KR101062310B1 - Transmission output control device of mobile communication terminal - Google Patents

Abstract

The present invention provides a transmission output control apparatus that can effectively reflect the degree of data loss of a received signal. To this end, the present invention uses a received signal strength indication (RSSI) comparator and a received signal strength indication (RSSI) detector to compare the strength and threshold of the received signal, and according to the data lost in the received signal using a channel state determiner. The current wireless channel environment is determined and the transmission output of the mobile communication terminal is controlled according to the determination result. Accordingly, even when the strength of the received signal exceeds the threshold due to the influence of the radio channel, the signal-to-noise ratio is increased to reduce the loss of data due to the influence of the radio channel and to achieve more reliable communication.

Mobile communication system, transmission output controller, preamble pattern

Description

Transmission output control device of mobile communication terminal {APPARATUS FOR CONTROLING POWER OF TRANSMISSION IN MOBILE TERMINAL}             

1 is a block diagram of a transmission output control apparatus of a conventional mobile communication terminal;

2 is an exemplary diagram of a wireless channel between a mobile communication terminal and a base station including interference and noise, and a fading channel;

3 is an exemplary diagram of a data frame structure including a preamble pattern;

4 is a block diagram of a transmission output control apparatus of a mobile communication terminal according to an embodiment of the present invention;

5 is a block diagram illustrating a channel state determiner according to an exemplary embodiment of the present invention.

6 is a flowchart illustrating a transmission output control operation of a transmission output control apparatus of a mobile communication terminal according to an exemplary embodiment of the present invention.

The present invention relates to a mobile communication terminal, and more particularly to a transmission output control apparatus.

In general, the transmission output control of the mobile communication terminal means amplifying the strength of the transmitted signal to the strength set by the output control unit of the mobile communication terminal. In a typical mobile communication terminal, the process of controlling the transmission power strength is determined according to the strength of the signal received from the base station. If the strength of the received signal is sufficient for communication between the base station and the mobile terminal, the output control unit of the mobile terminal maintains the current amplification strength, whereas if the strength of the received signal is not sufficient for communication with the base station, The output control unit of the communication terminal recognizes that the strength of the signal currently transmitted by the mobile communication terminal is not sufficient, and reflects this to increase the intensity of the transmission output.

Accordingly, a typical mobile communication terminal is provided with a received signal strength indication (RSSI) detector for detecting the strength of a received signal and a received signal strength indication (RSSI) comparator for comparing the intensity detected by the detector with a threshold value. . Herein, when the strength of the signal detected by the RSSI detector is greater than or equal to the threshold, the output control unit of the mobile communication terminal determines that the strength is sufficient for communication between the base station and the mobile communication terminal, and when the strength of the detected signal is less than the threshold. It is determined that the strength is not sufficient for the base station and the mobile communication terminal to communicate with each other.

FIG. 1 is a block diagram of an apparatus for controlling output of a transmission signal including an RSSI detector and an RSSI comparator in such a conventional mobile communication terminal. Referring to FIG. 1, the received signal received by the antenna 118 is input to the mixer 102 and the RSSI detector 106 through the transmission signal amplifier 100 of the RF unit 120. The signal input to the mixer 102 is mixed with the frequency oscillated from the oscillator 104 and converted into a baseband signal. The signal output from the mixer 102 is input to the demodulator 112 of the baseband unit 122, demodulated, and then converted into an audio signal and output. Meanwhile, the RSSI detector 106 detects the received signal strength from the received received signal. The detected intensity is input to the RSSI comparator 108. The result of comparing the threshold value and the intensity of the detected signal in the RSSI comparator 108 is input to the output controller 110. If the result of the comparison indicates that the strength of the received signal is less than the threshold value, the output controller 110 indicates that the current wireless channel is difficult to communicate with the base station and the mobile communication terminal, and is transmitted from the mobile communication terminal. Like the received signal, the received signal is determined to be weakened when it reaches the base station. Therefore, in order to compensate for this, the transmission signal amplifying unit 100 is controlled to increase the transmission power.

However, when the comparison result indicates that the received signal strength is greater than or equal to the threshold value, the transmission signal amplifier 100 controls the current radio channel to recognize that the base station can communicate with the mobile communication terminal and maintain the current transmission output. do. And when the intensity of the received signal is more than the threshold value for a predetermined time or more, the output control unit 110 of the mobile communication terminal controls the transmission signal amplification unit 100 to reduce the transmission output.

Meanwhile, the demodulator 112 receives the baseband signal, demodulates it, and inputs the demodulated signal to the connected voice processor 114. In addition, the voice processing unit 114 converts the input baseband signal and outputs it through the speaker 116 in a form that can be recognized by the user. In this case, the demodulated baseband signal is input to the voice processing unit 114 and the speaker 116 as an example of the case where the received signal is voice information, but if the received signal is data information used in wireless data communication, It is input to a component such as a memory or a controller of a mobile communication terminal capable of storing or processing data information.

2 is a diagram illustrating an example of a radio channel between a mobile communication terminal and a base station including interference and noise, and a fading channel. Referring to the wireless channel with reference to FIG. 2, in general, the effects of intentional or unintentional interference and noise may be on the wireless channel, and may also be affected by fading. When a signal is transmitted from the antenna 202 of the conventional mobile communication terminal 200, the transmitted signal passes through the environment 204 and the fading channel 206, which are affected by interference and noise, to the antenna of the base station 210 ( 208). In addition, the signal transmitted from the base station 210 is also received by the mobile communication terminal 200 through the same channel.

Therefore, as shown in FIG. 2, when passing through a wireless channel including a fading channel, the overall received signal strength may be greater than or equal to a threshold, but data loss due to distortion may occur. In addition, even though the mobile communication terminal 200 and the base station 210 are located close to each other, even if they do not pass through the fading channel 206, the strength of the received signal is generally increased than when the mobile communication terminal 200 is located far away. . However, even if the mobile communication terminal 200 is located close to the base station 210, interference and noise may be affected in the radio channel environment through which the signal passes, thus eliminating the possibility of data loss of the transmission signal or the reception signal. There is no number.

However, in the case of such noise or interference, if the signal-to-noise ratio (SNR) is increased by increasing the signal strength, such data loss can be reduced to some extent. Therefore, if the output strength of the transmission signal is increased in the mobile communication terminal, it is possible to reduce data loss that may occur in a wireless channel environment affected by interference, noise, and fading. However, the transmission output control apparatus of the conventional mobile communication terminal controls the transmission output through the RSSI detector 106 and the RSSI comparator 108 according to whether or not the strength of the received signal is greater than or equal to the threshold value. Therefore, even if the received signal affected by the strength from the wireless channel including the fading channel has a weak strength, the mobile communication terminal does not detect it when the strength exceeds the threshold due to the influence of the fading channel. The amplification intensity of the transmission output was maintained as it is. Therefore, as the strength of the actual signal is weak, the signal-to-noise ratio of the received signal is inevitably low, and there is a problem in that reliable communication is not achieved due to large data loss.

Accordingly, an object of the present invention is to provide a transmission output control device that can control the amplification strength of the transmission output by reflecting the state of the radio channel in order to solve the above problems.

The present invention for achieving the above object, the transmission signal amplifying unit for power amplifying a transmission signal, a received signal strength indication (RSSI) detector for detecting the received signal strength of the mobile communication terminal, and the detected by the RSSI detector RSSI comparator for comparing the strength and the threshold value which is a reference value of the signal strength for communication between the mobile communication terminal and the base station, a demodulator for demodulating the received signal, and confirming the data loss of the received signal demodulated in the demodulator. A channel state determiner that determines whether or not a wireless channel is a wireless channel for which data loss is greater than an allowable level, and when the comparison result of the RSSI comparator is greater than the threshold, the channel state determiner If the result of the determination is a wireless channel in which data loss above the allowable level occurs, the transmission signal And an output controller for controlling the transmission signal amplifier to increase the output strength of the call.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description and the accompanying drawings, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The present invention uses the preamble pattern included in the received signal data frame as a means of checking the state of the radio channel. Here, the preamble pattern is generally used for initial synchronization acquisition in a control channel, and refers to a binary bit string used for acquisition of synchronization in a communication channel. 3 is a diagram illustrating an example of a structure of a data frame including such a preamble pattern. The data frame shown in FIG. 3 includes 500 bits in total, and includes RZ (Ramp Zone: 300), PA (PreAmble: 302), VTIF (Voice Traffic Information Field: 304), or DTIF (Data Traffic Information Field: 304), F (Flag: 306), TB (Tail Bit: 308), and GT (Guard Time: 310).

The first 36 bits are RZ 301 which protects the front part of the frame from AGC (Automatic Gain Control) or the like. The next 48 bits are the preamble pattern (PA: 302) used for initial synchronization acquisition or the synchronization channel in the control channel, and the next 384 bits are the voice information bits (VTIF: 304) containing the voice information. Or a data information bit (DTIF) 304 containing data information in wireless data communication. In addition, the next four bits are F 306 used for identification of complex components, and the next eight bits are TB 308 used for the Viterbi decoding algorithm. The next 20 bits are the GT 310 for protecting the frame from frame loss due to frame delay or the like.

4 is a block diagram of a transmission output control apparatus according to an embodiment of the present invention that checks a state of a wireless channel using a data frame including a preamble pattern as shown in FIG. 3 and reflects it to control of a transmission output. It is shown. Referring to FIG. 4, the received signal received from the antenna 118 is input to the mixer 102 and the RSSI detector 106 through the transmission signal amplifier 100 of the RF unit 120. The signal input to the mixer 102 is mixed with the frequency oscillated from the oscillator 104 and converted into a baseband signal. The signal output from the mixer 102 is input to the demodulator 112 of the baseband unit 122, demodulated, and then input to the channel state determiner 400 and the voice processor 114, respectively. The voice processing unit 114 converts the received signal into a voice signal and outputs the converted signal. The channel state determiner 400 extracts a preamble pattern from the received signal to check the state of the wireless channel, and outputs the result to the output control unit 402. Enter

Meanwhile, the RSSI detector 106 detects the strength of the received signal from the received received signal. The detected intensity is input to the RSSI comparator 108. The result of comparing the threshold value and the intensity of the detected signal in the RSSI comparator 108 is input to the output controller 110. The output controller 402 controls power amplification of the transmission signal amplifier 100 according to a result of the determination of the channel state determiner 400 and the comparison result of the RSSI comparator 108.

5 is a block diagram illustrating a channel state determiner 400 according to an exemplary embodiment of the present invention. Referring to FIG. 5, the channel state determiner 400 includes a PA (PreAmble) error calculator 500, an error number comparator 502, an FSI (Frame Synchronization Indicator) calculator 504, and a determiner 506. . Here, the PA error calculator 500 extracts each preamble pattern 302 from a received signal composed of a data frame as shown in FIG. 3, compares the preamble pattern 302 with each bit of a pre-stored normal preamble pattern bit string, and stores the preamble. The number of preamble pattern bits (hereinafter, referred to as 'error number') of the baseband signal that does not match the bits of the pattern is calculated and input to the error number comparator 502. The error number comparator 502 compares the error number inputted from the PA error calculator 500 with the allowable value of the error allowable in the mobile communication obtained through the test using the mobile communication terminal, and compares the error number with the allowable value. Make sure it's not big or big. The comparison result is input to the FSI calculator 504. The FSI calculator 504 increases the FSI by a predetermined value when the number of errors is greater than the allowable value according to the size comparison result input from the error number comparator 502, and sets the FSI by a predetermined value when the error number is smaller than the allowable value. Decrease by value The increased or decreased FSI value is input to the connected determiner 506. Here, FSI is a value used in the embodiment according to the present invention to reflect the current channel state. The value of decreasing or increasing the FSI uses a predetermined value through a test of the equipment including the mobile communication terminal.

The determiner 506 checks the FSI value input from the FSI calculator 504 and determines that the current channel is a channel whose data loss is more than an allowable level when the value of the FSI is equal to or greater than the reference value for a predetermined time or more. Here, the reference value refers to a value used as a reference for distinguishing whether or not the amount of data loss of a signal transmitted or received at the time of FSI input is generally acceptable. It may be obtained through a test using a mobile communication terminal, such as a tolerance value stored in 502). Therefore, when a data loss of more than the allowable level occurs for a predetermined time or more, the determiner 506 determines that the radio channel is a wireless channel having a data loss of more than the allowable level in a signal transmitted or received. When the determination result of whether the current wireless channel is a channel that causes data loss of more than an allowable level is input from the channel state determiner 400 to the output controller 402, the output controller 402 may use the RSSI comparator 108. And the output signal of the transmission signal by controlling the transmission signal amplifier 100 using the results input from the channel state determiner 400.

6 is a flowchart illustrating a transmission output control operation of a transmission output control apparatus of a mobile communication terminal according to an exemplary embodiment of the present invention. Referring to FIG. 6, in step 602, a comparison result input from the RSSI comparator 108 is checked to determine whether the received signal intensity is greater than or equal to a threshold value, and when the comparison result is smaller than the threshold value. In step 608, the transmission signal amplifying unit 100 increases the intensity of the transmission output. If the comparison result indicates that the received signal strength is greater than or equal to the threshold in step 602, in step 604, the result of the input from the channel state determiner 400 is checked. Check if it is or not. In the case of a wireless channel in which data loss of more than an allowable level occurs, in step 608, the transmission signal amplifying unit 100 is controlled to increase the strength of the transmission output. However, in the case of a wireless channel in which data loss of less than the allowable level occurs in step 604, in step 606, the transmission signal amplifying unit 100 is controlled to maintain the strength of the current transmission output. If the determination result of the current wireless channel input from the channel state determiner 400 is determined to be a wireless channel in which data loss is less than an allowable level for a predetermined time, the flow proceeds to step 612 to amplify the transmission signal. Reduce the negative transmit power strength. However, if the determination result of the current wireless channel in step 610 is determined to be a wireless channel in which data loss occurs more than the allowable level within a predetermined time, the flow proceeds to step 602 to check the comparison result input from the RSSI comparator 108 again.

Therefore, when the strength of the received signal is weak, increasing the output strength of the transmission signal irrespective of the state of the current wireless channel may be achieved by a transmission output control device of a conventional mobile communication terminal and a transmission signal output control device according to an embodiment of the present invention. same. However, when the strength of the received signal is greater than or equal to the threshold value, the transmission output control apparatus according to the embodiment of the present invention determines whether the current radio channel is a radio channel in which data loss more than an allowable level occurs. In the case of a wireless channel in which data loss above the allowable level occurs, the output strength of the transmission signal is increased.

Therefore, in the present invention, although the strength of the received signal is actually weak, the transmission signal amplifying unit 100 is controlled so that the strength of the transmission output is increased even when the strength is greater than or equal to the threshold due to the influence of fading, interference, or noise. This can increase the signal-to-noise ratio of the transmitted signal.

Therefore, the present invention increases the signal-to-noise ratio even when the strength of the received signal exceeds the threshold due to the influence of the wireless channel, thereby reducing the loss of data due to the influence of the wireless channel, thereby enabling more reliable communication. .

Claims (4)

An apparatus for controlling output power of a transmission signal in a mobile communication terminal, A transmission signal amplifier for amplifying the power of the signal transmitted by the mobile communication terminal; Received Signal Strength Indication (RSSI) detector for detecting the strength of the signal received from the base station, An RSSI comparator for comparing the detected signal strength with a threshold which is a reference value of signal strength for the mobile communication terminal and the base station to perform communication; A demodulator for demodulating the received signal; A channel state determiner that determines whether data loss of the demodulated signal occurs and determines whether or not a wireless channel has a data loss exceeding an allowable level; And an output control unit for controlling the transmission signal amplifying unit to increase the output power of the transmission signal when the strength of the received signal is greater than the threshold value and data loss of the transmission level is exceeded in the wireless channel. Transmission signal output control device of a communication terminal. The method of claim 1, wherein the output control unit, And controlling the amplifying unit of the transmission signal to increase the output power of the transmission signal when the strength of the received signal is smaller than the threshold value. The method of claim 1, wherein the output control unit, If the loss of data generated in the wireless channel is less than the allowable level for a predetermined time, and if the determination result is maintained for a predetermined time, and controls the transmission signal amplification unit to reduce the output strength of the transmission signal and And if not, reconfirm the comparison result of the RSSI comparator. The method of claim 1, wherein the channel state determiner, A preamble error calculator for extracting a preamble pattern from a received signal and comparing the extracted preamble pattern with a preamble pattern stored in advance to calculate the number of bit errors of the preamble pattern in which an error occurs; An error number comparator for comparing whether the bit error number is greater than a preset threshold value; As a result of the comparison of the error number comparator, if the bit error number is greater than or equal to the threshold value, a frame synchronization indicator (FSI) value for indicating a state of a wireless channel is increased by a predetermined amount. FSI calculator that reduces by a fixed amount, If the FSI value continues to increase for a certain period of time, it is determined that the current wireless channel is a wireless channel that has a data loss amount exceeding an allowable level. And a determination unit for inputting the determination result to the output control unit.

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