KR20070010443A - Mobile communication terminal with antenna testing function and method of controlling the same - Google Patents

Abstract

A mobile communication terminal having an antenna diagnosis function and a controlling method thereof are provided to detect transmission output in accordance with transmission of a test signal and reception reflection output in accordance with the transmission output, and to calculate a VSWR(Voltage Standing-Wave Ratio) value in itself, thereby diagnosing whether an antenna is normal, and then displaying the diagnosed results. A bidirectional coupler(10) couples a transmission signal transmitted through an antenna with a reflection signal received to the antenna. A power detector(12) detects output of the reflection signal and the transmission signal coupled through the coupler(10). A controller(1) generates a test signal according as a worker checks an antenna performance checking mode to send the test signal, receives the reflection signal in accordance with transmission of the test signal to couple the reflection signal with the test signal in the coupler(10), and calculates an antenna performance checking value according to a reception output value of the reflection signal and transmission output of the test signal to compare the calculated value with a pre-stored antenna performance value, then decides whether the antenna is normal or not.

Description

Mobile communication terminal with antenna diagnosis function and control method {MOBILE COMMUNICATION TERMINAL WITH ANTENNA TESTING FUNCTION AND METHOD OF CONTROLLING THE SAME}

1 is a control block diagram of a mobile communication terminal having an antenna diagnostic function according to the present invention;

2 is a control flowchart of the antenna diagnostic function of the mobile communication terminal of FIG.

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

 1: MSM 3: PAM

 5: switchplexer 7: antenna matching circuit

10: bidirectional coupler 12: power detection unit

The present invention relates to a mobile communication terminal having an antenna diagnosis function and a control method thereof, and in particular, a mobile communication terminal having an antenna diagnosis function for inspecting the performance of an antenna in the mobile communication terminal itself without a separate inspection device and its It relates to a control method.

Conventional mobile communication terminals are provided with an RF circuit for performing a wireless communication function to transmit and receive voice signals, data signals, and the like through an antenna. In particular, the antenna is the core component that determines the call quality and the beginning and end of signal input and output.It is designed to satisfy the maximum power transmission condition (50Ω matching) to realize the best data transmission / reception function. There is also an active research on antennas to improve reception sensitivity.

An index indicating the performance of such an antenna is a voltage standing-wave ratio (hereinafter referred to as VSWR). VSWR refers to the minimum value of the traveling wave to the maximum value of the wave proceeding by comparing the magnitude values of the voltage waveforms. For example, in two media having two different impedances, the traveling wave is a traveling wave and a reflected wave due to impedance mismatch. The difference between these two waves is VSWR.

In other words, VSWR of 1 means that the incident wave passes through because it is completely matched with the line impedance and the termination impedance, and as the value becomes larger than 1, the incident wave is reflected more. do. Therefore, conventionally, the VSWR of the mobile communication terminal is measured to diagnose an abnormality of the antenna.

However, since the VSWR measurement of the mobile communication terminal proceeds through a simulation through a separate inspection equipment, there is a problem that the inspection equipment must be provided, the cost for the equipment of the inspection equipment is consumed, and the inspection time is increased. have.

The present invention has been made to solve the above-described problems, to provide a mobile communication terminal and an antenna control method having an antenna diagnostic function to check the performance of the antenna in the mobile communication terminal itself without a separate inspection equipment and its object There is this.

A mobile communication terminal having an antenna diagnosis function and a control method thereof according to the present invention for achieving the above object, in the mobile communication terminal for transmitting a radio signal through an antenna (ATN), the transmission signal transmitted through the antenna A bidirectional coupler for coupling a reflected wave signal received by the antenna; A power detection unit detecting an output of the transmission signal and the reflected wave signal coupled through the bidirectional coupler; According to the operator's selection of the antenna performance test mode, a test signal is generated and transmitted through the antenna while receiving a reflected wave signal according to the test signal transmission so that the bidirectional coupler couples the test signal and the reflected wave signal, And a control unit for calculating an antenna performance test value according to the transmission output of the test signal and the reception output value of the reflected wave signal provided from the power detection unit, and then comparing the performance value of the antenna stored in advance to determine whether the antenna is abnormal. Characterized in that.

Here, the control unit may calculate the voltage standing-wave ratio (hereinafter referred to as VSWR) as the antenna performance test value according to the following Equation, and determine whether the antenna is abnormal. Do.

Where Γ represents the reflection coefficient.

Equation

=

VSWR =

=

The controller may determine that there is an abnormality in the antenna when the calculated antenna performance test value and the previously stored performance value of the antenna are different, and may control the determination result to be displayed on a predetermined display device. .

According to another aspect of the present invention, there is provided a control method of a mobile communication terminal for transmitting a radio signal through an antenna (ATN), the method comprising: storing in advance a performance value set when designing the antenna; In accordance with the operator's selection of the antenna performance test mode, generating a test signal by itself and transmitting it through the antenna; Receiving a reflected wave signal according to the test signal transmission; Detecting the output of the transmission signal transmitted through the antenna and the reflected wave signal received by the antenna; Calculating an antenna performance test value according to the detected transmission output of the test signal and the reception output value of the reflected wave signal; And comparing the calculated antenna performance test value with a performance value of the antenna stored in advance to determine whether the antenna is abnormal and displaying the determination result to the operator. It can also be achieved by the method.

The calculating of the antenna performance test value may be a step of calculating a voltage standing-wave ratio (hereinafter referred to as VSWR) according to the following Equation.

Where Γ represents a reflectometer.

Equation

=

VSWR =

=

The displaying of the determination result to the worker may include displaying whether the antenna is abnormal on a display device provided in the mobile communication terminal.

Hereinafter, a mobile communication terminal having an antenna diagnosis function and a method of controlling the same according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a control block diagram of a mobile communication terminal having an antenna diagnostic function according to the present invention. As shown in FIG. 1, a mobile communication terminal according to the present invention includes an antenna ANT and an antenna matching circuit 7 for transmitting and receiving a wireless signal, and an amplifier unit for amplifying a transmission signal. (2), a bidirectional coupler coupling a signal transmitted / received through a switch, a switchplexer 5 for selecting a transmit / receive frequency channel, and a switchplexer 5 and an antenna matching circuit 7. 10, a power detector 12 for sensing the power of the transmission signal and the reception signal coupled by the bidirectional coupler 10, and a test signal of a predetermined frequency band according to the antenna performance diagnosis mode selection. And a mobile station modem (hereinafter referred to as MSM) 1 for detecting the performance of the antenna ANT by sensing the power of the transmission signal and the reception signal detected by the power detection unit 12 through the transmission and reception through do.

The transmission data signal output from the MSM 1 is amplified to a size capable of wireless transmission by the PAM 3 and applied to the switchplexer 5. The switchplexer 5 sets a path by switching so that transmission / reception signals of different frequency bands such as GSM / DCS / PCS are applied to signal lines for processing the corresponding frequency band signals. The antenna ANT transmits and receives a radio signal and the antenna matching circuit 7 performs a matching operation by providing an impedance (50? Matching) optimized for the antenna ANT.

Meanwhile, the bidirectional coupler 10 couples the test signal transmitted from the MSM 1 through the antenna ANT to the power detector 12, and also reflects the reflected wave signal of the test signal received by the antenna ANT. Coupling to deliver to the power detection unit 12.

Accordingly, the power detector 12 detects the output of the test signal transmitted and the output of the reflected wave signal and provides the detected value to the MSM 1 side. Accordingly, the MSM 1 receives the output of the test signal transmitted and the output of the reflected wave, and calculates the reflection coefficient of the antenna ANT, the voltage standing-wave ratio (hereinafter referred to as VSWR), and the like. ANT) diagnose the abnormality.

The reflection coefficient Γ, which is one of the indices of the performance of the antenna ANT, is obtained by using a difference between the transmit power and the reflected power (return loss, RL), and is calculated through Equation 1 below. Can be.

<Equation 1>

RL = -20log | Γ | dB

In addition, a voltage standing-wave ratio (hereinafter referred to as VSWR) used as another index indicating the performance of the antenna ANT may be calculated through Equation 2 below.

<Equation 2>

=

VSWR =

=

As can be seen from the above Equations 1 and 2, the larger the amount of reflection, the larger the size of the VSWR. Therefore, when there is almost no reflection, VSWR is close to 1, and as the amount of reflection increases, the VSWR is close to infinity. When expressing, the VSWR value is expressed as a ratio value. For example, when VSWR is calculated as 3 by Equation 2, VSWR is expressed as 3: 1.

On the other hand, the MSM 1 has a VSWR design value of the antenna ANT currently mounted, and calculates the VSWR through the transmission output of the test signal detected through the power detector 12 and the reception output of the reflected wave signal. By comparing with, it diagnoses the abnormality of the antenna ANT and displays the diagnosis result to the operator through the display unit.

For example, the return loss of the mounted antenna ANT is about 20dB, so that the VSWR is designed to achieve 1.2: 1, and is caused by the bidirectional coupler 10 interposed between the switchplexer 5 and the antenna ANT. Assume a mobile terminal with a loss of 0.5dBm.

As a result of diagnosing the antenna (ANT) performance of the mobile communication terminal, when the transmission output of the test signal detected by the power detector 12 is 20.5dBm and the reception output is -0.5dBm, the VSWR is as follows. Can be calculated. First, the MSM 1 compensates the loss caused by the bidirectional coupler 10 by 0.5dBm on the sensed transmission / reception output, and considers that the transmission / reception output of the antenna ANT is 20dBm and the reception output is 0dBm. Accordingly, MSM (1) calculates RL = reverse power / foward power = 0dBm / 20dBm = -20dB (VSWR about 1.2: 1), and the calculated VSWR is about 1.2: 1, which is consistent with the original design value. It is determined that the ANT and the antenna matching circuit 7 are operating normally.

On the other hand, as a result of diagnosing the performance of the antenna ANT of the mobile communication terminal having the same design condition, when the transmission output of the test signal detected through the power detector 12 is 20.5dBm, the reception output is 10.5dBm, The MSM 1 first compensates for 0.5dBm of loss due to the bidirectional coupler 10 to the sensed transmission / reception output to calculate the transmission / reception output of the antenna ANT, and regards the transmission output as 20dBm and the reception output as 11dBm. Therefore, MSM (1) calculates RL = reverse power / foward power = 11dBm / 20dBm = -9dB (VSWR about 2.1: 1), and the calculated VSWR is 2.1: 1, which is equivalent to the original design value of 1.2: 1. By showing a difference, it is determined that the antenna ANT and the antenna matching circuit 7 are in an abnormal state. As such, when it is determined that the antenna ANT is in an abnormal state, the MSM 1 may display an abnormality of the antenna ANT through a display device provided in the mobile communication terminal or a separate display device connected by an operator. have.

The antenna (ANT) diagnostic function can be implemented by mounting software for diagnosis in the MSM 1, and accordingly, the control flow of the antenna diagnostic function is shown in FIG.

First, when the operator selects a predetermined menu for the performance test of the mobile communication terminal, the mode of the mobile communication terminal is switched to the antenna performance test mode (S10). Such antenna performance test mode is preferably implemented in software in the mobile communication terminal itself, so that a worker with inspection authority, such as a developer or a test certifier, can selectively switch during mass production.

Upon entering the antenna performance test mode, the MSM 1 generates a test signal of a frequency band selected by an operator (for example, a single tone of the frequency band), and amplifies the test signal through the PAM 3. After the wireless transmission through the antenna ANT (S12). Here, the switch multiplexer 5 that receives the test signal amplified by the PAM 3 switches to apply the signal to the corresponding frequency band, and the amplified test signal is externally connected through the bidirectional coupler 10 and the antenna ANT. Set the error so that it can be sent to.

The bidirectional coupler 10 couples the test signal from the signal line through which the test signal is transmitted and inputs the test signal to the power detection unit 12. The power detection unit 12 detects the output of the transmission signal and provides the output to the MSM 1. (S14).

In addition, the bidirectional coupler 10 couples the reflected wave received by the antenna ANT and input to the switch multiplexer 5 and inputs the power to the power detector 12. The power detector 12 outputs the reflected wave signal. Detection is provided to the MSM (1) side (S16).

Accordingly, the MSM 1 calculates VSWR through an algorithm based on Equation 1 or Equation 2 based on the transmission output of the test signal provided by the power detector 12 and the output of the reflected wave signal (S18).

The MSM 1 compares the calculated VSWR value with a pre-input VSWR design value of the antenna ANT to determine whether the antenna ANT is abnormal, and displays the determination result to the operator (S20).

Here, the steps S12 to S18 of generating and transmitting a test signal and detecting the output of the transmitted power and the received reflected wave to calculate the VSWR may be repeated a predetermined number of times to increase the accuracy of the performance diagnosis and then compared with the VSWR design value. It is possible.

As described above, the present invention enables the mobile communication terminal to generate and transmit a test signal by itself, while detecting a transmission output according to the test signal transmission and a received reflected wave output according to the antenna to calculate a VSWR value by itself. It is possible to diagnose the abnormality of.

As described above, the embodiment according to the present invention is not limited to the above, and various modifications can be made within the scope apparent to those skilled in the art in connection with the present invention.

As described above, the mobile communication terminal having an antenna diagnosis function and a control method thereof according to the present invention, while the mobile communication terminal generates and transmits a test signal itself according to the operator's antenna diagnosis mode selection, By detecting the transmission output and the received reflected wave output according to the result, the VSWR value is calculated by itself to diagnose an abnormality of the antenna and display the result.

Accordingly, the performance of the antenna can be inspected by the mobile communication terminal itself without any additional inspection equipment, thereby reducing the cost and time for the antenna performance inspection.

Claims (6)

In a mobile communication terminal for transmitting a radio signal through an antenna (ATN), A bidirectional coupler coupling a transmission signal transmitted through the antenna and a reflected wave signal received by the antenna; A power detection unit detecting an output of the transmission signal and the reflected wave signal coupled through the bidirectional coupler; According to the operator's selection of the antenna performance test mode, a test signal is generated and transmitted through the antenna while receiving a reflected wave signal according to the test signal transmission so that the bidirectional coupler couples the test signal and the reflected wave signal, And a control unit for calculating an antenna performance test value according to the transmission output of the test signal and the reception output value of the reflected wave signal provided from the power detection unit, and then comparing the performance value of the antenna stored in advance to determine whether the antenna is abnormal. A mobile communication terminal having an antenna diagnostic function, characterized in that. The method of claim 1, The control unit, According to the following Equation, an antenna diagnostic function is determined by calculating a voltage standing-wave ratio (hereinafter referred to as VSWR) as the antenna performance test value. Mobile terminal having. Where Γ represents a reflectometer. Equation VSWR =

=

The method of claim 1, The control unit, If the calculated antenna performance test value and the previously stored performance value of the antenna is different, it is determined that there is an abnormality in the antenna, and the determination result is controlled to display on a predetermined display device having an antenna diagnostic function. Mobile terminal. In a control method of a mobile communication terminal for transmitting a radio signal through an antenna (ATN), Storing in advance a performance value set when the antenna is designed; In accordance with the operator's selection of the antenna performance test mode, generating a test signal by itself and transmitting it through the antenna; Receiving a reflected wave signal according to the test signal transmission; Detecting the output of the transmission signal transmitted through the antenna and the reflected wave signal received by the antenna; Calculating an antenna performance test value according to the detected transmission output of the test signal and the reception output value of the reflected wave signal; And comparing the calculated antenna performance test value with a performance value of the antenna stored in advance to determine whether the antenna is abnormal and displaying the determination result to the operator. Way. The method of claim 4, wherein Computing the antenna performance test value, Calculating a voltage standing-wave ratio (hereinafter referred to as VSWR) according to the following <Equation>. Where Γ represents a reflectometer. Equation VSWR =

=

The method of claim 4, wherein Displaying the determination result to the worker, And displaying an abnormality of the antenna on a display device provided in the mobile communication terminal.

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