KR20000045266A - Transmission/receiving signal level compensation method of mobile terminal - Google Patents

Abstract

PURPOSE: A transmission/receiving signal level compensation method is provided to maximize the performance of a mobile terminal by compensating a gain variated at each channel with an automatic gain adjuster. CONSTITUTION: A transmission/receiving signal level compensation method comprises receiving steps of converting a waiting state into a receiving state(S210,S220), recognizing a current state(S230), a microprocessor measuring a receiving strength on a receiving frequency signal(S240), comparing the measured data with a data lead from a EEPROM(S250), determining if the receiving strength is appropriate(S260), maintaining a current receiving strength(S270). The transmission steps comprises converting a receiving state into a transmission state(S310,S320), determining if a call connection exists(S330), maintaining a receiving strength(S340), re-compensating the receiving strength(S341) and measuring a transmission strength with respect to a current receiving strength(S350).

Description

Transmission / reception signal level compensation method of mobile communication terminal

The present invention relates to a mobile communication terminal, and more particularly, to a level compensation method for compensating for a transmission / reception signal level using a transmission / reception automatic gain adjuster in a mobile communication terminal.

1 is a block diagram illustrating a conventional transmission / reception signal level compensation device.

Referring to the reception level compensation operation of the conventional CDMA mobile communication terminal, the RF signal is received from the antenna ANT and converted to the reception output through the duplexer 110, and the RF signal is banded with the low noise amplifier 121. After the noise is removed through the pass filter 123, the filter is filtered by the IF signal and applied to the mixer 122. The IF signal applied to the mixer 122 is mixed and down-converted by the oscillation frequency of the local oscillator 136 and the reception level is adjusted via the receiving AGC 125. At this time, if a pulse density modulation (PDM) signal provided by the microprocessor 15 is filtered with a DC voltage through the filter 126 and provided as a reference voltage of the receiving AGC 125, the reception level is level according to the reference voltage. The baseband signal processor 140 is adjusted to process the baseband in the baseband signal processor 140, and then converted into a digital signal and restored by the microprocessor 150. In this case, the PDM signal is determined by the data stored in the E ² PROM 160, and the PDM signal level also changes according to the change of the reception level.

Next, the transmission level compensation operation of the conventional CDMA mobile communication terminal will be described. In contrast to the reception level compensation operation, the data to be transmitted is restored by the microprocessor 150 and transmitted to the baseband processor 140. The transmission data transmitted to the baseband processor 140 is converted into an analog signal (IF signal) and then output to the transmission AGC 128. In this case, as in the case of the receiving AGC 126, the transmitting AGC 128 receives a pulse density modulation (PDM) signal provided by the microprocessor 15 through a filter 127 and is filtered with a DC voltage to transmit AGC 128. Is provided as the reference voltage. Subsequently, the IF signal compensated to the transmission level through the transmission AGC 128 is converted into an RF signal in the mixer 131 and mixed up by the oscillation frequency provided by the local oscillator 136. It should be appreciated that the strength of the output level of the transmitter is determined in proportion to the strength of the reception level of the receiver.

In addition, the up-converted RF signal is noise canceled through the bandpass filter 135 and then band amplified by the plurality of amplifiers 130. The band amplified RF signal is transmitted to the antenna ANT through the duplexer 110 and radiated in space.

The conventional transmitter / receiver level compensator operating as described above cannot compensate the gain differently for each channel because the receiver and the transmitter cannot compensate for each channel for the transmit / receive frequency.

In addition, when the reception unit does not compensate the reception level, the transmission output strength is determined in proportion to the reception strength, thereby degrading the performance of the mobile communication terminal.

Accordingly, the present invention has been made to solve the above-mentioned disadvantages of the conventional transmitter / receiver level compensator, and an object of the present invention is to maximize the performance of a terminal by compensating for gains that differ from channel to channel using an automatic gain adjuster. The present invention relates to a transmission / reception signal level compensation method of a mobile communication terminal.

1 is a block diagram showing a conventional transmission and reception signal level compensation device

2A is a flowchart illustrating a signal level compensation method of a receiver according to the present invention.

2b is a flowchart illustrating a signal level compensation method of a transmitter according to the present invention;

Explanation of symbols for the main parts of the drawings

110: duplexer 120: receive amplification and mixer

121: low noise amplifier 122, 131: mixer

123, 124, 135: bandpass filter 125: receiving AGC

126, 127: filter 128: transmission AGC

130: transmit amplification and mixer 132-133: transmit amplifier

140: baseband signal processing unit 150: microprocessor

160: E ² PROM 170: other memory unit

In accordance with an aspect of the present invention, a method for compensating for a transmit / receive signal level of a mobile communication terminal includes recognizing a current channel through a microprocessor after switching from a standby state to a reception state of a mobile station, and A reception signal level compensation process comprising: measuring a reception strength of the received signal; and comparing the reception strength with a value stored in a memory to determine whether the current reception strength is correct and maintaining the current reception strength; If the reception state is switched to the transmission state, it is determined whether a call connection is made in the transmission state, and the previous reception strength is maintained; if the reception strength is not maintained at an appropriate level, the reception strength is recompensated and the current A transmission signal level compensation process including measuring a transmission strength with respect to a reception strength, and comparing the measured transmission strength with data stored in a memory to determine whether the transmission strength is correct, and maintaining a current transmission strength. It is characterized by.

Hereinafter, a preferred embodiment of a method for compensating for a transmit / receive signal level of a mobile communication terminal according to the present invention will be described in detail with reference to the accompanying drawings.

2A is a flowchart illustrating a signal level compensation method of a receiver according to the present invention, and FIG. 2B is a flowchart illustrating a signal level compensation method of a transmitter according to the present invention.

Referring to Figure 1, the basic configuration of the transmission / reception signal level compensator of the present invention is the same as in the prior art.

First, in the case of reception, the RF signal received from the antenna ANT is received through the duplexer 110 and is applied to the reception amplification and mixer 120. In this case, the RF signal applied to the mixer 120 is generated as an IF signal according to the oscillation frequency of the local oscillator 136 and applied to the band pass filter 124. The frequency signal for the corresponding channel filtered through the bandpass filter 124 is level compensated by the reception AGC 125 and then converted into a digital signal by the baseband signal processor 140. The digital signal is restored to the original data in the microprocessor 150.

In addition, the reception AGC 125 has a gain that is changed so that a constant reception strength can be input to the baseband signal processing unit 140 at the time of reception. The gain is converted into a DC voltage through the filter 126 by receiving the PDM signal from the microprocessor 150, and the gain is determined according to the DC voltage level. The control degree of this gain is controlled by a voltage of 0-3.3V when the receiving AGC 125 has a driving voltage of 3.3V, and the microprocessor 150 is controlled by 8 bits, so it can be controlled in 256 steps from 0-255. Do.

Referring to FIG. 2A, in the case of reception, the power is turned on from the on state to the standby state (S210), and the current channel is recognized after switching to the reception state (S230). The frequency signal for the recognized channel is measured by the microprocessor processor 150 (S240) and compared with the data read from the E ² PROM (S250). Subsequently, it is again determined whether the reception strength is correct (S260), and the current reception strength is maintained (S270). At this time, the microprocessor 150 determines the size of the PDM signal corresponding to the size and provides the determined PDM signal to the filter 126. In addition, the information on the basic signal strength is stored in the E ² PROM (160), by comparing the information and measuring the received strength it is possible to maintain the signal strength for the current channel.

In the case of the next transmission, the data to be transmitted is restored by the microprocessor 150 and converted into an analog signal (corresponding to an IF signal) by the baseband signal processing unit 140, and then has the same intensity as the reception level through the transmission AGC 128. The transmission level is compensated for and then applied to the transmission amplification and mixer 130. Subsequently, the RF signal signal-converted in the mixer 130 according to the local oscillation frequency of the local oscillator 136 is filtered through the bandpass filter 135 and amplified by the plurality of amplifiers 132-134. The amplified RF signal is assigned a transmission path in the duplexer 110 and is radiated to space through the antenna ANT.

Referring to FIG. 2B, in the case of transmission, the transmission intensity is determined in proportion to the reception intensity. The transmit intensity is also determined by the microprocessor 150 and the determined direct voltage is provided to the transmit AGC 128 through the filter 127. In this case, in the case of the transmission gain, it is determined that a constant value is always maintained by adding the reception strength and the transmission strength. As the reception strength increases, the transmission strength decreases, and conversely, when the reception strength decreases, the transmission strength increases. Therefore, since the variation in gain for each channel is greater at the time of transmission, accurate correction data is experimentally calculated and stored in the E ² PROM 160.

First, when it is switched from the reception state to the transmission state (S310) (S320), it is determined whether a call connection is made in the transmission state (S320) (S330), and the reception strength is maintained (S340). In this case, if the reception strength is not maintained, the reception strength is recompensated (S341), and the transmission strength with respect to the current reception strength is measured (S350).

Next, the measured value is compared with the data of the E ² PROM 160 (S360) to determine whether the transmission intensity is correct (S370), and the current transmission strength is maintained (S380).

As described in detail above, according to the method for compensating for a transmit / receive signal level of a mobile communication terminal according to the present invention, the reception strength and the transmission strength are compensated in multiple stages for each channel. Because it can maintain, it can reduce the performance degradation and power consumption of the terminal and extend the life and the life of the battery.

Claims (1)

Recognizing the current channel through the microprocessor after the transition from the standby state of the terminal to the reception state, measuring the reception strength for the recognized channel, and compares the reception strength with a value stored in the memory to the current reception strength A received signal level compensation process comprising the step of confirming whether a signal is correct and maintaining a current reception strength; And If the reception state is switched to the transmission state, determining whether a call connection is established in the transmission state and maintaining the previous reception strength, and if the reception strength is not maintained at the proper level, recompensation of the reception strength and the current reception And a transmission signal level compensation process including measuring a transmission strength with respect to the strength, and comparing the measured transmission strength with data stored in a memory to determine whether the transmission strength is correct and maintaining a current transmission strength. Transmitting / receiving signal level compensation method of a mobile communication terminal, characterized in that.