KR19990046718A - Line amplifier - Google Patents

Abstract

The disclosed line amplification circuit is a line amplifier installed in the middle of a leaky coaxial cable extending from a medium / large repeater to act as an antenna and amplifying the attenuated RF signal. Through this, RF signal and power are simultaneously transmitted and supplied.

DC power is mixed with the RF signal output from the medium / large repeater and the first RF signal / power mixer is mixed and output through the leakage coaxial cable, and the mixed power is blocked from being input to the medium / large repeater. Outputs RF signal transmitted to medium / large repeater, and outputs RF signal and power separated by RF signal / power separator separated through RF cable / power separator to line amplifier and outputs by line amplifier Output RF signal through leakage coaxial cable, DC / DC converter converts power separated from RF signal / power separator into DC / DC converter to supply power to line amplifier, output from line amplifier to next coaxial cable The second RF signal / power mixer mixes the DC power output from the DC / DC converter to the RF signal Ulreo mixed power is cut off so as not to leak the input amplifier, and outputs the RF signal to be transmitted on a leaky coaxial cable at the next stage in the line amplifier.

Description

Wireless communication line amplifier circuit {Line amplifier}

The present invention relates to a wireless communication line amplifying circuit for amplifying the RF signal attenuated in the middle of the leaky coaxial cable when the RF signal is transmitted bidirectionally to the subway or underground building through the leaky coaxial cable in the wireless communication repeater. The present invention relates to a wireless communication line amplification circuit for supplying and operating power to a line amplifier by simultaneously transmitting an RF signal and a power through a leaky coaxial cable without providing a supply facility.

With the development of information and communication technology, changes in life styles, and economic growth, the form of communication culture is changing rapidly.In the information age, the demand for high-speed information transmission is regardless of time and place. Mobile communication, which can receive communication services in and mountainous areas, is becoming an important communication medium indispensable in daily life.

Unlike the wide area method, which uses a service area as one large area, a mobile communication system divides an entire service area into a small service area called a cell and allocates a certain number of radio channels available within each cell. do.

Cell sites installed in each cell are centrally controlled in a switching system, and the repeater receives a low output voice data transmitted from the base station and the terminal for smooth communication between the base station and the user terminal, thereby receiving a frequency of a desired band. It selects and amplifies and transmits an RF signal to a wireless terminal and a base station.

However, there are many regions other than the service right that do not yet belong to the cell area of the wireless base station, and more wireless base stations and repeaters should be installed to secure all the areas other than the service right as the mobile communication service area.

On the other hand, in case of transmitting the RF signal of the repeater and the subway or underground building bi-directionally, a leak coaxial cable serving as an antenna is connected to the repeater, and the leak coaxial cable is extended to the subway premises and the underground building, and so on. The RF signal of the terminal is transmitted through the leaky coaxial cable.

The leaky coaxial cable is connected to the repeater to extend into the subway premises and underground, and when the length of the extended coaxial cable is long, the RF signal is attenuated by the leaky coaxial cable, which degrades the call quality.

Therefore, a line amplifier is installed in the middle of the leaky coaxial cable to amplify and transmit the attenuated RF signal again.

1 is a view schematically showing a conventional wireless communication line amplifier circuit.

As shown in the figure, transmission and reception antennas 1 and 1a for transmitting and receiving RF signals using a medium, and RF signals of a desired frequency band among RF signals received through the transmission and reception antennas 1 and 1a are filtered and amplified. Then, the repeater 10 for outputting the RF signals to the antennas 1a and 1 to repeat the RF signal, and the first AC / converting AC power supplied from the outside into DC power to supply the operating power to the repeater 10. The DC power converter 20, the leakage coaxial cable 15, which acts as an antenna and is extended from the repeater 10 to transmit an RF signal between the wireless terminal and the repeater 10, and the leakage coaxial cable 15 Line amplifier 30 for amplifying and bidirectionally transmitting the RF signal transmitted through the second, and a second AC / DC power converter for converting the AC power supplied from the outside into a DC power supply to the line amplifier 30 as operating power It consisted of (22).

In the conventional wireless communication line amplification circuit configured as described above, the area of the mobile communication service is provided by installing the first transmission / reception antenna 1 in an area where radio wave reception sensitivity is good and the second transmission / reception antenna 1a in an area where reception sensitivity is weak. Expand widely.

In addition, the radio communication service area can be expanded more widely by transmitting the RF signal deeply in the subway or underground building through the leakage coaxial cable 15 and the line amplifier 30 to the repeater 10.

However, the above-described conventional technology is provided with a separate AC / DC power converter 22 in the line amplifier 30 for amplifying the RF signal installed on the leaky coaxial cable 15 for extending the wireless communication service area to operate the DC. In order to supply power, AC power must be supplied to the AC / DC power converter 22 through separate power cables 21 and 23, and the DC power output from the AC / DC power converter 22 is converted into a line amplifier ( It is necessary to supply the water supply switching devices 31 and 31a and the amplifying devices 33 and 33a of 30.

Therefore, whenever the line amplifier 30 is installed to expand the service line, the power cables 21 and 23 should be installed at the same time as the leakage coaxial cable 15 to increase the equipment cost, as well as the power cables 21 and 23. Since the power on the line cannot be changed after installing the power supply (21, 23) when installing the power supply should be optimized, such as the need to optimize the power supply.

Accordingly, an object of the present invention is to provide a wireless communication line amplification circuit that can be provided to the RF signal and power along the leakage coaxial cable at the same time, and to simply extend the communication line without having an AC power supply line separately.

The wireless communication line amplification circuit of the present invention for achieving the above object, the RF signal of the desired frequency band among the RF signals received through a plurality of transmit and receive antennas after filtering and amplifying and outputting the RF signal to the plurality of antennas Repeater medium / large repeater, AC / DC power converter for supplying DC operation power to the medium / large repeater, extending from the medium / large repeater to transmit RF signal between the wireless terminal and the repeater and leakage acting as an antenna A wireless communication line amplification circuit having a line amplifier installed in the middle of a coaxial cable and the leaky coaxial cable and amplifying the attenuated RF signal transmitted through a leaky coaxial cable, and bidirectionally transmitted, the output of the medium / large repeater DC power is mixed with RF signal and output with the coaxial cable. 1 is the RF signal / power mixers, which blocks the power from being input to the medium / large repeater and outputs the RF signal to be transmitted on a leaky coaxial cable in the medium / large repeater; An RF signal / power separator for separating the RF signal and the power transmitted through the leakage coaxial cable and outputting the separated RF signal to the line amplifier, and outputting the RF signal output from the line amplifier to the leakage coaxial cable; A DC / DC converter for DC / DC converting the power separated by the RF signal / power separator to supply the operating power to the line amplifier; And mixing the DC power output from the DC / DC converter with the RF signal output from the line amplifier to the leakage coaxial cable of the next stage, outputting the leakage coaxial cable of the next stage, and mixing power to the leakage amplifier. And a second RF signal / power mixer for outputting the RF signal transmitted through the leakage coaxial cable of the next stage to the line amplifier.

1 is a view schematically showing a configuration of a conventional wireless communication line amplifier circuit,

2 is a view showing the configuration of a wireless communication line amplifying circuit according to the present invention,

3 is a detailed circuit diagram showing the configuration of the RF signal / power mixer of FIG.

4 is a detailed circuit diagram illustrating a configuration of the RF signal / power separator of FIG. 2.

* Explanation of symbols for the main parts of the drawings

100: medium and large repeater 110, 110a: transmit and receive antenna

120, 330: RF Signal / Power Mixer 130, 140: AC / DC Power Converter

200: leakage coaxial cable 300: line amplifier

310: RF signal / power separator 320: DC / DC converter

C1, C2, C11, C12: condenser L1, L11: coil

Hereinafter, with reference to the accompanying drawings of Figure 2 will be described in detail the wireless communication line amplification circuit of the present invention.

2 is a view showing a wireless communication line amplification circuit according to an embodiment of the present invention.

Here, reference numerals 110 and 110a denote transmission and reception antennas for transmitting and receiving RF signals using radio waves, and reference numeral 100 denotes filtering and amplifying RF signals of a desired frequency band among RF signals received through the transmission and reception antennas 110 and 110a. And then it is a medium / large repeater for outputting the antenna (110a, 110) to relay the RF signal.

Reference numeral 200 is a leaky coaxial cable extending from the medium / large repeater 100 to transmit an RF signal between the wireless terminal and the repeater 10 and acting as an antenna, and the reference numeral 300 is a middle of the leaky coaxial cable 200. It is a line amplifier that is installed in the amplified RF signal attenuated while being transmitted through the leakage coaxial cable 200 to transmit in both directions.

Reference numeral 120 denotes that the power is mixed with the RF signal output from the medium / large repeater 100 to be output to the leakage coaxial cable 200 and the mixed power is blocked from being input to the medium / large repeater 100. And a first RF signal / power mixer for outputting the RF signal transmitted through the leakage coaxial cable 200 to the medium / large repeater 100.

Reference numerals 130 and 140 denote AC / DC power converters that convert the input AC power into DC power to supply the medium / large repeater 100 and the RF signal / power mixer 120, respectively.

Reference numeral 310 outputs the RF signal transmitted through the leakage coaxial cable 200 and the RF signal separated by separating the power to the line amplifier 300 as well as the RF signal output by the line amplifier 300 to the coaxial leakage RF signal / power separator output to the cable (200).

Reference numeral 320 denotes a DC / DC converter for DC / DC conversion of the power separated by the RF signal / power separator 310 to supply the line amplifier 300 as operating power.

Reference numeral 330 mixes the power output from the DC / DC converter 320 to the RF signal output from the line amplifier 300, outputs the leakage coaxial cable 200 at the next stage, and the power to be mixed is a line amplifier. It is a second RF signal / power mixer to block the input to the 300 and to output the RF signal transmitted through the leakage coaxial cable 200 of the next stage to the line amplifier 300.

In the wireless communication line amplification circuit of the present invention configured as described above, AC / DC power converters 130 and 140 convert AC power to DC power, and then the medium / large repeater 100 and the first RF signal. The medium / large repeater 100 filters and amplifies an RF signal of a desired frequency band among RF signals received through the transmission / reception antennas 110 and 110a while supplying DC power to the power / mixer 120. After transmitting to the transmitting and receiving antennas (110a) and (110) to relay the RF signal, and also outputs the RF signal relayed to the leakage coaxial cable 200 through the first RF signal / power mixer 120 and leak coaxial The RF signal transmitted from the cable 200 through the first RF signal / power mixer 120 is input and relayed.

Here, as shown in FIG. 3, the first RF signal / power mixer 120 has a capacitor C1 connected between the medium / large repeater 100 and the leakage coaxial cable 200 and the capacitor C1. ) And the leakage coaxial cable 200 are connected so that DC power output from the AC / DC power converter 140 is applied through the ground capacitor C2 and the coil L1.

Therefore, the RF signal output from the medium / large repeater 100 is output through the capacitor C1 of the first RF signal / power mixer 120 and then output from the AC / DC power converter 140 to the ground capacitor C2 and Mixed with the DC power passed through the coil (L1) is output to the leakage coaxial cable 200, and also output from the AC / DC power converter 140, the DC power passed through the ground capacitor (C2) and coil (L1) The RF signal input through the leakage coaxial cable 200 is input to the medium / large repeater 100 through the condenser C1 without being blocked by the capacitor C1 and being input to the medium / large repeater 100.

As such, the mixed signal of the RF signal and the DC power transmitted through the leakage coaxial cable 200 is input to the RF signal / power separator 310 to separate the RF signal and the power, and the separated power is the line amplifier 300 and The RF signals output from the line amplifier 300 as well as input to the DC / DC converter 320 are output to the leakage coaxial cable 200 through the RF signal / power separator 310.

That is, in the RF signal / power separator 310, as shown in FIG. 4, the capacitor C11 is connected between the leaky coaxial cable 200 and the line amplifier 200, and the leaky coaxial cable 200 and the line are connected to each other. The connection point of the amplifier 200 is connected to the input terminal of the DC / DC converter 320 through the ground capacitor C12 and the coil L11.

Therefore, the RF signal is input to the line amplifier 300 through the condenser C11 of the RF signal / power separator 310 among the mixed signals of the RF signal and the DC power transmitted through the leaky coaxial cable 200, and the DC power is It is blocked by the capacitor C11 and is not input to the line amplifier 300.

In addition, the mixed signal of the RF signal and the DC power transmitted through the leakage coaxial cable 200 is input to the DC / DC converter 320 through the coil (L11) and the capacitor (C12) to supply power, the line The RF signal output from the amplifier 300 is transmitted to the leakage coaxial cable 200 through the condenser C11 of the RF signal / power separator 310.

Power separated from the RF signal / power separator 310 and input to the DC / DC converter 320 is DC / DC converted and supplied to the line amplifier 300 as operating power, and a second RF signal / power mixer ( The RF signal / power mixer 330 is input to the 330, and the DC / DC converter 320 is output to the RF signal output from the line amplifier 300 like the first RF signal / power mixer 120. Mixing DC power to output to the next stage of the coaxial cable 200, and also to block the DC power to be mixed to the line amplifier 300 is not input, and also input through the next stage of the coaxial cable 200 Passing the RF signal is input to the line amplifier 300.

On the other hand, it has been described as an example that is provided with two AC / DC power converters 130, 140 to supply the DC power to the medium / large repeater 100 and the first RF signal / power mixer 120.

In the present invention, the present invention is not limited thereto, and the DC power is generated by one AC / DC power converter to supply DC power to the medium / large repeater 100 and the first RF signal / power mixer 120. It may be.

As described above, the present invention has the effect of reducing the construction cost by operating the line amplifier by simultaneously supplying the RF signal and power through the leakage coaxial cable for transmitting the RF signal, without installing a separate AC power supply line.

Claims (4)

A medium / large repeater for filtering and amplifying an RF signal of a desired frequency band among RF signals received through a plurality of transmit / receive antennas and outputting the RF signal to the plurality of antennas, and the DC operation power to the medium / large repeater. AC / DC power converter for supplying the leakage coaxial cable is installed in the middle of the leakage coaxial cable and the leakage coaxial cable extending from the medium / large repeater and transmitting the RF signal between the wireless terminal and the repeater to act as an antenna In the wireless communication line amplification circuit having a line amplifier for amplifying the attenuated RF signal transmitted through the transmission in both directions, The DC power is mixed with the RF signal output from the medium / large repeater to be output to the leakage coaxial cable, and the mixed power is blocked from being input to the medium / large repeater, and the RF signal transmitted through the leakage coaxial cable is blocked. A first RF signal / power mixer to output to the medium / large repeater; An RF signal / power separator for separating the RF signal and the power transmitted through the leakage coaxial cable and outputting the separated RF signal to the line amplifier, and outputting the RF signal output from the line amplifier to the leakage coaxial cable; A DC / DC converter for DC / DC converting the power separated by the RF signal / power separator to supply the operating power to the line amplifier; And The DC power output from the DC / DC converter is mixed with the RF signal output from the line amplifier to the leakage coaxial cable of the next stage and output to the leakage coaxial cable of the next stage, and the mixed power is not input to the leakage amplifier. And a second RF signal / power mixer for outputting the RF signal transmitted through the next leakage coaxial cable to the line amplifier. The power supply of claim 1, wherein the first RF signal / power mixer is mixed; And a separate AC / DC power converter for supplying DC power to the medium / large repeater and a separate AC / DC power converter. 2. The apparatus of claim 1, wherein the first and second RF signal / power mixers; A first capacitor is connected between the medium / large repeater and the line amplifier and the leakage coaxial cable, and a DC power is connected to the connection point of the first capacitor and the leakage coaxial cable through a first ground capacitor and a first coil. Wireless communication line amplifier circuit, characterized in that the. 2. The RF power supply of claim 1, wherein the RF signal / power separator comprises: a; An eleventh capacitor is connected between the leaky coaxial cable and the line amplifier, and a connection point of the leaky coaxial cable and the line amplifier is connected to an input terminal of the DC / DC converter through a twelfth ground capacitor and an eleventh coil. Wireless communication line amplifier circuit.