KR20030013574A - Apparatus and method for controlling power level of transmission signal in mobile communication terminal equipment - Google Patents

Abstract

PURPOSE: An apparatus for controlling a transmission signal power level in a mobile communication terminal and a method therefor are provided to control a power level of a transmission signal from the mobile communication terminal to a base station. CONSTITUTION: A signal generator(10) corresponds to a certain output power control voltage, adjusts a transmission signal power level, and generates a transmission signal. An amplifier(20) amplifies the generated transmission signal. A detector(30) detects the transmission signal power level output from the amplifier(20). A memory(60) stores reference values corresponding to transmission signal power levels used in a mobile communication terminal. A CPU(80) has an ADC(Analog to Digital Converter)(70) for converting the transmission signal power level detected in the detector(30) into a digital power level value, and compares a reference value corresponding to a transmission signal power level to be currently transmitted with the converted digital power level value. If the reference value is not identical to the converted digital power level value, the CPU(80) increases or decreases an output power control voltage according to the difference of the reference value and the converted digital power level value.

Description

Transmission signal power level control device of mobile communication terminal and method thereof {APPARATUS AND METHOD FOR CONTROLLING POWER LEVEL OF TRANSMISSION SIGNAL IN MOBILE COMMUNICATION TERMINAL EQUIPMENT}

The present invention relates to a mobile communication terminal, and more particularly, to an apparatus and method for controlling a power level of a transmission signal transmitted from a mobile communication terminal to a base station.

In general, the mobile communication terminal varies in transmission and reception distance with the base station according to the movement of the user. Accordingly, the strength of a signal transmitted and received varies according to a change in distance from the base station. That is, when the mobile communication terminal is located far from the base station, the strength of the signal received from the base station is weakened, and the strength of the signal transmitted by the mobile communication terminal is increased. On the contrary, when the mobile communication terminal is located at a short distance from the base station, the strength of the signal received from the base station is increased, and the strength of the signal transmitted by the mobile communication terminal is weakened. In order to adjust the strength of the signal as described above, the mobile communication terminal variably controls the transmission signal power level transmitted from the mobile communication terminal to the base station corresponding to the strength of the signal received from the base station. An apparatus for controlling the transmit signal power level of such a mobile communication terminal is shown in FIG. 1 is a block diagram showing a conventional transmission signal power level control device.

As shown in FIG. 1, the apparatus for controlling a transmission signal power level of a conventional mobile communication terminal includes a signal generator 10, an amplifier 20, a detector 30, a comparator 40, and a control process unit (CPU) 50. Consists of First, the signal generator 10 generates a transmission signal to be transmitted to a base station by adjusting a transmission signal power level corresponding to a predetermined output power control voltage. The amplifier 20 amplifies the transmission signal generated by the signal generator 10. Detector 30 then detects the amplified transmit signal power level. The CPU 50 determines the power level of the transmission signal to be transmitted to the base station according to the strength of the signal received at the base station and outputs it to the comparator 40. The comparator 40 compares the transmission signal power level detected by the detector 30 with the transmission signal power level determined by the CPU 50, and then, if the two power levels are different, the output power control voltage is corresponding to the difference. Increment and transmit it to the signal generator 10. That is, the comparator 40 reduces the output power control voltage when the transmission signal power level detected by the detector 30 is higher than the transmission signal power level determined by the CPU 50, and conversely, the transmission signal power level detected by the detector 30. If it is lower than the transmission signal power level determined by the CPU 50, the output power control voltage is increased.

On the other hand, the comparator comparing the transmission signal power level detected by the detector with the transmission signal power level determined by the CPU as described above is a field effect transistor (FET), a bipolar transistor (BJT) and an operational amplifier (OPerational AMPlifier). : OP-AMP) and the like.

However, if the transmit signal power level can be controlled without using a comparator including the above elements, the transmit signal power level control device will be simpler in structure. In addition, due to the addition of various functions of the mobile terminal will increase the production cost of the mobile terminal.

Accordingly, an object of the present invention is to provide an apparatus and method for controlling a transmission signal power level simply without using a comparator of a power level control device in a mobile communication terminal.

1 is a block diagram of a conventional transmission signal power level control device;

2 is a block diagram of a transmission signal power level control apparatus according to an embodiment of the present invention;

3 is a flowchart illustrating a transmission signal power level control according to an embodiment of the present invention.

An apparatus of the present invention for achieving the above object is a device for controlling the power level of a transmission signal to be transmitted to a base station in a mobile communication terminal for transmitting and receiving voice and data, the transmission signal power level corresponding to a predetermined output power control voltage A signal generator for generating a transmission signal by adjusting a signal, an amplifier for amplifying the generated transmission signal, a detector for detecting the transmission signal power level output from the amplifier, and a stepwise transmission used in the mobile communication terminal. And a memory for storing reference values corresponding to signal power levels, and an analog / digital converter for converting the transmission signal power level detected by the detector into a digital power level value, wherein the transmission signal to be currently output among the reference values. A reference value corresponding to a power level and the converted digital And a control unit for comparing the power level values and increasing or decreasing the output power control voltage in response to the difference.

The present invention also provides a method of controlling a transmission signal power level in a mobile communication terminal having reference values corresponding to the stepwise transmission signal power levels used in the mobile communication terminal. Converting a transmission signal power level into a digital power level value, comparing a digital power level value with a reference value corresponding to a transmission signal power level to be currently output among the reference values, and comparing the two values If it does not match, it characterized in that it comprises a step of increasing or decreasing the output power control voltage corresponding to the difference.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

2 is a block diagram illustrating an apparatus for controlling a transmission signal power level according to an exemplary embodiment of the present invention. Referring to FIG. 2, the apparatus for controlling a transmission signal power level includes a signal generator 10, an amplifier 20, a detector 30, a memory 60, and a CPU 80. The CPU 80 used as the control unit determines the power level of the transmission signal to be transmitted according to the strength of the signal received from the base station. The output power control voltage is changed to be the determined transmission signal power level. Accordingly, the signal generator 10 generates a transmission signal to be transmitted to the base station by adjusting the transmission signal power level corresponding to the output power control voltage. The amplifier 20 amplifies the transmission signal generated by the signal generator 10. Detector 30 then detects the amplified transmit signal power level. The memory 60 stores reference values corresponding to the transmission signal power levels used in the mobile communication terminal. Typically, the Advanced Mobile Phone System (AMPS) method stores eight transmission signal power levels ranging from zero to seven levels, and the memory 60 digitizes reference values corresponding to the eight transmission signal power levels. Save it. The CPU 80 uses a CPU provided with an analog to digital converter (ADC) 70. The ADC 70 included in the CPU 80 converts the transmission signal power level detected from the detector 30 into a digital power level value. The CPU 80 compares the digital power level value with a reference value corresponding to a transmission signal power level to be currently output among the reference values, and increases or decreases the output power control voltage corresponding to the difference if the two values do not match. .

Hereinafter, a process of controlling the transmission signal power level will be described in detail with reference to FIG. 3. First, the ADC 70 converts the transmission signal power level detected from the detector 30 in step 100 into a digital power level value. In operation 110, the CPU 80 compares the reference value corresponding to the transmission signal power level to be outputted among the reference values previously stored in the memory 60 with the converted digital power level value. For example, if it is assumed that the reference value corresponding to five of the eight levels of the transmission signal power levels of the AMPS scheme is "0101" and the power level value of the converted digital is "0010", the CPU 80 ) Increases the output power control voltage corresponding to the difference between the two values, that is, "0011" in step 120, and transmits the same to the signal generator 10. Accordingly, the signal generator 10 generates a transmission signal to be transmitted to the base station by adjusting the transmission signal power level corresponding to the output power control voltage. In operation 130, the CPU 80 determines whether the power of the mobile communication terminal is turned off, and repeats the above process if it is not turned off. The reference value and the digital power level value may be arbitrarily set, and the transmission signal power levels of eight levels from 0 to 7 may be controlled in the same manner as the above example.

As described above, the present invention has the effect that the power level control device can be more simply implemented without using a comparator in the transmission signal power level control device, and the cost of producing a mobile communication terminal can be reduced. .

Claims (2)

An apparatus for controlling the power level of a transmission signal to be transmitted to a base station in a mobile communication terminal for transmitting and receiving voice and data, A signal generator for generating the transmission signal by adjusting the transmission signal power level to correspond to a predetermined output power control voltage; An amplifier for amplifying the generated transmission signal; A detector for detecting the transmit signal power level output from the amplifier; A memory for storing reference values corresponding to the stepped transmission signal power levels used in the mobile communication terminal; An analog / digital converter for converting the transmission signal power level detected by the detector into a digital power level value, the reference value corresponding to the transmission signal power level to be currently output among the reference values and the power level of the converted digital; And a control unit which compares the values and increases or decreases the output power control voltage corresponding to the difference if they do not match. A method of controlling a transmission signal power level in a mobile communication terminal having reference values corresponding to the stepwise transmission signal power levels used in the mobile communication terminal, Converting the transmission signal power level into a digital power level value; Comparing a digital power level value with a reference value corresponding to a transmission signal power level to be currently output among the reference values; And if the two comparison values do not match, increasing and decreasing an output power control voltage corresponding to the difference.