of releasing the offset value set in the analog-to-digital converter when the function being performed is terminated.

With reference to the accompanying drawings, a preferred embodiment of the voltage drop compensation circuit and method of the present invention having the above characteristics will be described in detail.

1 illustrates a configuration of a voltage drop compensating circuit of a mobile communication terminal of the present invention. As shown, an analog-to-digital converter (ADC) 20 converts the voltage and current of the battery 10 into digital values and outputs the digital values of the voltage and current of the battery 10 output from the ADC 20. Recognizes the voltage and current of the battery 10 by receiving a value, and when the function of a preset terminal with a large amount of temporary current consumption is used or when the current of the battery 10 is greater than or equal to a predetermined reference current, the ADC 20 And a central processing unit (CPU) 30 for outputting a set offset value.

When the ADC 20 outputs the offset value from the CPU 30, the ADC 20 adds the offset value to the digital value obtained by converting the battery 10 voltage and current. That is, the battery 10 voltage and current received and recognized by the CPU 30 are perceived higher by an offset value than the actual battery voltage and current. In addition, the offset value and the reference current are determined by the terminal manufacturer or the mobile communication provider, and the value may vary depending on the situation.

2 is a flowchart illustrating an embodiment of a voltage drop compensation method of a mobile communication terminal of the present invention. As shown, when the function used in the terminal is a predetermined function with a large amount of temporary consumption current, setting an offset value in the ADC 20 for converting the battery voltage into a digital value, and detecting the battery voltage at which the offset value is set. And comparing the detected voltage with a preset cutoff voltage and repeating the use of the preset function until the use of the preset function is ended if the detected voltage is greater than the cutoff voltage. Releasing the offset value set in the step S), and detecting and comparing the battery voltage with the cutoff voltage.

The preset function of the terminal for setting the offset value in the ADC 20 is a function that the terminal may be abnormally turned off due to a temporary voltage drop when the battery is at a low voltage level near the cutoff due to a large amount of temporary power consumption. It can be a MIDI function using multimedia.

Then, the operation of the present invention will be described.

The CPU 30 provided in the terminal receives a digital value for the battery 10 voltage output from the ADC 20 and periodically checks the battery voltage. This is performed in a predetermined time unit regardless of the terminal mode.

For example, the terminal detects the battery 10 voltage from the CPU 30 through the digital value of the battery 10 output from the ADC 20 in the standby mode, and compares the detected voltage with the cutoff voltage. If the sense voltage is less than the cutoff voltage, the terminal is turned off through a normal process. That is, after outputting a predetermined message or voice for powering off the terminal to the user, a normal process of turning off the power of the terminal is performed.

On the other hand, if the detection voltage is higher than the cutoff voltage and the function of the terminal is used by the user, it is determined whether the used function is a preset function with a large amount of temporary power consumption, and the CPU 30 uses the ADC (if the preset function is used). 20) Set a preset offset value.

The CPU 30 detects the battery voltage by receiving a digital value for the battery 10 voltage output from the ADC 20 in which the offset value is set, and compares the detected voltage with the cutoff voltage. As a result of the comparison, when the sense voltage is less than the cutoff voltage, the terminal power is turned off. Otherwise, the terminal is powered off until the selected function is terminated. Here, since the digital value for the battery voltage output from the ADC 20 becomes the digital value for the "actual battery voltage + offset value", the voltage of the battery 10 detected by the CPU 30 is less than the actual battery voltage. Has a higher voltage. Therefore, even if a temporary voltage drop occurs in the battery 10 due to the use of a predetermined function with a large amount of temporary current consumption while the actual battery voltage is at a low voltage level near the cut-off voltage, the CPU 30 maintains the voltage of the battery 10. As it recognizes as high as the offset value, it can prevent the abnormal turning off of the terminal by the temporary voltage drop.

When the use of the preset function is finished, the offset value set by the CPU 30 in the ADC 20 is released, and the actual battery 10 voltage without the offset value is detected and compared with the cutoff voltage. As described above, the present invention increases the battery voltage detected by the offset value setting of the ADC 20 even more than a predetermined level even when a predetermined function of the temporary current consumption is high at the low voltage level of the battery. Off can be prevented. Therefore, the terminal can be turned off normally by using any function of the terminal at the low voltage level of the battery.

3 is a flowchart illustrating another method for compensating a voltage drop of a mobile communication terminal according to the present invention. As shown in FIG. 3, the current of the battery 10 is sensed when the function of the terminal is used, and the detected current and Comparing the preset reference current which may affect abnormal off of the terminal at the battery low voltage level; and as a result of the comparison, when the sense current is greater than the reference current, the ADC 20 converts the battery voltage into a digital value. Setting an offset value, sensing a battery voltage, comparing the detected voltage with a cutoff voltage, and repeating the execution of the function if the detected voltage is greater than the cutoff voltage; When this is finished, the step of releasing the offset value set in the ADC 20, and detecting and comparing the battery 10 voltage with the cutoff voltage Eojinda.

That is, when the terminal function is used by the user, the CPU 30 receives the digital value for the battery current output from the ADC 20 to detect the battery 10 current, and the detected current is greater than or equal to the reference current. The CPU 30 sets a preset offset value in the ADC 20.

When the offset value is set in the ADC 20, the battery voltage detected by the CPU 30 is a digital value for the battery voltage output from the ADC 20 is a digital value for "actual battery voltage + offset value". 2 is higher than the actual battery voltage, and thus, even when a temporary voltage drop occurs due to the use of a function of the terminal in which the actual battery voltage is consumed more than a predetermined reference current in a low voltage level near the cutoff voltage, as described in FIG. It is possible to prevent abnormally turning off the terminal due to a temporary voltage drop.

When the function being used is finished, the offset value set by the CPU 30 in the ADC 20 is released, and the actual battery 10 voltage is sensed and compared with the cutoff voltage. Through this process, an abnormal off of the terminal can be prevented and a normal off process can be performed.

As described above, the present invention sets a predetermined offset value in the ADC when the preset function is used or the detected battery current is higher than the reference current which may affect abnormal off of the terminal. By higher, it is possible to prevent the abnormal off of the terminal due to a temporary voltage drop at the low voltage level of the battery.

As described in detail above, the present invention applies a predetermined offset value to an ADC that outputs a digital value for the voltage of the battery only when the function of the preset terminal is used or when the output current of the battery is greater than or equal to the preset reference current. By increasing the battery voltage recognized by the CPU by the offset value, it is possible to compensate for the temporary voltage drop caused by the use of a function that consumes a lot of current at the low voltage level of the battery, thereby preventing the abnormal off of the terminal have.

Claims (4)

An analog-to-digital converter (ADC) for converting the voltage and current of the battery into digital values and outputting the digital values; Recognizes the voltage and current of the battery by receiving the digital value output from the analog-to-digital converter, and when the preset terminal function is used or the current of the battery is greater than or equal to the preset reference current, the preset offset value is input to the analog-to-digital converter. A voltage drop compensating circuit for a mobile communication terminal, comprising a central processing unit (CPU) for outputting. A voltage drop compensation method of a mobile communication terminal having an analog to digital converter (ADC) for converting a battery voltage into a digital value, and detecting the battery voltage using the digital value. Setting a preset offset value in the analog-to-digital converter when the function of the terminal selected by the user is a preset function; Detecting the battery voltage at which the offset value is set, comparing the detected voltage with a preset cutoff voltage for turning off the terminal, and repeating the use of the preset function when the detected voltage is greater than the cutoff voltage. Wow; Comprising the step of releasing the offset value set in the analog-to-digital converter when the use of the preset function is terminated. The method of claim 2, wherein the preset function is a call function or a MIDI function. A voltage drop compensation method of a mobile communication terminal having an analog to digital converter (ADC) for converting a battery voltage into a digital value, and detecting the battery voltage using the digital value. Detecting a battery current when using the terminal function and comparing the detected current with a preset reference current; Setting a preset offset value in the analog-to-digital converter when the sensed current is greater than the reference current as a result of the comparison; Sensing the battery voltage at which the offset value is set, comparing the detected voltage with a preset cutoff voltage for turning off the terminal, and repeating the execution of the function if the detected voltage is greater than the cutoff voltage; And releasing the offset value set in the analog-to-digital converter when the function being performed is terminated.

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