KR100670161B1 - Apparatus for controlling transmitting power in mobile terminal and method for controlling transmitting power using the same - Google Patents

Abstract

The present invention relates to a transmission power control apparatus of a mobile communication terminal and a control method thereof. As described above, the present invention detects various usage states of a mobile communication terminal and transmits a detection signal to a main processor, and receives the detection signal from the detection sensor and automatically obtains the amplification unit according to the detection signal. A main processor for transmitting another transmission power control signal, an automatic gain control amplifier for adjusting transmission power according to the transmission power control signal, a power amplifier for amplifying the transmission power received from the automatic gain control unit into a radio frequency signal; An antenna matching unit for impedance matching the radio frequency signal, and an antenna for transmitting and receiving the amplified radio frequency signal.

Mobile communication terminal, maximum transmit power, SAR, sensor

Description

Apparatus for controlling transmitting power in mobile terminal and method for controlling transmitting power using the same}

1 is a schematic diagram illustrating a method of measuring a SAR of a mobile communication terminal;

Figure 2 is a block diagram of a transmission power control apparatus of a mobile communication terminal according to an embodiment of the present invention.

* Explanation of symbols for main parts of drawings *

10: antenna 20: antenna matching unit

30: power amplifier 40: automatic gain control amplifier

50: base band portion 60: main processor

70: detection sensor

The present invention relates to a transmission power transmission power control apparatus of a mobile communication terminal and a control method thereof.

The power control of the conventional mobile communication terminal simply provides the maximum transmission power collectively at a level that satisfies the electrical standards of each communication system such as temperature, spurious, and specific absorption rate (SAR). By controlling, the various user environments of the user's mobile communication terminal were not sufficiently considered, and thus the optimum power control according to the use state of the mobile communication terminal was not performed.

In addition, before the electrical standards such as SAR were applied, the transmission power was set to the maximum output allowed by each communication system because the higher the output power of the mobile communication terminal can increase the call connection rate in the weak field area. However, because of anxiety and doubt that electromagnetic waves radiated from mobile communication devices may adversely affect the human body, countries that apply SAR regulations, the absorption rate of electromagnetic waves representing the amount of electromagnetic energy absorbed by the human head, are gradually spreading. Accordingly, a mobile communication terminal manufacturer is in a difficult situation to manufacture a terminal in consideration of the performance of the mobile communication terminal as well as the amount of energy (SAR) absorbed in the human head. Since the performance of the terminal and the SAR are in a mutually opposite relationship, the performance of the actual mobile communication terminal may vary according to how to tune it. As such, when the mobile terminal is sold to a country where SAR regulations exist, the maximum transmission power should be lowered according to the SAR standard, and the maximum transmission power down is the minimum maximum power of the communication system and the call of each mobile communication provider. Call) It is difficult to satisfy the connection rate.

In order to solve the above problems, the apparatus for controlling transmission power of the mobile communication terminal and the control method thereof according to the present invention, by controlling the transmission power of the mobile communication terminal according to the use state of the various mobile communication terminal, Its purpose is to improve the call access rate and call quality when used in actual call environment without violating SAR (Specific Absorption Rate) regulation.

The transmission power control apparatus of the mobile communication terminal of the present invention for achieving the above object, one or more detection sensors for transmitting a detection signal to the main processor by detecting the various use state of the mobile communication terminal, the detection signal from the detection sensor A main processor for receiving different transmission power control signals to an automatic gain control amplifier according to the detection signal, an automatic gain control amplifier for adjusting transmission power according to the transmission power control signal, and receiving from the automatic gain control unit And a power amplifier for amplifying the transmitted power into a radio frequency signal, an antenna matching unit for impedance matching the radio frequency signal, and an antenna for transmitting and receiving the amplified radio frequency signal.

Here, the detection sensor is characterized in that it detects the contact of the head to the mobile communication terminal, the state of use of the antenna, the opening and closing state of the terminal case.

In addition, the sensor for detecting the use state of the antenna detects whether the external or built-in main antenna and the auxiliary antenna of the mobile communication terminal simultaneously or singly, and in the case of the whip antenna pulled out the antenna Characterized in that it detects.

The main processor may be further configured to receive at least one use state of the mobile communication terminal from at least one detection sensor and output a predetermined transmit power control signal according to a use state of a single or multiple combinations.

In addition, the shape of the mobile communication terminal is characterized in that it has any one shape selected from the group consisting of bar type, folder type, swing type (turn style type), slide type.

On the other hand, the transmission power control method of the mobile communication terminal of the present invention for achieving the above object, whether the contact of the head to the mobile communication terminal in the sensor, the antenna pull-in / pull-out state, the antenna antenna pull-in / pull-out state Transmitting a detection signal to the main processor by detecting an open / closed state of the upper case of the terminal; Receiving at least one sensing signal from the sensing sensor in the main processor and transmitting different transmission power control signals to the automatic gain control amplifier according to the single or plurality of sensing signals; And adjusting transmission power according to the transmission power control signal received by the automatic gain control amplifier.

Hereinafter, a configuration and an operation according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

According to the present invention, the transmission power control of the mobile communication terminal is controlled using the mobile communication terminal, that is, the open / closed state of the upper end of the terminal (folder, swing, flip, slide type terminal) and the state of the antenna (secondary antenna withdrawal / retraction). And the maximum connection power according to the head contact status (head contact / distance) when using the terminal, thereby minimizing the problem of maximum transmission power deterioration due to SAR (Specific Absorption Rate) regulation. And improve call quality. That is, the present invention is to limit the effect of SAR regulations on the head of the human body, so that the maximum transmission power of the mobile communication terminal is not controlled equally, but is properly controlled according to the terminal state, the antenna state, and the head contact state when the terminal is used.

1 is a schematic diagram illustrating a method of measuring a SAR of a mobile communication terminal.

When the human body is irradiated with electromagnetic waves, the quantitative evaluation of the electromagnetic waves is carried out by SAR measurement through power measurement, electromagnetic analysis, and animal experiments. SAR is the absorption power per unit mass absorbed by the living body as the living body is exposed to the electromagnetic field. It is expressed as

Here, sigma represents the conductivity [S / m] of the human phantom, ρ represents the density of the tissue [kg / m ³ ], and E _i represents the effective value size of the local electric field vector [V / m]. Since SAR is difficult to measure directly in human body, SAR is evaluated as power measurement in phantom when electromagnetic wave is irradiated by making a so-called human phantom having electric constant similar to human tissue. As shown in Fig. 1, the mobile phone and the phantom are installed in a state simulated by actual use conditions, and the physical position of the electric field is measured with a probe in the phantom to control the exact position in the phantom, the probe system, and the phantom. It consists of a jointed-arm robot and a control software to store and precisely position the measurement. An electric field probe for measuring electric field distribution basically consists of a dipole, a detection circuit, and a transmission line, and the incident wave is converted into a DC voltage by the dipole and the detection circuit and supplied to the signal processing unit by the transmission line. Probe requirements for SAR measurements must maintain high sensitivity and linearity over broadband, high precision spatial resolution is required to measure SAR per 1g and 10g of tissue, and the dielectric constant of the human tissue must be considered. The physical characteristics, size and shape of the human phantom should be similar to those of the mobile phone user, and the measurement model should include at least the head and neck. The most important tissue in the measurement of RF energy absorption by a portable device is the brain.

 In the present invention, the test is performed by contacting the mobile terminal with the human head. In the case of a whip antenna that is equipped with a mechanical or electrical detection sensor that can detect a touch on a part that is in contact with the head during a call by the mobile communication terminal, and can pull out / retract an antenna of the mobile communication terminal. SAR measurement is carried out with a sensor that can detect time and incoming time. The sensing sensor may be a built-in or external heat sensor in the upper end of the terminal for detecting the head contact of the mobile communication terminal, or embedded in the terminal to detect the opening / closing of the antenna or the upper end of the mobile communication terminal Electrical and mechanical switches can also be used and tools are included to recognize the status of use of all mobile terminals affecting SAR values.

Meanwhile, a specific method of controlling the maximum transmission power according to the type of mobile communication terminal is as follows.

The actual call type using the mobile communication terminal is not merely used as a uniform method of contacting the mobile terminal with the head. In some cases, handsfree kits are used, in some cases headsets are used, and there are various call states such as data communication and short message service. As described above, applying the maximum transmission power collectively in accordance with SAR regulations even in a call state in which the terminal does not contact the head of the human body may bring down call quality and call connection rate. Therefore, it is possible to improve communication service quality and call connection rate in the weak field by transmitting the maximum power without violating SAR regulations according to the usage status of various mobile communication terminals.

The present invention attaches a detection sensor near the face contacting the terminal during a call by the mobile communication terminal to control the maximum transmission power separately when the user's face is contacted and the terminal is in contact with the user's face Even if the WP antenna is withdrawn and when the SAR value is large depending on the usage status of the terminal, such as when it is withdrawn, the call / detection is detected by the sensor and the call quality is not violated by SAR. The maximum transmit power is controlled appropriately to maximize the performance. Therefore, according to an embodiment of the present invention, the setting value of the maximum transmission power may be subdivided according to the use state of the mobile communication terminal as shown in Table 1 below.

[Table 1] Maximum transmit power value according to the usage status of mobile communication terminal

In addition, in addition to the above configuration, even when the main antenna is located inside or has a separate auxiliary antenna, a detection sensor such as an RF switch is mounted inside the mobile communication terminal to adjust the maximum transmission power without violating SAR regulations. And call connection rate can be improved.

The maximum transmit power values are set to a value suitable for a terminal when produced by a mobile communication terminal manufacturer.

2 is a block diagram of a transmission power control apparatus of a mobile communication terminal according to an embodiment of the present invention, the call state when using the mobile communication terminal in the sensor 70 (head contact state on the terminal, the upper end of the terminal) Open / closed state, antenna draw / retract state), electrically and mechanically, and the main processor 60 receives the transmission signal generated by the base band unit 50 according to the signal flowing from the sensor 70. As shown in [Table 1], the maximum transmission power value is adjusted to output a transmission power control signal to an auto gain control (AGC) amplifier 40, and the automatic gain control amplifier 40 according to the transmission power control signal. The transmit power adjusted at) is finally amplified by the power amplifier 30 and output to the air through the antenna 10 via the antenna matching unit 20.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various changes can be made without departing from the technical spirit of the present invention. It will be obvious to him.

As described above, in the method of controlling a transmission power of a mobile communication terminal according to the present invention, the power control of the wireless mobile communication terminal is controlled according to the state of the antenna or the use state of the mobile communication terminal, so that the specific body absorption rate (SAR) It is effective to improve the call access rate and call quality when used in real call environment without violating the Absorption Rate.

Claims (6)

One or more detection sensors for detecting various usage conditions of the mobile communication terminal and sending a detection signal to the main processor, and receiving a detection signal from the detection sensor and transmitting different transmission power control signals to the automatic gain control amplifier according to the detection signal. A main processor for transmitting, an automatic gain control amplifier for adjusting transmission power according to the transmission power control signal, a power amplifier for amplifying the transmission power received from the automatic gain control unit into a radio frequency signal, and an impedance of a radio frequency signal Antenna matching unit and antenna for transmitting and receiving amplified radio frequency signal Transmission power control apparatus for a mobile communication terminal, characterized in that consisting of. The method of claim 1, The detection sensor is a transmission power control device of a mobile communication terminal, characterized in that for detecting the contact of the head to the mobile communication terminal, the state of use of the antenna or the opening and closing state of the upper case of the terminal. The method of claim 2, The detection sensor for detecting the use state of the antenna detects whether the external or internal main antenna and the auxiliary antenna of the mobile communication terminal are used simultaneously or singly, and in the case of the whip antenna, whether the antenna is drawn out or drawn in. Transmission power control apparatus for a mobile communication terminal, characterized in that. The method according to any one of claims 1 to 3, The main processor receives at least one use state of the mobile communication terminal from at least one detection sensor and outputs a predetermined transmit power control signal according to the use state of the single or multiple combinations. Device. The method of claim 4, wherein The shape of the mobile communication terminal is a transmission power control device of the mobile communication terminal, characterized in that it has any one shape selected from the group consisting of bar type, folder type, swing type, slide type. Transmitting a detection signal to the main processor by detecting whether the head contacts the mobile communication terminal, the auxiliary antenna withdrawal / retraction state of the antenna, the whip antenna withdrawal / retraction state, and the open / closed state of the upper case of the terminal by the detection sensor; Receiving at least one sensing signal from the sensing sensor in the main processor and transmitting different transmission power control signals to the automatic gain control amplifier according to the single or plurality of sensing signals; And adjusting the transmission power according to the transmission power control signal received by the automatic gain control amplifier.

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