KR100601779B1 - An bidirectional relay apparatus for radio and FM signal - Google Patents

Abstract

The present invention relates to a two-way radio and FM signal relay device, the radio and FM signals received in the transceiver to transmit the FM signal and the radio signal where it is difficult to transmit the broadcast signal due to the grounding effect such as underground or underground of the building. Amplifies according to the frequency and transmits it to the transceiver installed underground.

Bidirectional, Radio, FM, Signal, Underground, Detect, Block

Description

Bidirectional relay apparatus for radio and FM signal

1 is a block diagram of a bidirectional relay apparatus according to an embodiment of the present invention.

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

10, 110: transceiver 20, 100: coupler

30,90: filter portion 40: detection portion

50: switching unit 60: first amplifier

70: second amplifier 80: FM amplifier

120: power supply

The present invention relates to a two-way radio and FM signal relay apparatus, and more particularly, to a device for relaying radio signals and FM broadcast signals where the wireless signal is difficult to be transmitted by the grounding effect, such as the basement of the building or subway.

As the city grows in size, in order to resolve traffic shortages and to solve residential shortages, underground vehicles such as subways are increasing and skyscrapers with underground facilities are needed.

In addition, wireless communication is frequently used due to the development or necessity of communication. Among these wireless communications, the use of radios is increasing due to the need for subway management or building management. These radios use bands of 216-225 MHz or 430-470 MHz. However, since the output of the radio is weak to be transmitted to the basement, radio communication between the basement and the ground was impossible.

In order to solve this impossibility of radio communication, a wireless relay device which connects the ground and the ground using a leakage cable (LCX) has been proposed.

However, the conventional wireless repeater using the leakage cable in this way amplifies all radio signals transmitted and received via the leak cable, there is a problem that power is always applied to the wireless relay device, which consumes a lot of power. In addition, due to the directivity of the leakage cable, there is a problem in that a shadow area occurs and the coverage area is biased in one direction.

The present invention has been made to solve the problems of the above-described wireless relay apparatus, and an object of the present invention is to provide a two-way radio and FM signal relay apparatus capable of blocking poor reception radio waves and relaying FM broadcasts.

In addition, an object of the present invention is to provide a two-way radio and FM signal relay device that can automatically block poor reception radio waves to reduce unnecessary power consumption and to reduce the area of sound range.

In order to achieve the above object, the bidirectional radio and FM signal relay apparatus according to the present invention, the bidirectional radio and FM signal relay device, the first transmission and reception unit for transmitting and receiving radio signals and / or FM signal; A first combiner for coupling the received signal to the first transmitter / receiver; A first filter unit for separating the signal coupled by the first combiner for each band; An FM amplifying unit for amplifying the FM signal among the signals separated by the first filter unit; A first amplifier configured to amplify the radio signal received from the signal separated by the first filter unit; A second combiner for coupling the FM signal amplified by the FM amplifier and the radio signal amplified by the first amplifier; A second filter unit separating the signal coupled from the second combiner into an FM signal and a radio signal; A second transmitter / receiver for transmitting a signal separated by the second combiner to the outside; A detector configured to measure the strength of the radio signal received by the second transmitter / receiver, coupled by the second combiner, and separated by band from the second filter unit; A switching unit which blocks the signal when the intensity of the signal detected by the detector is less than a predetermined value, and transmits the signal to the second amplifier when the signal is greater than or equal to a predetermined value; And a second amplifier for amplifying the radio signal transmitted from the switching unit and transferring the amplified radio signal to the first filter unit.

Here, the above-described switching unit blocks a signal less than -13dB, and preferably transmits a signal of -13dB or more to the second amplifier.

It is also preferable that the above-mentioned switching unit is a diode switch or an RF switch.

DETAILED DESCRIPTION OF THE EMBODIMENTS Hereinafter, components and operation embodiments of the present invention will be described with reference to FIG.

1 is a block diagram of a bidirectional relay apparatus according to an embodiment of the present invention.

The transceiver 10 and 110 are composed of a leakage cable and an antenna, and transmit and receive radio signals and FM signals through the transceiver 10 and 110.

The combiners 20 and 100 combine radio signals and FM signals.

The filter unit 30 or 90 filters the received signal by frequency.

The amplifiers 60 and 70 amplify the radio signal.

The FM amplifier 80 amplifies the FM signal.

The detector 40 measures the strength of the radio signal received through the second filter unit 90.

The switching unit 50 switches so that only the first amplifier 60 or the second amplifier 70 selectively operates according to the strength of the radio signal detected by the detector 40.

The power supply unit 120 supplies power required for each of the above-described components.

First, relay operation of the radio signal will be described.

A signal transmitted from a first radio (not shown) located on the ground (hereinafter referred to as a transmission signal) is received by the first transmitter / receiver 10.

The signal received at the first transmitter / receiver 10 is combined with the FM signal received at the first transmitter / receiver 10 by the first combiner 20 and then filtered according to the frequency at the first filter unit 30. .

The transmission signal filtered by the first filter unit 30 is amplified into a signal having a predetermined output by the first amplifier unit 60 and transferred to the second filter unit 90.

The signal transmitted to the second filter unit 90 is combined in the second combiner 100 and then transmitted through the leakage cable and the antenna of the second transmitter / receiver 110, and a second radio (not shown) Receiving the signal from the first radio is transmitted to the second radio.

The radio communication transmission from the second radio to the first radio will now be described.

The signal transmitted from the second radio (hereinafter referred to as a reception signal) is input to the detection unit 40 after passing through the second transmission / reception unit, the second combiner 100, and the second filter unit 90.

The detector 40 measures the strength of the received signal. In the present embodiment, it is assumed that a signal of less than -13 dB is blocked and only more signals are transmitted to the second amplifier 70. However, the present invention is not limited thereto, and it may be set whether or not to be blocked within a range of -15 to -10 dB depending on the installation environment.

When the strength of the received signal detected by the detector 40 is less than -13 dB, the switching unit 50 blocks the received signal so that only the transmission signal of the first amplifier 60 is transmitted, and the strength of the received signal is-. When 13 dB or more, the operation of the first amplifier 60 is stopped and the second amplifier 70 is operated. The switching unit 50 may be a diode switch element, RF switch element may be used, but the present invention is not particularly limited thereto. As such, the first amplifier 60 or the second amplifier 70 selectively operates according to the switching operation of the switching unit 50, thereby eliminating unnecessary power waste.

The received signal amplified by the second amplifier 70 is transmitted to the first transceiver through the first filter unit 30, the first combiner 20, and the first transmitter / receiver 10.

Next, the transmission of the FM signal will be described.

The FM signal transmitted from the FM broadcasting station is received by the first transmitter / receiver 10, the radio signal is combined with the first combiner 20, filtered by the first filter unit 30, and then the FM amplifier 80. Amplified).

The amplified FM signal is transmitted underground through the antenna of the second filter unit 90, the second combiner 100, and the second transmitter / receiver 110.

In the above, embodiments of the present invention have been described in detail with reference to the accompanying drawings. However, it is noted that the present invention is not limited to the above detailed description of the invention, but various modifications and changes are possible within the spirit and spirit of the appended claims.

According to the present invention, the radio communication signal and the FM signal can be transmitted to the basement with high quality.

In addition, according to the present invention, it is possible to selectively operate the first amplifier or the second amplifier to eliminate unnecessary power waste.

In addition, according to the present invention, by using the directional leakage cable and the non-directional antenna at the same time it is possible to solve the sound region and expand the coverage area.

Claims (3)

In the two-way radio and FM signal relay device, A first transmitter / receiver for transmitting / receiving either or both of a radio signal and an FM signal; A first combiner for coupling the received signal to the first transmitter / receiver; A first filter unit for separating the signal coupled by the first combiner for each band; An FM amplifying unit for amplifying the FM signal among the signals separated by the first filter unit; A first amplifier configured to amplify the radio signal received from the signal separated by the first filter unit; A second combiner for coupling the FM signal amplified by the FM amplifier and the radio signal amplified by the first amplifier; A second filter unit separating the signal coupled from the second combiner into an FM signal and a radio signal; A second transmitter / receiver for transmitting a signal separated by the second combiner to the outside; A detector configured to measure the strength of the radio signal received by the second transmitter / receiver, coupled by the second combiner, and separated by band from the second filter unit; A switching unit which blocks the signal when the intensity of the signal detected by the detector is less than a predetermined value, and transmits the signal to the second amplifier when the signal is greater than or equal to a predetermined value; And And a second amplifier for amplifying and transmitting the radio signal transmitted from the switching unit to the first filter unit. The apparatus of claim 1, wherein the switching unit blocks a signal less than -13 dB and transmits a signal greater than or equal to -13 dB to a second amplifier. The two-way radio and FM signal relay device of claim 1, wherein the switching unit is a diode switch or an RF switch.

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