KR20060108854A - Method for implementing transmission diversity in mobile telephone and mobile telephone incorporating the same - Google Patents

Abstract

A transmit diversity method and a mobile communication terminal implementing the same are provided. According to the present invention, a mobile communication terminal includes an RF receiver for receiving an RF signal from a base station, an RF transmitter for transmitting an RF signal, a duplexer for branching an RF transmission signal and an RF reception signal using one antenna, and a received RF. A control unit for deactivating transmit diversity when the signal strength is greater than the first reference value and activating transmit diversity when the received RF signal is less than the second reference value; and requesting activation of transmit diversity from the controller. Transmit diversity control for supplying power to all RF transmission paths when there is a request, and for supplying power to only one RF transmission path and disconnecting power to other RF transmission paths when a request for deactivation of transmission diversity is requested from the control unit. It includes. Preferably, the first reference value is a value having a greater intensity of the received signal than the second reference value.

Diversity, RF Signal, Activation, Deactivation, Mobile Communication Terminal

Description

Method for implementing transmission diversity in mobile telephone and mobile telephone incorporating the same

1 is an internal structural diagram of a mobile communication terminal according to the present invention.

2 is a flowchart illustrating a transmit diversity control process according to an embodiment of the present invention.

3 is a conceptual diagram illustrating a criterion for activating / deactivating transmission diversity according to the strength of a received signal.

The present invention relates to a transmission diversity method and a mobile communication terminal implementing the same, and more particularly, to a transmission diversity method for activating or deactivating transmission diversity according to the strength of an RF signal received from a base station, and a mobile implementation. It relates to a communication terminal.

The mobile communication system is generally configured in such a way that a plurality of mobile communication terminals communicate through one base station. However, in the mobile communication system, signals received through different paths are random due to distance, frequency of use, reflection, diffraction, scattering, etc. The reception signal may be distorted due to fading, which is a phenomenon in which the reception strength is canceled and the reception strength is weakened as a whole.

This fading reduces the amplitude of the received signal from a few dB to several tens of dB. Therefore, a received signal distorted by the fading phenomenon does not affect the transmission data transmitted from the transmitting side unless it is properly dealt with during data demodulation. This may cause an error in the quality of the mobile communication service.

Therefore, in order to transmit a signal without deterioration in a mobile communication system, such a fading phenomenon must be overcome, and various kinds of diversity methods are used as a way to overcome the fading phenomenon. .

Among the diversity schemes, the transmit diversity scheme uses a plurality of antennas. When a signal transmitted through one antenna decreases in size due to fading, the remaining antennas are selected. Demodulation of the transmission signal by receiving the transmitted signal.

The conventional mobile communication terminal to which the transmit diversity scheme is applied operates the transmit diversity scheme by implementing two antennas and an RF path, but it is not possible to select on or off of transmit diversity according to the three received signals.

Therefore, since a mobile communication terminal to which a conventional transmit diversity scheme is applied always transmits a signal using a transmit diversity technique, since a weak field having a small intensity of a received signal transmits a wireless signal through two RF paths, Although transmission can be transmitted without distortion, transmission diversity is applied even in a strong electric field having a large intensity of a received signal, which consumes a certain amount of power to maintain two RF paths, thereby reducing battery life. .

The present invention has been proposed to solve this problem, and an object thereof is to provide a transmit diversity method for controlling whether transmit diversity is activated according to a level of an RF signal received from a base station and a mobile communication terminal implementing the same. .

In order to achieve the above object, the present invention deactivates transmission diversity when the first step of receiving an RF signal from a base station and the received RF signal is greater than the first reference value, and the received RF signal is less than the second reference value. And a second step of activating transmit diversity.

In addition, the mobile communication terminal according to the present invention includes an RF receiver for receiving an RF signal from a base station, an RF transmitter for transmitting an RF signal, a duplexer for branching an RF transmission signal and an RF reception signal using one antenna, and reception. A control unit configured to deactivate transmit diversity if the received RF signal is greater than the first reference value and activate transmit diversity if the received RF signal is less than the second reference value; Transmit Diver, which applies power to all RF transmit paths when there is an activation request, and applies power to only one RF transmit path and cuts off power to other RF transmit paths when a request for deactivation of transmit diversity is requested from the control unit. And a city control unit.

In addition, the controller of the mobile communication terminal according to the present invention deactivates the transmission diversity when the received RF signal strength is greater than the first reference value when the transmission diversity is activated, and receives the received reception while the transmission diversity is deactivated. If the strength of the RF signal is less than the second reference value, it is preferable to activate the transmit diversity. In this case, it is preferable that the first reference value is a value in which the strength of the received signal, that is, the reception level, is greater than that of the second reference value.

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

1 is an internal structural diagram of a mobile communication terminal according to the present invention.

As shown in FIG. 1, the mobile communication terminal according to the present invention includes an input unit 101, a display unit 102, a memory unit 103, a control unit 104, an RF receiving unit 105, an RF transmitting unit 106, and audio. The converter 107 includes a transmit diversity controller 108 and a duplexer 109.

The input unit 101 may use various elements such as a keypad and a touch screen, and is used when a user selects a desired function or inputs information.

The display unit 102 displays the state and operation process of the mobile communication terminal.

The storage unit 103 stores programs and data necessary for the operation and status of the mobile communication terminal or the control of the controller 104, and includes various types of erasable programmable read only memory (EPROM), static random access memory (SRAM), and flash memory. The device can be used.

The controller 104 controls the overall state and operation of the mobile communication terminal and may be formed of a microprocessor or a digital signal processor (DSP). In particular, in the present invention, the control unit 104 controls to deactivate the transmit diversity when the received RF signal strength is greater than the first reference value, and to activate the transmit diversity when the received RF signal strength is less than the second reference value. do. In addition, the control unit 104 deactivates the transmission diversity when the strength of the received RF signal is greater than the first reference value when the transmit diversity is activated, and the strength of the received RF signal is reduced when the transmit diversity is deactivated. If less than 2 reference values, control to activate the transmit diversity. The first reference value and the second reference value may be the same value, but preferably, the first reference value is higher than the second reference value.

The RF receiver 105 is responsible for receiving the RF signal from the base station.

The RF transmitter 106 serves to transmit an RF signal.

The audio converter 107 processes the voice signal of the user input through the microphone (MIC) in a form for transmitting the voice signal of the call partner or various audio signals generated from the controller 104 to the speaker (SPK). ), And processes the signal into a form that can be output.

The transmit diversity control unit 108 applies power to all RF transmission paths when there is a request for activation of transmit diversity from the control unit 104, and one RF transmission path when there is a request for deactivation of transmit diversity from the control unit 104. Power on only and control off for other RF transmission paths. For example, in the present invention, the case of two RF transmission paths is illustrated in FIG. 1 as an example. That is, by activating the transmit diversity, the first RF transmission path and the second RF transmission path are supplied with power to control the two RF paths to be used. On the contrary, the power is supplied to only one RF transmission path of the two paths. To deactivate transmit diversity.

The duplexer 109 serves to branch the RF transmission signal and the RF reception signal using one antenna.

Next, a transmission diversity control process according to the present invention will be described with reference to FIG. 2.

2 is a flowchart illustrating a transmit diversity control process according to an embodiment of the present invention.

First, it is determined whether transmission diversity is activated (S201). The transmit diversity uses multiple antennas. When a signal transmitted by using one antenna decreases in size due to fading, the transmit diversity receives and transmits a signal transmitted through the remaining antennas. Demodulating the signal.

If the transmission diversity is turned on (YES in S201) on the mobile communication terminal to which the transmission diversity is applied (Yes in S201), whether the strength or so-called reception level of the RF signal received from the base station is greater than the first reference value. It is determined whether or not (S203).

If the reception level in step 203 is not greater than the first reference value (NO in S203), the diversity state is kept on. If the reception level in step 203 is greater than the first reference value (YES in S203). ') Diversity is turned off (S205).

That is, when the strength of the received RF signal is greater than the first reference value, it is determined as a strong electric field having a large strength of the received signal to deactivate transmission diversity. In this situation, if the communication environment is a strong electric field, if the transmission diversity is activated, the difference in communication performance is weak, but power is applied to all RF transmission paths, which consumes a certain amount of power, thereby reducing the battery usage time. In addition, even in the case of a strong electric field, if diversity is used, a signal is transmitted using a plurality of antennas, which also wastes transmission power.

Therefore, in order to solve this problem, the control unit 104 according to the present invention turns off the transmission diversity when it is determined that the communication environment state is a strong electric field having a large intensity of the received signal.

On the other hand, when the transmission diversity is not on, that is, the transmission diversity is deactivated (NO in S201), the reception level of the RF signal received from the base station is higher than the second reference value. It is determined whether or not it is small (S207).

For reference, the second reference value is a value smaller in intensity of the received signal than the first reference value described above.

As a result of the determination in step 207, if the reception level is not smaller than the second reference value (NO in S207), the transmit diversity is kept off, and if the reception level is smaller than the second reference value (YES in S207), the transmission diver The city is turned on (S209).

That is, when the reception level of the RF signal received from the base station is smaller than the second reference value, it is determined by the weak electric field to turn on the transmit diversity.

In the weak electric field where the strength of the received signal is small, when the distortion of the received signal due to fading occurs, when the transmit diversity is turned off, the wireless signal is transmitted by applying power to only one RF transmission path and thus the distortion. The received signal cannot be properly coped with when demodulating data. If the data demodulation is not properly handled, an error occurs in the data of the transmission signal, thereby degrading the communication quality of the mobile communication service.

Therefore, when the reception level of the RF signal received from the base station is less than the second reference value, the control unit 104 according to the present invention activates the transmission diversity by determining the weak electric field. In this situation, it is determined that the weak electric field is activated, so that the radio signal is transmitted by applying power to all RF transmission paths and transmitting the radio signal without distortion.

Next, an operation when the intensity of the received signal changes within the first reference value and the second reference value section will be described with reference to FIG. 3.

As shown in FIG. 3, when the received RF signal has a strength greater than the first reference value while the transmit diversity is turned on, the transmit diversity is turned off (31). When the diversity of the received RF signal becomes smaller than the second reference value in the state in which the transmit diversity is turned off or so-called deactivated, the transmit diversity is turned on (32).

That is, once the transmit diversity is changed from the on state to the off state or vice versa, the transmit diversity is turned on even when the level of the received signal is repeatedly changed within a short time within the first reference value and the second reference value. The load on the terminal is reduced by maintaining the current state without repeating the operation of turning off or turning off.

In other words, when the transmit diversity is off, if the strength of the received signal is a reception level within the first reference value and the second reference value interval, the transmit diversity is kept off. When the intensity of the received RF signal becomes smaller than the second reference value while the transmit diversity is turned off, the transmit diversity is turned on (32).

In addition, if the strength of the received signal is the reception level within the first reference value and the second reference value interval in the state that the transmit diversity is activated, the active state of the transmit diversity is maintained, and the RF received while the transmit diversity is activated When the signal strength is larger than the first reference value, transmission diversity is turned off (31).

As mentioned above, although this invention was demonstrated using the Example, these Examples are illustrative and not restrictive. Those skilled in the art will appreciate that various modifications and changes can be made without departing from the spirit of the invention.

As described above, according to the present invention, a transmission diversity method and a mobile communication terminal implementing the same are provided. According to the present invention, since the transmit diversity is controlled according to the level of the received signal, the waste of the transmit power can be reduced, thereby increasing the battery usage time.

Claims (8)

A first step of receiving an RF signal from a base station; Deactivating transmit diversity if the received RF signal is greater than the first reference value and activating transmit diversity if the received RF signal is less than the second reference value; Transmission diversity method in a mobile communication terminal comprising a. The method of claim 1, wherein the second step is If the strength of the received RF signal is greater than the first reference value while the transmit diversity is active, the transmit diversity is deactivated. If the strength of the received RF signal is less than the second reference value when the transmit diversity is inactive, the transmit diversity is reduced. Transmitting diversity in a mobile communication terminal. The method of claim 1, The first reference value is a transmission diversity method in a mobile communication terminal, characterized in that the strength of the received signal is greater than the second reference value. The method of claim 1, Deactivating the transmit diversity in the second step applies power only to one RF transmission path and cuts off power to another RF transmission path. The method of claim 1, Enabling transmit diversity in the second step is applying power to all RF transmission paths. An RF receiver receiving an RF signal from a base station; An RF transmitter for transmitting an RF signal; A duplexer for branching an RF transmission signal and an RF reception signal using one antenna; A controller configured to deactivate transmit diversity if the received RF signal has a strength greater than the first reference value and activate transmit diversity if the received RF signal has a strength less than the second reference value; If there is a request for activation of transmit diversity from the controller, power is applied to all RF transmission paths. If there is a request for deactivation of transmission diversity from the controller, power is supplied to only one RF transmission path and power is supplied to other RF transmission paths. Diversity control for controlling to block Mobile communication terminal having a. The method of claim 6, The controller deactivates the transmission diversity when the strength of the received RF signal is greater than the first reference value when the transmit diversity is activated, and the strength of the received RF signal is less than the second reference value when the transmit diversity is inactive. And activating transmit diversity. The method of claim 6, The first reference value is a mobile communication terminal, characterized in that the strength of the received signal is greater than the second reference value.

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