KR20070118791A - Mobile communication terminal having diversity receiving operation - Google Patents

Abstract

A mobile communication terminal having a diversity reception function is provided to carry out the diversity reception function by using one main antenna only so as to prevent signal abandoning and interference between antennas, thereby improving receive sensitivity as reducing area consumption. A transceiving processor(100) separates receiving signals received from one main antenna into a main receiving signal and a diversity receiving signal, and processes the separated signals, respectively. An MSM(Mobile Station Modem)(20) combines the main receiving signal with the diversity receiving signal from the transceiving processor(100), and controls so that the combined signals are outputted to a speaker(300). The transceiving processor(100) includes a main antenna(110), a receiving signal path dividing unit(120), a main receiving signal path unit(130), a transmitting signal path unit(140) and a diversity receiving signal path unit(150).

Description

Mobile communication terminal with diversity reception function {MOBILE COMMUNICATION TERMINAL HAVING DIVERSITY RECEIVING OPERATION}

1 is a schematic configuration diagram of a mobile communication terminal having a conventional diversity reception function.

2 is a schematic structural diagram of a mobile communication terminal having a diversity reception function according to an embodiment of the present invention;

*** Explanation of symbols for the main parts of the drawing ***

10, 100: transmission and reception processing unit 20, 200: mobile station modem

30, 300: Speaker 40, 400: Microphone

50, 130: main receive signal path section 60, 140: transmit signal path section

70, 150: diversity reception signal path portion 51: main antenna

71: diversity antenna 120: reception signal path separation unit

121: power splitter 122, 123: test connector

124, 125: low noise amplifier 131, 151: diplexer

132: duplexer 152: filter

133, 143, 153: Amplifier 134, 142, 154: Bandpass filter

135: main receive signal processor 141: transmit signal processor

155: diversity reception signal processing unit 144: coupler

145: power detector 110: antenna

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal having a diversity reception function. More particularly, the present invention relates to a diver by one antenna by separating a signal received from one main antenna and transmitting the received signal to a main reception path and a diversity reception path. It is a technology that performs a reception function and prevents a decrease in reception sensitivity due to interference between the main antenna and the diversity antenna.

Generally, a mobile terminal (hereinafter referred to as a 'terminal') refers to a mobile phone, a palm PC, a personal digital assistant (PDA), or a handheld PC (HPC). It is a high-tech communication device that can perform various tasks through wireless connection as well as network connection without receiving.

The mobile communication terminal includes a main antenna and a diversity antenna to improve its reception rate through a combination of various signals received through the main reception path and the diversity reception path.

1 is a schematic configuration diagram of a mobile communication terminal having a conventional diversity reception function.

The mobile communication terminal receives and processes a main reception signal and a diversity reception signal, and a transmission / reception processing unit 10, a mobile station modem (MSM; 20), a speaker 30, for processing and transmitting a transmission signal, and A microphone 40 is provided.

In particular, the transmission / reception processing unit 10 includes a main reception signal path unit 50, a transmission signal path unit 60, and a diversity reception signal path unit 70. As such, the conventional mobile communication terminal having a diversity reception function includes a main reception signal path unit 50 and a diversity reception signal path unit 70 separately, and the main reception signal path unit 50 and the diversity reception signal. The path section 70 has respective antennas 51 and 71.

As such, the conventional mobile communication terminal is provided with a main antenna 51 and a diversity antenna 71 separately for the diversity reception function, and the isolation between the antennas is weak due to the size of the mobile communication terminal. There is a problem in that interference occurs with each other to lower reception sensitivity.

In addition, when a signal is applied only to the main antenna 51 during the RF performance test, a signal transition occurs from the main antenna 51 to the diversity antenna 71 due to the radiation pad, and thus the diversity reception signal path unit 70. The signal is induced to interfere with the main signal of the main receiving signal path unit 50, causing an error in the RF performance test of the main receiving signal path only.

An object of the present invention for solving the above problems is to perform a diversity reception function using only one main antenna, thereby improving reception sensitivity and reducing area consumption by preventing interference and signal induction between antennas. .

In order to achieve the above object, a mobile communication terminal having a diversity reception function according to the present invention separates a received signal received from one main antenna into a main received signal and a diversity received signal, respectively. And a mobile station modem configured to control the transmission / reception processing unit to process and output the speaker by combining the main reception signal and the diversity reception signal from the transmission / reception processing unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic structural diagram of a mobile communication terminal having a diversity reception function according to an embodiment of the present invention.

The mobile communication terminal having a diversity reception function includes a transmission / reception processing unit 100, a mobile station modem (MSM) 200, a speaker 300, and a microphone 400.

The transmission / reception processor 100 includes an antenna 110, a reception signal path separation unit 120, a main reception signal path unit 130, a transmission signal path unit 140, and a diversity reception signal path unit 150. .

The received signal path separator 120 includes a power splitter 121, test connectors 122 and 123, and low noise amplifiers 124 and 125.

The power splitter 121 separates the signal received through the antenna 110 (the power splitter is literally a power divider. There is no need for further explanation). The main received signal path unit 130 and the diversity received signal path unit Output to 150, the test connector (122, 123) is connected between the power splitter 121 and the low noise amplifier (124, 125) to test the main receive signal path and the diversity receive path using external equipment It is provided for. The low noise amplifiers 124 and 125 are controlled by the gain margin control signals GAIN_CTR1 and GAIN_CTR2 output from the mobile station modem 200 to amplify the main reception signal and the diversity reception signal output from the power splitter 121, respectively. .

Meanwhile, the main received signal path unit 130 includes a diplexer 131, a duplexer 132, an amplifier 133, a band pass filter 134, and a main received signal processor 135.

The diplexer 131 is provided in the dual phone to distinguish the cellular band and the PCS band, the duplexer 132 distinguishes and transmits the received signal and the transmitted signal, and the amplifying unit 133 is received from the duplexer 132 The main reception signal is amplified, and a band pass filter (BPF) 134 filters the output signal of the amplifier 133. In addition, the main received signal processor 135 processes the filtered signal and applies it to the mobile station modem 200.

Meanwhile, the transmission signal path unit 140 includes a transmission signal processing unit 141, a band pass filter 142, an amplifier 143, a coupler 144, and a detector 145. That is, the transmission signal processor 141 is controlled by the mobile station modem 200 to signal-process the transmission signal, the band pass filter 142 filters the signal-processed transmission signal, and the amplification unit 143 is filtered. The signal is amplified, and the coupler 140 couples the amplified signal. At this time, the detector 145 checks the power level of the transmission signal and transmits the power level of the transmission signal to the mobile station modem 200. Accordingly, the mobile station modem 200 controls the amplification unit 143 to amplify the transmission signal again and apply it to the coupler 140.

The diversity reception signal path unit 150 includes a diplexer 151, a filter 152, an amplifier 153, a band pass filter 154, and a diversity reception signal processor 155.

In this case, the diplexer 151, the amplifier 153, the band pass filter 154, and the diversity reception signal processor 155 are similar to the configuration and operation of the main reception signal path unit 130. Will be omitted. The filter 152 filters the signal output from the diplexer 151.

Meanwhile, the mobile station modem 200 combines the received signals received from the main received signal processor 135 and the diversity received signal processor 155, controls the received signals to be output through the speaker 300, and controls the microphone. Control the transmission of the signal input through 40. The speaker 300 outputs the received signal so that the user can hear it, and the microphone 400 receives a voice signal by the user.

In addition, the mobile station modem 200 checks the power level of the signal applied from the main receiving signal path unit 130 and the diversity receiving signal path unit 150, respectively, and the low-noise amplifying units 124 and 125 are below a predetermined level. The gain margin control signals GAIN_CTR1 and GAIN_CTR2 are controlled to increase the gain margin.

FIG. 2 illustrates an example of a dual phone applicable to both a cellular phone band and a PCS band, but may be applied to a single cellular phone or a PC.

Hereinafter, a diversity reception method of a mobile communication terminal according to the present invention will be described.

First, when a received signal is received through the antenna 110, the power splitter 121 divides the received signal into a main received signal and a diversity received signal and transmits the received signal to the low noise amplifiers 124 and 125, respectively. The low noise amplifiers 124 and 125 amplify the main received signal and the diversity received signal and transmit the amplified signals to the diplexers 111 and 151, respectively. In this case, the diplexers 111 and 151 are provided in the case of a dual phone, and distinguish between the cellular phone and the PCS phone by the duplexer 132 or the filter 152 corresponding to the cellular and the PCS according to the band of the received signal. To pass.

Here, the amplified main reception signal and the diversity reception signal are distinguished as shown in Table 1 below.

Kind of signal Top of the band Interruption of bandband The bottom of the band Diversity Reception Signal -110 dBm -110 dBm -110 dBm Main signal -108 dBm -108 dBm -108 dBm

Table 1 shows band-level power levels of the diversity reception signal and band-band power levels of the main reception signal. In Table 1, the power level of the diversity reception signal is -110dBm and the power level of the main reception signal is -108dBm.

As shown in Table 1, each amplified signal is applied to the mobile station modem 200 via each reception path. Detailed description of the above is as follows.

The amplifiers 133 and 153 amplify the output signals of the duplexer 132 or the filter 152, and the band pass filters 134 and 154 filter the output signals of the amplifiers 133 and 153 and then receive the main signal. The signal is applied to the signal processor 135 and the diversity reception signal processor 155, respectively.

In this case, in the dual phone, the amplifiers 133 and 153, the band pass filters 134 and 154, the duplexer 132, and the filter 152 are separately provided according to the cellular and PCS bands.

Accordingly, the main received signal processor 135 processes the main received signal output from the band pass filter 134 and then applies the signal to the mobile station modem 200, and the diversity received signal processor 155 transmits the band pass filter ( The diversity reception signal output from 154 is processed and applied to the mobile station modem 200.

Subsequently, the mobile station modem 200 outputs a gain margin control signal for increasing the gain margins of the low noise amplifiers 124 and 125 when the power level of the main received signal and the diversity received signal is checked. Accordingly, the low noise amplifiers 124 and 125 amplify and output the output signals of the power splitter 121, respectively.

As described above, the present invention separates the signal received from one main antenna through the power splitter 121 so as to implement a diversity function.

As described above, the present invention has a diversity structure by separating signals received through one main antenna, thereby preventing interference between antennas, thereby improving reception sensitivity and reducing area consumption.

In addition, a preferred embodiment of the present invention is for the purpose of illustration, those skilled in the art will be able to various modifications, changes, replacements and additions through the spirit and scope of the appended claims, such modifications and changes are the following claims It should be seen as belonging to a range.

Claims (6)

A transmission / reception processing unit which separates a reception signal received from one main antenna into a main reception signal and a diversity reception signal, and performs signal processing respectively; And And a mobile station modem configured to control the main reception signal and the diversity reception signal from the transmission and reception processing unit to be output to a speaker. The method of claim 1, wherein the transmission and reception processing unit, The main antenna for receiving the received signal; A reception signal path separation unit for separating the reception signal received through the main antenna into the main reception signal and the diversity reception signal; A main received signal path unit for amplifying and signal processing the main received signal; And And a diversity reception signal path unit configured to amplify and signal process the diversity reception signal. The method of claim 2, wherein the received signal path separation unit, A power splitter for separating the received signal into the main received signal and a diversity signal; A first amplifier amplifying the main received signal and applying the amplified main signal to the main received signal path part; And And a second amplifier for amplifying the diversity reception signal and applying the diversity reception signal to the diversity reception signal path part. 4. The mobile communication terminal of claim 3, wherein the first and second amplifiers comprise a low noise amplifier. 4. The mobile communication terminal according to claim 3, wherein the first and second amplifying units control the gain margins respectively by gain margin control signals output from the mobile station modem. The method of claim 5, wherein the mobile station modem, And a power margin between the main received signal and the diversity received signal to output the gain margin control signal.

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