KR20200141565A - The radio frequency antenna amplifier to be separated to transmission and reception in wireless relay system for firefighting - Google Patents

Abstract

The present invention relates to an RF antenna amplifier having separated transmission and reception of a fire-fighting wireless relay system. According to the present invention, the RF antenna amplifier comprises: a line impedance matching unit; a first transmission/reception separation unit; a transmission amplification unit consisting of a first low-pass filter, a transmission-side low-noise amplifier, and a second low-pass filter; a second transmission/reception separation unit; a reception amplification unit; an antenna impedance matching unit; and an antenna. According to the present invention, bidirectional transmission and reception is possible.

Description

RF antenna amplifier with separate transmission/reception of wireless relay system for fire fighting {THE RADIO FREQUENCY ANTENNA AMPLIFIER TO BE SEPARATED TO TRANSMISSION AND RECEPTION IN WIRELESS RELAY SYSTEM FOR FIREFIGHTING}

The present invention relates to an RF antenna amplifier in which the transmission and reception of a fire fighting wireless relay system installed on a fire line is separated, and more particularly, it is installed on a fire line underground or above each building to receive a signal transmitted from the relay system. The present invention relates to an RF antenna amplifier in which transmission and reception of a fire fighting wireless relay system that transmits or receives a signal received through an antenna and transmits it to a relay system is separated.

Various firefighting equipment is installed in the building in case of fire. Among the firefighting equipment installed for firefighting, in the case of radios, radio waves cannot be transmitted from the ground to the basement, so in the event of a fire, it is necessary to install a radio system to give commands to each other.

In general, in the ground, the communication distance can be determined by the output of the radio itself, but in communication between the ground and the basement, the communication distance is shortened due to the shaded area formed in the underground section, which may cause a problem that calls cannot be made smoothly In particular, in the event of a fire, if it is not possible to make a radio call between the ground and the ground, various problems may occur because a command between the ground and the ground is impossible.

On the fire line, an antenna for sending and receiving signals to and from the radio is installed, and a line amplifier for amplifying a signal transmitted or received by the antenna is installed. The line amplifier amplifies the signal and transmits the signal to a radio or command room. These line amplifiers are installed underground and above the building.

As the line amplifier is mainly used in terminals such as toilets or elevators, the length of the cable becomes longer, and it is difficult to use a separate amplifier because it is an externally exposed type and cannot be considered aesthetically. Also, in the case of an antenna, there is a problem in that only a signal transmitted from the relay system must be transmitted through the antenna or a signal transmitted from the outside through a separate receiving antenna must be transmitted to the relay system.

Registered Patent Publication No. 10-0807820 (registered on February 20, 2008) Patent Publication No. 10-2008-0043364 (published on May 16, 2008) Registered Patent Publication No. 10-1729016 (registered on April 17, 2017) Public Utility Model Publication No. 20-2017-0001385 (released on April 18, 2017)

The present invention has been conceived to solve the above problems, and an object of the present invention is to provide an RF antenna amplifier in which transmission and reception of a fire fighting wireless relay system installed in a terminal of a fire fighting radio line is separated.

In addition, an object of the present invention is to provide an RF antenna amplifier in which transmission and reception of a fire fighting wireless relay system capable of bidirectional transmission and reception through an antenna or through which an antenna transmits a signal is separated.

In order to achieve the above object, the present invention is an RF antenna amplifier in which transmission and reception of a fire fighting wireless relay system installed on a fire line is separated, wherein the RF antenna amplifier transmits a signal transmitted through a fire line or an antenna A line impedance matching unit for transmitting a signal received through the line impedance matching unit; A first transmission/reception separation unit for separating a signal transmitted from the line impedance matching unit or a signal transmitted through an antenna; A first low-pass filter for filtering the signal transmitted from the first transmission/reception separating unit, a low-noise amplifier on the transmission side for amplifying the signal filtered by the first low-pass filter, and a signal amplified by the low-noise amplifier on the transmission side A transmission amplifying unit comprising a second low-pass filter for filtering at a predetermined frequency; A second transmission/reception separation unit for separating a signal transmitted through the transmission amplification unit or a signal received through an antenna; A third low-pass filter for filtering the signal transmitted from the second transmission/reception separating unit, a receiving-side low-noise amplifier for amplifying a signal filtered by the third low-pass filter, and a signal amplified by the receiving-side low-noise amplifier A reception amplifier configured with a fourth low-pass filter for filtering at a predetermined frequency; An antenna impedance matching unit for transmitting a signal transmitted from the second transmission/reception separation unit or a signal received through an antenna; And an antenna connected to one end of the antenna impedance matching unit to transmit and receive signals. It provides an RF antenna amplifier with separate transmission and reception of a fire fighting wireless relay system.

In the present invention, a power detector for detecting and separating DC power transmitted through a fire line, branched from the front end of the line impedance matching unit, and a constant voltage regulator for supplying the DC power detected and separated by the power detector at a constant voltage. It characterized in that the configured power supply is further installed.

In the present invention, the power supply unit is further provided with a DC power inlet so that DC power can be applied between the power detector and the constant voltage regulator.

In the present invention, the low-noise amplifier is characterized in that, even when an over-signal input is input, no over-output appears more than the designed output signal.

The present invention has an advantage in that there is no problem of spoiling aesthetics because the antenna amplifier does not protrude to the outside because the amplifier is built-in together with the antenna installed in the terminal of the fire fighting radio line.

In addition, the present invention has the advantage of being able to supply power used for the amplifier and the transmission/reception separation circuit using its own line.

In addition, the present invention has the advantage of enabling bidirectional transmission and reception in which signals are transmitted through one antenna amplifier or signals are received through an antenna.

In addition, the present invention has an advantage in that it is easy to install an antenna amplifier in the field because DC power can be supplied through power transmitted through a fire line.

1 is a schematic diagram of a fire fighting wireless relay system in which an antenna amplifier according to the present invention is installed.
2 is a block diagram of an antenna amplifier according to the present invention.

Hereinafter, the configuration and operation of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a fire fighting wireless relay system in which an antenna amplifier according to the present invention is installed, and FIG. 2 is a configuration diagram of an antenna amplifier according to the present invention.

1 is a schematic diagram of a fire fighting radio communication system equipped with an antenna amplifier according to the present invention. As shown in the drawing, a wireless relay system for fire fighting is typically a distributor 2 for branching the main fire line 200 to each floor by being connected to a controller (not shown) installed in an underground disaster prevention room, and a distributor ( It consists of an antenna amplifier (1) installed in the fire line 100 branching for each floor connected to 2) to transmit and receive signals.

2 is a diagram of the antenna amplifier 1. Transmission and reception signals and power are supplied together through the fire line 100. A power supply unit 80 connected to the branch fire line 101 branched from the fire line 100 to supply power, a line impedance matching unit 10 connected to the fire line 100, and a line impedance matching unit ( 10), a first transmission/reception separation unit 20 for separating transmission/reception signals, a transmission amplification unit 30 for amplifying and transmitting a signal transmitted from the first transmission/reception separation unit 20 to the antenna side, and a relay system A second transmission/reception separation unit 40 for separating a signal transmitted through the controller of or separating a signal received through the antenna 70, and amplifying and transmitting a signal transmitted from the second transmission/reception separation unit 40 An antenna impedance matching unit 60 for transmitting a signal transmitted from the second transmission/reception separation unit 40 or a signal received through the antenna 70, and an antenna impedance matching unit 60 ) Is connected to one end of the antenna 70 for transmitting and receiving signals.

The power supply unit 80 branches at the front end of the line impedance matching unit 10, and detects the power transmitted through the fire line 101 and separates it into DC power, and a power detector 81 and a power detector 81 It is composed of a constant voltage regulator 83 for regulating the power supplied through the constant DC power, and is supplied to the circuit through the DC power supply line 84. In addition, when power is not supplied, a DC power inlet 82 for supplying power to the circuit using a built-in battery (not shown) or the like is further provided. The power detector 81 is a component for detecting and separating a constant voltage for driving circuits constituting the first transmission/reception separation unit 20 and the second transmission/reception separation unit 40. The power detector 81 detects and separates the power supplied to the fire line 101 and transmits it to the constant voltage regulator 83, and the constant voltage regulator 83 adjusts to the power required for driving various circuits of the antenna amplifier, To supply power. The input voltage (Vcc) is typically 5V.

The line impedance matching unit 10 is for transmitting a signal transmitted from the controller of the relay system, and transmits the transmitted signal by impedance matching to the first transmission/reception separation unit 20 so that an optimum signal is transmitted.

The signal transmitted by the line impedance matching unit 10 through impedance matching is transmitted to the first transmission/reception separation unit 20. The first transmission/reception separation unit 20 transmits the transmitted signal to the transmission amplification unit 30, and transmits the received signal to the line impedance matching unit 10. The first transmission/reception separation unit 20 can transmit and receive at the same time using a bidirectional separation circuit so that it can be applied even when a transmitted signal and a received signal pass simultaneously.

The transmission amplification unit 30 is a configuration for filtering and amplifying the signal transmitted through the first transmission/reception separation unit 20 and then transmitting it to the antenna 70. The transmission amplification unit 30 amplifies a first low-pass filter 31 for primary filtering the signal transmitted from the first transmission/reception separation unit 20 and a signal filtered by the first low-pass filter 31 And a second low-pass filter 33 for filtering the signal amplified by the transmitting-side low-noise amplifier 32 for a predetermined frequency and a second low-pass filter 33 for filtering the signal amplified by the transmitting-side low-noise amplifier 32. The LNA (Low Noise Amplifier) 32 is a weak or noisy signal filtered through the low pass filter 31 even when the signal transmitted from the controller of the relay system is weak or the signal has a lot of noise. This is a configuration for amplifying and transmitting to the antenna 70. Since the low-noise amplifier 32 amplifies with low noise, even when an over-signal is input, the output is not over-output more than the designed signal.

The second transmission/reception separation unit 40 is a configuration for separating transmission and reception so that the signal transmitted through the transmission amplification unit 30 can be transmitted to the antenna side or the signal transmitted from the antenna 70 side can be transmitted to the relay system side. The second transmission/reception separation unit 40 can transmit and receive simultaneously using a two-way separation circuit so that it can be applied even when a transmitted signal and a received signal pass simultaneously.

The reception amplifying unit 50 is a component for filtering and amplifying a signal transmitted through the antenna 70. The reception amplification unit 50 includes a third low-pass filter 51 for filtering a signal transmitted from the second transmission/reception separation unit 40, and a reception for amplifying the signal filtered by the third low-pass filter 51 It is composed of a side low-noise amplifier 52 and a fourth low-pass filter 53 for filtering the signal amplified by the receiving-side low-noise amplifier 52 at a predetermined frequency. The reception amplification unit 50 filters the signal received through the antenna 70 into a low-band frequency so that the optimal signal can be transmitted to the relay system.

The second transmission/reception separation unit 40 transmits the transmission signal through impedance matching from the antenna impedance matching unit 60 so that the signal transmitted to the antenna may be impedance-matched and transmitted as an optimal signal. The antenna impedance matching unit 60 also transmits a signal by performing impedance matching in order to transmit an optimal signal to the second transmission/reception separation unit 40 on the signal received through the antenna 70.

As described above, the present invention is not limited to the above-described embodiments, and modifications are apparent by those of ordinary skill in the art without departing from the technical spirit of the present invention claimed in the claims. It is possible, and such modifications are within the scope of the present invention.

1: antenna amplifier 2: splitter
10: line impedance matching unit 20: first transmission/reception separation unit
30: transmission amplification unit 31: first low-pass filter
32: low-noise amplifier on the transmitting side 33: second low-pass filter
40: second transmission/reception separation unit
50: reception amplification unit 51: third low-pass filter
52: receiver-side low-noise amplifier 53: fourth low-pass filter
60: antenna impedance matching unit 70: antenna
80: power supply unit 81: power detector
82: DC power inlet 83: constant voltage regulator
84: DC power supply line
100: fire line 101: branch fire line
102: transmitting side fire line 103: receiving side fire line
104: antenna fire line
200: main fire line

Claims (4)

In the RF antenna amplifier in which the transmission and reception of the fire fighting wireless relay system installed on the fire line is separated,
The RF antenna amplifier,
A line impedance matching unit for transmitting a signal transmitted through a fire line or transmitting a signal transmitted through an antenna;
A first transmission/reception separation unit for separating a signal transmitted from the line impedance matching unit or a signal transmitted through an antenna;
A first low-pass filter for filtering the signal transmitted from the first transmission/reception separating unit, a low-noise amplifier on the transmission side for amplifying the signal filtered by the first low-pass filter, and a signal amplified by the low-noise amplifier on the transmission side A transmission amplifying unit comprising a second low-pass filter for filtering at a predetermined frequency;
A second transmission/reception separation unit for separating a signal transmitted through the transmission amplification unit or a signal received through an antenna;
A third low-pass filter for filtering the signal transmitted from the second transmission/reception separating unit, a receiving-side low-noise amplifier for amplifying a signal filtered by the third low-pass filter, and a signal amplified by the receiving-side low-noise amplifier A reception amplifier configured with a fourth low-pass filter for filtering at a predetermined frequency;
An antenna impedance matching unit for transmitting a signal transmitted from the second transmission/reception separation unit or a signal received through an antenna; And
An antenna connected to one end of the antenna impedance matching unit to transmit and receive signals;
RF antenna amplifier with separate transmission and reception of a fire fighting wireless relay system, characterized in that consisting of.
The method of claim 1,
Consists of a power detector for detecting and separating DC power transmitted through the fire line and branching from the front end of the line impedance matching unit, and a constant voltage regulator for supplying the DC power detected and separated by the power detector at a constant voltage. RF antenna amplifier with separate transmission and reception of a fire fighting wireless relay system, characterized in that the power supply is further installed.
The method of claim 2,
The power supply unit, the RF antenna amplifier for transmitting and receiving a separate transmission and reception of a fire fighting wireless relay system, characterized in that further provided with a DC power inlet so that DC power can be applied between the power detector and the constant voltage regulator.
The method of claim 1,
The low noise amplifier,
RF antenna amplifier with separate transmission and reception of a fire fighting wireless relay system, characterized in that, even when an over-signal input is input, no over-output appears more than a designed output signal.

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