KR20010009319A - System for controlling transmission output accordant to receiving state of other party - Google Patents

Abstract

PURPOSE: A system for controlling transmission output accordant to a receiving state of the other party is provided to prevent unnecessary spread of electric field emitted from a communication system and decrease a power consumption rather than the high-output communication system. CONSTITUTION: A control system of a transmission output accordant to a receiving state of the other party comprises a transmission-reception part outputting a strength value of an electric wave by measuring the strength of the electric wave received, a signal arithmetic part making a control signal according to result of comparison-arithmetic of a standard value and the strength value amplifying the strength of the electric wave received from the transmission-reception part, wherein decreasing a transmission output of a communication system until two values are same if the strength value of the electric wave received is larger than the standard value, otherwise increasing transmission output of a communication system, and a transmission output control part outputting the signal for increasing and decreasing an output of the transmission-reception part by analyzing the control signal.

Description

Transmission output control system according to the reception status of the other party.

The present invention is to output the radio wave transmitted from the communication device (mobile phone, wireless communication, transceiver, etc.) is automatically controlled (variable control) to the minimum size to the extent that can be communicated according to the reception state of the other party's transceiver to send out from the communication device The present invention relates to a transmission output control system in accordance with a reception state of a counterpart to prevent an electric field of radio waves from spreading unnecessarily.

Conventional communicators do not take into account the reception status of the other party's transceiver (including the relay station) (the radio communication distance according to the distance between the transmitter and receiver and the strength of the radio wave transmitted from the communication device and the reception sensitivity of the other party's transceiver), and the radio wave transmission intensity of the communication device is fixed. As the distance between the transmitter and the other party's transmitting / receiving period is so close, even when the transmitting / receiving strength of the radio wave output from the communicator is weak, the transmitting power of the radio wave is stronger than necessary, so the unnecessary electric field is required. And the power consumption of the communication device was a lot, and when a portable communication device is used, the radio wave is strongly output, and the radiated radio wave acts more strongly on the user's body.

The present invention has been made in view of the conventional problems as described above, and when the radio wave is transmitted from the communication device, the other transceiver (including the relay station) receives the transmitted radio wave, measures the strength of the received radio wave, and measures the intensity of the received radio wave. Comparing the amplified value with the reference value of the other party's transceiver (the strength value of the radio wave that can be received in consideration of the characteristics of the transceiver and the signal amplification degree), how large or how small the intensity value of the radio wave is from the reference value When the strength value of the radio wave received from the other party's transceiver is greater than the reference value, the other party's transceiver outputs a control signal to reduce the output of the transmitter and outputs it so that it can be received by the other party's transceiver. When the strength of one radio wave is less than the reference value of the other transceiver, The other party's transceiver outputs a control signal to increase and output the new output, and the transmitter outputs a variable output according to the received control signal. Therefore, the intensity value of each received radio wave is transmitted between the transmitter and the receiver. According to the present invention, the communicator transmission power of the called party is increased or decreased to an appropriate strength available for communication.

1 is a circuit diagram of the present invention applied to a one-way control method for a transmission output control system according to a reception state of a counterpart.

2 is a circuit diagram of the present invention applied to both control schemes for the transmission output control system according to the reception state of the other party.

*. Brief description of symbols for the main parts of the drawings

10: transceiver unit 20: counterpart transceiver unit

30: signal calculation unit 40: transmission output control unit

A: Signal Analyzer

Term classification: Communication device-Communication device of call partner A

Transceiver-The other party's communication equipment

In order to achieve the above object, the transmission output control system according to the present invention will be described in detail with reference to FIGS. 1 and 2 as follows.

First, FIG. 1 is a configuration diagram applied to a method of unilaterally controlling a transmission output of a communication partner with respect to a transmission output control system according to a reception state of a counterpart, and a transceiver 10 of a communication device transmits and receives radio waves. When the transceiver unit 10 transmits an electric wave to the outside through the antenna, the other transceiver unit 20 receives the radio wave and measures the intensity of the received radio wave, and amplifies the measured value as an intensity value of the radio wave. It is input to the signal calculator 30. The signal calculating unit 30 serves to generate a control signal to increase or decrease the transmission output of the communicator according to the intensity value of the radio wave. The signal calculating unit 30 amplifies the intensity of the radio wave received by the counterpart transceiver unit 20. Value and reference value (propagation strength value of the size that can be received in consideration of characteristics of transmitter and receiver) to analyze whether the intensity of radio wave is larger or smaller than reference value, etc. When the received radio wave value is larger than the reference value, the transmit power of the communicator should be reduced and transmitted as much as it is. When the intensity value of the received radio wave is less than the standard value, the transmission power of the communicator should be increased and transmitted. A control signal is generated so that the transmission output of the device is increased to a level at which the intensity value of the received radio wave and the reference value coincide with each other. Then, the counterpart transceiver unit 20 modulates the control signal and transmits the control signal to the transceiver unit 10 of the communicator.

The control signal of the signal operation unit 30 does not calculate and compare the intensity value of the radio wave received and amplified by the counterpart transceiver 20 with the reference value. It is included in the configuration meaning for controlling the transmission output of the communicator, and also in the process of switching the signal to control signal the intensity value of the radio wave without calculating the intensity value and the reference value of the radio wave. The control signal may be converted by switching a signal according to a predetermined criterion, and it is a component included in the meaning of a control signal for controlling the transmission output of the communicator. This control signal is sent out periodically (when receiving the radio wave from the other party's transceiver and the intensity of the radio wave is changed by more than a certain width in a certain time) while communicating with the transmitter and the other party. Also, the transmission output of the communicator is increased or decreased until the mutual communication is completed, based on the control signal generated when the communication is attempted during the transmission / reception period. The transmission power of is increased and decreased, so it is configured by the same meaning.

The configuration function of the signal operation unit 30 may be configured by utilizing a computer programmed using software, or by embedding a configuration function in a processor (MPU, etc.) for controlling a transmission / reception device. As the function of meaning is used, it is included in the method for constructing the control signal.

The control signal transmitted through the counterpart transceiver unit 20 is received by the transceiver unit 10 of the communicator and is input to the transmit output controller 40 for variably controlling the transmit power of the communicator by extracting the control signal. The input control signal is converted into a signal capable of controlling the high frequency amplifier (RF DRIV) by the signal analyzer A, and also maintains the signal until the next period of the control signal is received. RF DRIV) is controlled, and when the communication is over, the maximum output is transmitted when the next initial communication is set up, so that it is adjusted to the maximum output position of the transmission output. The configuration function of the signal analyzer A may be incorporated in a processor (MPU, etc.) for controlling a transmission / reception device, which means the same configuration for controlling a high frequency amplifier (RF DRIV) of the transmission output controller 40. It will be included. When the signal for controlling the high frequency amplifier RF DRIV is output from the signal analyzer A, the high frequency amplifier RF DRIV is controlled to increase or decrease the transmission output (output power). The high frequency amplifier (RF DRIV) in which the transmission power is controlled includes the meaning of controlling the transmission power even when configured as a single amplification element, a serial amplification form, or a parallel amplification form, and the transmission output controller 40 uses a communicator. When the initial call is attempted, the transmission power is transmitted to the maximum value. When the call is established, the transmission power of the communicator is reduced by the control signal transmitted from the counterpart transceiver.

2 is a circuit configuration diagram of the present invention applied to a method for controlling both parties to communicate with the transmission output control system according to the reception state of the other party. In order to control the transmission power of the counterpart communication device according to the above, it is possible to transmit a control signal from each communication device, and to transmit and control the transmission power between the communication device with each other by the control signal to the transceiver unit 10 and the The signal computing unit 30 and the transmission output control unit 40 as described in FIG. And each communicator of the call counterpart receiving the ) It is configured so that can be controlled.

By the above configuration, the present invention can be applied to a wireless telephone, a mobile phone terminal, a wireless communication device, and the like.

According to the transmission output control system according to the reception state of the other party according to the present invention configured as described above, since the transmission output of the communicator is automatically adjusted up and down to the appropriate strength of the call with the other party's transceiver, communication security is prevented by preventing the spread of an unnecessary electric field. It is possible to maintain and also to reduce power consumption as compared to a unidirectional high power transmission method, and in the case of a portable communication device, it is possible to reduce the effect of radio waves on the human body.

Claims (4)

In the transmission output control system according to the reception state of the other party in which the transmission power of the communication device is increased or decreased according to the strength of the radio wave received by the other party's transceiver, the transceiver unit 10 of the communication device for transmitting and receiving radio waves and withdrawing the control signal: Receiving and measuring the intensity of the received radio wave and outputting the received intensity value of the received radio wave, and transmitting / receiving the control signal according to the other transceiver unit 20 for transmitting the control signal and the received intensity value of the radio wave. A signal calculation unit 30 for generating a control signal; and a transmission output control unit 40 for analyzing the control signal and variably increasing and decreasing the output of the transmission / reception unit unit 10 to the reception state of the other party. Transmission output control system according to. 2. A signal operating unit (30) according to claim 1, characterized in that it is constituted by a signal calculating unit (30) which makes a control signal so that the transmission output of the communication counterpart communication device is increased or decreased according to the strength of the received radio wave. The transmission output controller (40) according to claim 1, characterized in that the transmission output controller (40) is configured to increase and decrease the transmission output of the communicator by the control signal transmitted according to the strength of the radio wave received by the other party's transceiver. A system for controlling a transmission output according to a reception status of a counterpart to increase or decrease the transmission power of a counterpart transmitter according to a reception strength value of a radio wave, the system transmitting and receiving a radio wave, measuring a strength value of a received radio wave, and transmitting a control signal and A transmission / reception apparatus unit 10 which draws out; and a signal calculation unit 30 which generates a control signal based on the received intensity value of the radio wave; and a transmission output control signal transmitted from the other party's transmitter to increase and decrease the transmission output power of the communicator. Transmission output control system according to the reception state of the other party, characterized in that configured to.