KR20070016222A - A mobile terminal capable of adjusting maximum transmission power - Google Patents

Abstract

The present invention relates to a mobile communication terminal for setting an optimal maximum transmission power, comprising: an antenna matching unit for matching a transceiver with an antenna; A mode detection unit connected between the antenna matching unit and the transceiver unit to output mode detection signals having different levels according to the connection of an external instrument; And a controller configured to control the transceiver to transmit the maximum transmission power of different levels according to the logic level of the mode detection signal.

Therefore, the present invention tests the transmission power in the state of connecting the external measuring instrument that can measure the transmission power in the mode detection unit of each terminal in the terminal shipment process, and finds the maximum transmission power that satisfies the SAR standard for the tested terminal By setting the value to a new maximum transmission power value, it is possible to prevent the degradation of antenna efficiency which may occur by increasing the standing wave ratio of the antenna matching circuit to satisfy the SAR standard, thereby obtaining an effect of maintaining excellent call quality.

Antenna matching, transmit power, mode detection.

Description

Mobile terminal for setting maximum transmit power {A MOBILE TERMINAL CAPABLE OF ADJUSTING MAXIMUM TRANSMISSION POWER}

1 is an exemplary system configuration for setting transmission power of a mobile communication terminal according to an embodiment of the present invention.

2 is a block diagram of a part of a mobile communication terminal for setting a maximum transmission power according to an embodiment of the present invention.

The present invention relates to a mobile communication terminal, and more particularly to a mobile communication terminal for setting an optimal maximum transmission power.

The mobile communication terminal controls the transmission power in accordance with the change in distance from the base station. That is, the transmission power is controlled by increasing the transmission power when the distance from the base station increases and decreasing the transmission power when the distance from the base station is closer.

In fact, the transmit power control of the terminal controls the transmit power in inverse proportion to the measured receive field strength level by measuring the received field strength (RSSI: RECEIVED SIGNAL STRENGTH INDICATOR) level. However, the transmission power cannot be increased in proportion to the distance change between the terminal and the base station. In Korea, the Ministry of Information and Communication regulates the SAR of 1.6mW / g of mobile communication terminals that are not harmful to humans, and since April 2002, the electromagnetic wave protection rate of mobile communication terminals has been applied by applying electromagnetic wave protection standards. This is because measurement is mandatory to prohibit the sale of mobile communication terminals exceeding this number. In addition, when the transmission power is inadvertently increased, power consumption is relatively increased, resulting in shortening of the terminal usage time. Therefore, there is a need for a transmission power control technique considering the above constraints.

In general, the greater the terminal transmission power, the higher the SAR. As a method for reducing such SAR, there is a method of reducing the amount of radio waves radiated from the antenna by using an antenna matching circuit having a high voltage standing wave ratio (VSWR).

However, this method reduces the efficiency of the antenna itself by increasing the loss of the optimized antenna matching circuit, which not only reduces the radiated output electromagnetic waves but also reduces the reception sensitivity, resulting in a decrease in the transmission / reception performance of the terminal itself. Results in.

Accordingly, an object of the present invention is to provide a mobile communication terminal for setting the maximum transmission power designed to set the maximum transmission power that can meet the SAR standard without modification of the antenna matching circuit, but can prevent the degradation of the terminal transmission and reception performance.

Mobile communication terminal according to an embodiment of the present invention for achieving the above object,

An antenna matching unit for matching the transceiver with the antenna;

A mode detection unit connected between the antenna matching unit and the transceiver unit to output mode detection signals having different levels according to the connection of an external instrument;

Controlling the transmission / reception unit to transmit the transmission power at the maximum transmission power limit defined in the transmission power table according to the logic level of the mode detection signal, or to correct the transmission power maximum limit to the maximum transmission power that satisfies the SAR standard. And a control unit.

Further, the mode detection unit:

An RF switch for connecting one of the antenna matching unit and an external measuring instrument to the transceiver;

And a voltage distribution resistor connected to one side of the RF switch and an inductor connected to the other side of the RF switch such that a mode detection signal having different levels is generated according to the movement of the RF switch.

According to the characteristics of the present invention as described above, the transmission power is tested in the state of connecting the external measuring instrument that can measure the transmission power to the mode detection unit of each terminal in the terminal shipment process, and satisfies the SAR specification for the tested terminal By finding the maximum transmit power and setting the value as the new maximum transmit power value, it is possible to maintain the excellent call quality by preventing the degradation of antenna efficiency which may be caused by increasing the standing wave ratio of the antenna matching circuit to satisfy the SAR standard. The effect can be obtained.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

First, FIG. 1 illustrates a system configuration for setting a transmission power of a mobile communication terminal according to an embodiment of the present invention, and FIG. 2 illustrates a partial block configuration of a mobile communication terminal for setting a maximum transmission power according to an embodiment of the present invention. The figure is shown.

As shown in FIG. 1, the mobile communication terminal 200 according to an exemplary embodiment of the present invention is connected to a test PC 100 through a communication port in order to correct a maximum transmission power in a product process, and an RF switch to be described later. It is connected to the transmission power meter 300 through.

For reference, the PC 100 is equipped with an application program for setting the maximum transmission power. The PC 100 equipped with such an application program performs a communication with the mobile communication terminal 200 to induce or decrement the transmission power step by step, and instructs to set the maximum transmission power that satisfies the SAR standard as the corrected new maximum transmission power. Do this.

In addition, the mobile communication terminal 200 according to the embodiment of the present invention basically includes a transmission power table for controlling the transmission power at different levels according to the received electric field strength, and the maximum transmission power limit on the table is typically about 24 dBm. Has the value of. This maximum transmission power limit is corrected to a new maximum transmission power value in order to maintain excellent call quality while satisfying the SAR specification without modification of the antenna matching unit in the embodiment of the present invention. Therefore, in the following description, the maximum transmission power limit and the newly set maximum transmission power value should be strictly distinguished.

Meanwhile, the transmission power meter 300 connected to the RF switch of the above-described mobile communication terminal 200 is directly connected to the transmission / reception unit 230 of the terminal to be described later to measure and display the transmission power or to transmit the transmission power to the PC 100. give.

The SAR meter, which is not described in FIG. 1, measures and displays the electromagnetic wave absorption rate emitted from the mobile communication terminal 200.

Hereinafter, the configuration of the mobile communication terminal 200 described above with reference to FIG. 2 will be described in more detail.

First, the antenna matching unit 210 is implemented with a standing wave ratio suitable for the CDMA or AMPS mode, and serves to match the transceiver 230 and the antenna 205 to be described later.

The mode detecting unit 220 is connected between the antenna matching unit 210 and the transmitting and receiving unit 230 to generate a mode detection signal of different levels according to the connection of the transmission power meter 300 to the terminal control unit 240 to be described later. Print it out.

As shown in FIG. 2, the mode detection unit 220 includes an RF switch 222 for connecting any one of the antenna matching unit 210 and the transmission power measurement unit 300 to the transceiver unit 230 described later. The voltage distribution resistors R connected to one side of the RF switch 222 and the RF switch 222 connected to the other side of the RF switch 222 may generate a mode detection signal having different levels according to the movement of the RF switch 222. Inductor L is included.

On the other hand, the control unit 240 for controlling the overall operation of the terminal controls the transceiver 230 to transmit the maximum transmission power of different levels according to the logic level of the mode detection signal. More specifically, when the connector of the transmission power meter 300 is connected to the RF switch 222 (this is referred to as a "test mode"), the control unit 240 transmits to the maximum transmission power limit defined in the transmission power table. To control the transceiver 230. When the connector of the transmission power meter 300 is disconnected from the RF switch 222, that is, in the normal user mode, the control unit 240 transmits and receives the transmission unit 230 so that transmission is performed at a maximum transmission power value newly set by a method which will be described later. ).

Hereinafter, the operation of the control unit 240 for transmitting the maximum transmission power of different levels according to the logic level of the mode detection signal will be described in detail.

First, the terminal manufacturer tests the power transmission to the maximum transmission power limit specified in the terminal internal transmission power table before shipping the manufactured terminal. As a test method, the connector of the transmission power meter 300 is connected to the RF switch 222 shown in FIG. 2, and the communication port of the mobile communication terminal 200 is connected to the PC 100 as shown in FIG. 1. Start by connecting. For reference, when the connector of the transmission power meter 300 is connected to the RF switch 222 shown in FIG. 230 is newly connected. At this time, the mode detection signal input to the controller 240 maintains a logic level "low" state, and the controller 240 recognizes the test mode as the logic level.

As described above, when the PC 100 and the transmission power meter 300 are connected, the control unit 240 of the terminal performs power transmission at a maximum transmission power limit, that is, 24 dBm according to an instruction of an application program installed in the PC 100. Control the transceiver 230. As such, when power transmission is performed at the maximum transmission power limit, the tester may know whether a normal value is measured by the transmission power meter 300.

If the measured power is outside the allowable range of the maximum transmission power limit, the terminal cannot be shipped to the normal terminal. On the contrary, if the measured power has a value within the allowable range of the maximum transmission power limit, it is treated as a normal terminal and the maximum transmission power correction step is performed as follows.

First, the test operator disconnects the connector of the transmit power meter 300 from the RF switch 222. Accordingly, the antenna matching unit 210 and the transceiver 230 of the terminal are connected, and the mode detection signal is inverted to the "high" level, so that the controller 240 recognizes the user mode.

Meanwhile, while the antenna matching unit 210 and the transceiver unit 230 are connected, the control unit 240 performs power transmission at the maximum transmission power limit according to the instruction of the application program on the PC 100 side. In this case, the test operator measures the rate of absorption of the electromagnetic waves using a SAR meter. If a value exceeding the value specified by the Ministry of Information and Communication is measured, the procedure to reduce the electromagnetic wave absorption rate is taken. As mentioned above, the general method for reducing the electromagnetic wave absorption rate is to modify the antenna matching circuit. However, in this case, since the reception performance may be reduced, the present invention adjusts the maximum transmission power without modifying the antenna matching circuit. A method of preventing the degradation of reception performance is adopted.

That is, the test operator gradually adjusts the intensity of the transmission power in order to satisfy the numerical value defined by the information communication unit. If a numerical value satisfying the SAR is specified by the information and communication unit, the strength of the transmission power at that time is set to the new maximum transmission power value. As such, the newly set maximum transmit power value may be implemented by correcting the maximum transmit power limit value recorded in the existing transmit power table in order to be used as the actual maximum transmit power limit in the user mode. Accordingly, the test operator applies a weight necessary to obtain the maximum transmission power value from the maximum transmission power limit value to the control unit 240 through an application program installed in the PC 100, and the control unit 240 stores the value in the internal memory. In the user mode, the transmission is controlled to a maximum transmission power value that satisfies the SAR standard, and the transmission is controlled using power having a level value equal to or less than the maximum transmission power value based on the transmission power table.

Accordingly, the mobile communication terminal of the present invention can transmit power with the maximum transmission power limit in the test mode as in the normal terminal, and the power transmission can be performed with the maximum transmission power value that satisfies the SAR standard in the normal user mode. .

As described above, the present invention tests the transmission power in a state in which an external measuring device capable of measuring the transmission power is connected to the mode detection unit of each terminal in the terminal shipment process, and the maximum transmission satisfying the SAR standard is satisfied for the tested terminal. By finding the power and setting the value to the new maximum transmit power value, it is possible to prevent the degradation of antenna efficiency that may be caused by increasing the standing wave ratio of the antenna matching circuit to satisfy the SAR standard, thereby maintaining excellent call quality. There is an advantage that can be obtained.

On the other hand, the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. For example, although an embodiment of the present invention has been described as an embodiment of a mobile communication terminal operating in a single mode, the present invention is equally applicable to a mobile communication terminal operating in a single band dual mode or a dual band triple mode without any modification. Could be. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (3)

An antenna matching unit for matching the transceiver with the antenna; A mode detection unit connected between the antenna matching unit and the transceiver unit to output mode detection signals having different levels according to the connection of an external instrument; The transmission and reception are performed such that transmission is performed at the maximum transmission power limit defined in the transmission power table according to the logic level of the mode detection signal, or the transmission power is corrected at the maximum transmission power that satisfies the SAR standard. A control unit for controlling the unit; Mobile communication terminal for setting the maximum transmission power comprising a. The method according to claim 1, wherein the mode detection unit: An RF switch for connecting one of the antenna matching unit and an external measuring instrument to the transceiver; A voltage distribution resistor connected to one side of the RF switch and an inductor connected to the other side of the RF switch such that a mode detection signal having different levels is generated according to the movement of the RF switch. Mobile terminal for the. The mobile communication terminal of claim 1 or 2, wherein the mobile communication terminal comprises a mobile phone operating in a single band dual mode or a dual band triple mode.

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