KR20040093210A - Radio frequency signal amplification apparatus of tdd method using time interval - Google Patents

Abstract

PURPOSE: An apparatus for amplifying a TDD(Time Division Duplex) radio signal by using a time difference is provided to reduce power consumption by amplifying a detected radio signal according to a corresponding time interval. CONSTITUTION: The first and second switches(11,11') switch a radio signal suitable for a corresponding path according to a control signal outputted from a radio signal detector(14) and input/output it. The first and second receiving/amplifying units(12,12') cancel noise of the radio signal inputted through the first and second switches(11,11') and amplify the radio signal to a certain level. The first and second amplifiers(13,13') amplify the radio signal that has been amplified in the first and second receiving/amplifying units(12,12'). The radio signal detector(14) detects whether the radio signal amplified in the first and second receiving/amplifying units(12,12') is a transmission signal or a reception signal by using a time interval of a transmission signal and a reception signal in a TDD method, and outputs a control signal for a transmission/reception path and amplification of the detected radio signal to the first and second switches(11,11') and to the first and second amplifiers(13,13'). A power supply unit(15) supplies DC power to each block.

Description

Wireless signal amplification device of time division duplex method using time difference {RADIO FREQUENCY SIGNAL AMPLIFICATION APPARATUS OF TDD METHOD USING TIME INTERVAL}

The present invention relates to an apparatus for amplifying a wireless signal using a time division duplex (hereinafter referred to as 'TDD') method in more detail. By constructing a radio signal detector that detects a transmission signal or a reception signal using a time difference, and amplifying the radio signal detected by the radio signal detector according to a corresponding time interval, it is possible to reduce the overall power consumption and to utilize low-cost equipment. The present invention relates to a TDD wireless signal amplification apparatus using a time difference to lower a product price.

FIG. 1 is a block diagram of a conventional TDD wireless signal amplifying apparatus, and switching a wireless signal according to a corresponding path according to a control signal output from the first and second digital signal processors 3 and 3 'to input / output First and second reception amplifications which amplify a predetermined level while removing noise of the first and second switches 1 and 1 'and the wireless signals inputted through the first and second switches 1 and 1'. The digital signal processing unit 2, 2 'and the first and second reception amplifiers 2, 2' detect the transmission signal or the reception signal while digitally processing the detected wireless signal. First and second digital signal processors 3 and 3 for outputting transmission and reception paths and control signals to the first and second switches 1 and 1 ′ and the first and second amplifiers 5 and 5 ′. '), First and second converters 4 and 4' for converting digital signals processed by the first and second digital signal processors 3 and 3 'into radio signals, and first and second converters ( 4,4 ') to convert the radio signal converted into first, First and second amplifiers 5 and 5 'for amplifying according to control signals output from the second digital signal processors 3 and 3', and a power supply unit 6 for supplying the DC power required to the respective building blocks. It consists of.

In the conventional TDD wireless signal amplifying apparatus configured as described above, when the wireless signal is input to the first reception amplifier 2 according to the switching operation of the first switch 1, the first reception amplifier 2 After the noise is removed and amplified by a predetermined level, it is input to the first digital signal processor 3.

Subsequently, the first digital signal processor 3 processes the amplified radio signal into a digital signal and detects whether it is a transmission signal or a reception signal. If the digital signal processed radio signal is a transmission signal, the first digital signal processor 1 converts the digital signal into a first signal. The converter 4 outputs the transmission path of the transmission signal and the corresponding control signal for the amplification to the second switch 1 'and the first amplifier 5.

Thereafter, the first converter 4 converts the processed digital signal into a transmission wireless signal and outputs the converted digital signal to the first amplifier 5, whereby the first amplifier 5 transmits the first digital signal processor 3. In accordance with the control signal output from the) amplified by the conversion level the transmission radio signal by the output level and output through the second switch (1 ').

On the other hand, since the reception path of the reception radio signal, that is, the reception signal is also the same as the above operation, description thereof will be omitted.

In the conventional TDD wireless signal amplification apparatus operating as described above, equipment such as a digital signal processor and a converter are expensive and complicated in structure and function, and thus, the remaining expensive high output equipment is required for high output of the wireless signal. This, such as the overall power consumption is increased, at the same time there was a problem that the product price increases.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to remove a conventionally expensive digital signal processor and a converter, and use a time difference, that is, a transmission signal or a reception signal using a time interval between the transmission signal and the reception signal in the TDD scheme. By constructing a low cost and simple structure of the wireless signal detector that detects the signal and amplifying the wireless signal detected by the wireless signal detector at a corresponding time interval, it is possible to reduce the overall power consumption and to utilize the low cost low power equipment. It is to provide a TDD wireless signal amplification apparatus using a time difference to lower the price.

1 is a block diagram of a conventional TDD wireless signal amplification apparatus.

2 is a block diagram of a TDD wireless signal amplifying apparatus using time difference according to the present invention;

3 is a detailed block diagram of the radio signal detector of FIG.

<Description of the symbols for the main parts of the drawings>

11,11 ': First and second switch 12,12': First and second receive amplifier

13,13 ': first and second amplifiers 14: wireless signal detector

15: power supply unit 21: detection unit

22: A / D converter 23: level comparison unit

24: time interval processing unit 25: control unit

In order to achieve the above object, a TDD wireless signal amplifying apparatus using a time difference according to the present invention includes a first switch and a second switch for inputting / outputting a radio signal according to a control signal according to a control signal; First and second reception amplifiers for amplifying a predetermined level while removing noise of the wireless signals input through the first and second switches, and wireless signals amplified by the first and second reception amplifiers according to control signals. First and second amplifiers for amplifying a predetermined level by an output level, and whether the wireless signals amplified by the first and second receiver amplifiers are transmitted using the time intervals of the transmission signal and the reception signal in the TDD scheme. A wireless signal detector for detecting whether the signal is a signal, and outputting a transmission / reception path and amplification control signal for the detected wireless signal to the first and second switches and the first and second amplifiers, respectively, and a power supply unit. Scoop It shall be.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the TDD wireless signal amplification apparatus using the time difference according to the present invention.

2 is a block diagram of a TDD wireless signal amplifying apparatus using a time difference according to the present invention. In accordance with a control signal output from the wireless signal detector 14, which will be described later, the wireless signal is switched according to a corresponding path. First and second reception amplifications which amplify a predetermined level while removing noise of a wireless signal input through the first and second switches 11 and 11 'to be output and the first and second switches 11 and 11'. A first amplifying the wireless signal amplified by the first and second reception amplification units 12 and 12 'by an output level according to the unit 12 and 12' and a control signal output from the wireless signal detector 14. The wireless signal amplified by the second and second receiving amplifiers 13 and 13 'and the first and second receiving amplifiers 12 and 12' using the time interval between the transmission signal and the reception signal in the TDD scheme is a transmission signal. First and second switches 11 and 11 to detect whether the signal is a received signal or a control signal for amplifying a transmission / reception path and amplifying the detected wireless signal. And a wireless signal detector 14 for outputting to the first and second amplifying units 13 and 13, respectively, and a power supply unit 15 for supplying the DC power required to each of the building blocks.

FIG. 3 is a detailed block diagram of the wireless signal detector 14 of FIG. 2. The detector 21 inputs a wireless signal amplified by the first and second reception amplifiers 12 and 12 'and detects the analog signal as an analog signal. ), The A / D converter 22 for converting the analog signal detected by the detector 21 into a digital signal, and the level of the digital signal converted by the A / D converter 22 for the transmission signal and the received signal. Detects the time interval of the transmission signal and the received signal from the level comparison section 23 and the level comparison section 23 comparing the level with each other, and uses the detected time interval to receive the first and second receptions. The time interval processing unit 24 for detecting whether the radio signal amplified by the amplification unit 12, 12 'is a transmission signal or a reception signal, and the transmission signal or the reception signal detected by the time interval processing unit 24 are in a proper transmission / reception path. Input / output accordingly, and amplified at the detected time intervals. Generating a control signal is composed of first and second switches (11,11 ') and the first and second amplification part (13,13'), the control unit 25 for outputting a.

Here, the A / D converter 22, the level comparator 23, the time interval processor 24, and the controller 25 in the radio signal detector 14 are small using a program integrated circuit. By constructing a single IC chip, the overall structure of the wireless signal amplification device can be simplified.

Referring to the operation of the TDD wireless signal amplifying apparatus using the time difference according to the present invention configured as described above are as follows.

On the other hand, in the TDD wireless signal amplifying apparatus using the time difference according to the present invention, when the wireless signal amplifying apparatus amplifies a wireless signal using the TDD method, the transmission signal and the received signal are amplified and output at different time intervals. We are using point.

In other words, by detecting the time interval of the radio signal input through the transmission and reception path to determine whether the transmission signal or the received signal, and amplifies the identified radio signal by the output level at the detected time interval to increase the output of the radio signal It is.

First, when the radio signal is a transmission signal, the operation of the radio signal amplification apparatus will be described. The first switch 11 outputs the radio signal normally input to the first reception amplification unit 12 according to a switching operation. The first reception amplifier 12 receiving the radio signal through the first switch 11 removes noise and amplifies a predetermined level of the radio signal at an extremely low level and outputs the same to the first amplifier 13 at the same time. Is output to the radio signal detector 14.

Then, the radio signal detector 14 detects whether the radio signal amplified by the first reception amplifier 12 is a transmission signal or a reception signal by using the time interval between the transmission signal and the reception signal in the TDD scheme. If it is a signal, a transmission path and a control signal for amplifying the transmission signal are output to the first and second switches 11 and 11 'and the first amplifier 13, respectively.

That is, in the wireless signal detector 14, the detector 21 inputs the wireless signal amplified by the first reception amplifier 12 to detect the analog signal, and the A / D converter 22 detects the signal from the detector 21. The detected analog signal is converted into a digital signal.

Subsequently, the level comparison unit 23 compares the level of the digital signal converted by the A / D converter 22 with the level of the transmission signal and the reception signal, respectively, and the time interval processing unit 24 performs the level comparison unit 23. The time interval between the transmission signal and the reception signal is detected from the result of comparison, and the detected time interval detects whether the wireless signal amplified by the first reception amplifier 12 is a transmission signal or a reception signal.

Then, if the radio signal detected by the time interval processing unit 24 is a transmission signal, the control unit 25 inputs / outputs the transmission signal according to a suitable transmission path, and amplifies at the corresponding time interval detected by the time interval processing unit 24. Each control signal is generated so as to be output to the first and second switches 11 and 11 'and the first amplifier 13.

Accordingly, the first amplifier 13 amplifies the amplified transmission signal by an output level according to the control signal output from the control unit 25 in the wireless signal detector 14 and outputs it through the second switch 11 '. Let's do it.

Next, referring to the operation of the wireless signal amplifying apparatus when the wireless signal is a reception signal, the second switch 11 'outputs a wireless signal normally input to the second reception amplifier 12' according to a switching operation. In this way, the second reception amplifier 12 ′ receiving the radio signal through the second switch 11 ′ removes noise and amplifies a predetermined level of the radio signal of an extremely low level so that the second amplifier 13 ′ And a part thereof is outputted to the radio signal detector 14.

Then, the wireless signal detector 14 detects whether the wireless signal amplified by the second reception amplifier 12 'is a transmission signal or a reception signal using the time interval between the transmission signal and the reception signal in the TDD scheme. If the signal is a received signal, a reception path and a control signal for amplifying the received signal are output to the first and second switches 11 and 11 'and the second amplifier 13', respectively.

That is, in the wireless signal detector 14, the detector 21 inputs the wireless signal amplified by the second reception amplifier 12 'and detects it as an analog signal, and the A / D converter 22 detects the detector 21. Converts the detected analog signal into a digital signal.

Subsequently, the level comparison unit 23 compares the level of the digital signal converted by the A / D converter 22 with the level of the transmission signal and the reception signal, respectively, and the time interval processing unit 24 performs the level comparison unit 23. The time interval between the transmission signal and the reception signal is detected from the result of comparison, and the detected time interval detects whether the wireless signal amplified by the second reception amplifier 12 'is a transmission signal or a reception signal.

Then, if the radio signal detected by the time interval processing unit 24 is a received signal, the control unit 25 inputs / outputs the received signal according to a suitable reception path, and amplifies at the corresponding time interval detected by the time interval processing unit 24. Each control signal is generated to be output to the first and second switches 11 and 11 'and the second amplifier 13'.

Accordingly, the second amplifier 13 ′ amplifies the amplified received signal by an output level according to a control signal output from the controller 25 in the wireless signal detector 14 and outputs the same through the first switch 11. Let's do it.

As described above, the present invention is a low-cost method for detecting a transmission signal or a reception signal by eliminating a conventionally expensive digital signal processor and a converter and using a time difference, that is, a time interval between the transmission signal and the reception signal in the TDD scheme. By constructing a wireless signal detector with a simple structure and amplifying the wireless signal detected by the wireless signal detector at a corresponding time interval, the overall power consumption can be reduced as well as the product price can be lowered by utilizing low-cost low power equipment. It is effective.

In addition, the main component blocks in the radio signal detector can be configured as a single IC chip, and each major component is composed of module units. There is an advantage.

In addition, the present invention is applicable when designing a line amplifier and a repeater for amplifying a radio signal using a TDD scheme, and may be used for indoor and outdoor use.

Claims (3)

In the wireless signal amplification apparatus for amplifying a wireless signal using a TDD method, First and second switches for switching the wireless signal according to the control signal according to the control path for input and output; First and second reception amplifiers which amplify a predetermined level while removing noise of the wireless signal input through the first and second switches; First and second amplifiers which amplify the radio signals amplified by the first and second reception amplifiers to an output level according to a control signal; Detecting whether a wireless signal amplified by the first and second reception amplifiers is a transmission signal or a reception signal by using a time interval between a transmission signal and a reception signal in a TDD scheme, and a transmission / reception path for the detected wireless signal, and A wireless signal detector for outputting a control signal for amplification to the first and second switches and the first and second amplifiers, respectively; A time division duplex wireless signal amplification apparatus using a time difference, characterized in that the power supply unit for supplying the necessary DC power to each of the building blocks. The method of claim 1, wherein the wireless signal detector, A detector which detects an analog signal by inputting a wireless signal amplified by the first and second reception amplifiers; An A / D converter converting the analog signal detected by the detector into a digital signal; A level comparison unit for comparing the level of the digital signal converted by the A / D conversion unit with the level of the transmission signal and the reception signal, respectively; The time interval between the transmission signal and the reception signal is detected from the result compared by the level comparison unit, and the wireless signal amplified by the first and second reception amplifiers using the detected time interval is a transmission signal or a reception signal. A time interval processing unit for detecting a, The first and second signals are generated by generating the respective control signals so that the transmission signal or the reception signal detected by the time interval processing unit is input / output according to a proper transmission / reception path and amplified at the corresponding time interval detected by the time interval processing unit. 2. A time division duplex wireless signal amplification apparatus using a time difference, characterized in that it comprises a switch and a control unit for outputting to the first and second amplifiers. The time division duplex method using time difference according to claim 2, wherein the A / D converter, the level comparator, the time interval processor, and the controller in the radio signal detector are configured as a single IC chip by a program integrated circuit. Wireless signal amplification device.