KR0153422B1 - Radio repeating system - Google Patents

Abstract

The present invention relates to an underground wireless relay system, in which a broadcast signal and a pager signal received through a reception antenna are passed through a splitter, respectively, through a band pass filter and a high-frequency amplifier, and then combined in a combining panel to receive the signal through a leaky coaxial cable. In the first duplexer connected to the transmitting / receiving antenna and the preamplifier, the transmission of the leakage coaxial cable and the radio wave through the coupling panel is performed to transmit / receive the second duplexer through the transmitting high frequency amplifier and the receiving high frequency amplifier. By performing the transmission and reception, the reception of the pager signal for broadcast reception and radio call in the dead zone of radio waves as well as the transmission and reception of radio waves for radiotelephone and fire-wireless radio are smoothly performed.

Description

Underground Complex Wireless Relay System

1 is a block diagram showing a schematic configuration of the present invention.

2 is a detailed block diagram of a receiver of the present invention.

Figure 3 is a block diagram showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: receiving antenna 2: splitter

3,4,7,8,13,15,16,18,21: bandpass filter

5,6,14,17: High frequency amplifier 9,20: Combined board

10 transmit and receive antenna 11: preamplifier

12,19,21: Duplexer

The present invention provides a radio wave, pager, seguilla and fire fighting radio in areas where radio waves are shielded, such as tunnels, underground parking lots, underground shopping malls, subway premises, and the transmission and reception of radio signals to ground wireless communication networks is weak. The present invention relates to an underground wireless relay system that enables smooth transmission and reception.

In recent years, due to severe parking difficulties, many underground parking lots have been built, and many public structures such as shopping malls are being installed underground. In addition, many people use tunnels due to traffic problems, and during traffic jams, they often have to drive at low speeds for a long time, as well as the number of people using the subway, and the life time on the subway is rapidly increasing. This is a well known fact.

Therefore, even in radio interference areas such as tunnels, underground parking lots, underground shopping malls, subways, etc., pager signal reception for broadcasting and pager call should be carried out smoothly. In addition, the transmission and reception of fire-fighting radio signals for the safety of persons living in radio wave dead zones should be facilitated.

However, conventionally, only AM and FM signals are relayed to receive radio broadcasts underground, and transmission and reception of pager, segula, and fire-fighting radio signals are separately relayed, and equipment is being invested in an inefficient manner.

Accordingly, an object of the present invention is to provide an underground hybrid wireless relay system which allows the transmission and reception of broadcast reception, radio pager, portable telephone, vehicle telephone, and fire fighting radio in a dead zone of radio waves.

To this end, in the present invention, the broadcast signal and the pager signal received through the reception antenna are splitter, respectively, through the band pass filter and the high-frequency amplifier, and then combined in the combining panel so that the reception is possible through the leaky coaxial cable. The first duplexer connected to the amplifier transmits and receives the leakage coaxial cable and the radio wave through the coupling panel while transmitting and receiving with the second duplexer through a high frequency amplifier for transmission and a high frequency amplifier for reception. In the dead zone of, the reception of the pager signal for broadcasting and radio calls as well as the transmission and reception of radio waves for radiotelephone and fire station radio is smoothly performed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram schematically showing the overall configuration. The receiving antenna 1 exposed to the outside receives the FM broadcast signal and the pager signal and passes them to the splitter 2 while passing through the first and second band pass filters 3 and 4, respectively. The FM broadcast signal and the pager signal are separated into the FM broadcast signal and the pager signal, and the first and second high frequency amplifiers 5 and 6 are respectively amplified while passing through the first and second low frequencies. While passing through the pass filter (7) (8), it is detected for each signal band and mixed in the first combiner (9).

On the other hand, the signal noise ratio of the signal transmitted and received from the preamplifier (Pre Amp) 11 connected to the transmission and reception antenna 10 is improved, and then transmitted to the first duplexer 12 to allow smooth transmission and reception while again performing a third band pass filter ( 13), the reception path of the third high frequency amplifier 14 and the fourth band pass filter 15 and the transmission of the fifth band pass filter 16, the fourth high frequency amplifier 17 and the sixth band pass filter 18 It passes to the second duplexer 19 via the path.

In addition, while receiving the FM broadcast signal and the pager signal from the first combining unit 9, the second combining unit 20 transmits and receives the second duplexer 19 and Segula while passing through the third duplexer 21. After combining with the fire fighting radio signal from the fire fighting radio terminal box 23 which is transmitted and received through the seventh band pass filter 22, the radio wave is transmitted or received through the leaky coaxial cable 29 to the radio dead zone. .

2 is a view illustrating a configuration of a receiver for receiving an FM broadcast signal and a pager signal, so that radio waves received from the reception antenna 1 are separated in parallel in a wire line hybrid of the distributor 2. Then, only the FM broadcast signal of 88 to 108 MHz is detected while passing through the first band filter 3, and only the pager signal for the pager of 160 to 168 MHz is detected while passing through the second band filter 4. In this case, the first and second variable attenuators 3a and 4a are appropriately attenuated only by voltage values regardless of frequency.

The FM broadcast signal and the phaser signal respectively passed through the first and second variable attenuators 3a and 4a respectively pass through the high frequency amplifiers 5 and 6, respectively, to some extent of the weakened share during signal transmission. After the amplification, the modulated waveform is extracted while passing through the first and second detectors 7a and 8a and the first and second automatic gain controllers (AGC) 7b and 8b. The control signal is output to the first and second variable attenuators 3a and 4a while determining the intensity of the input wave.

The first and second low pass filters 7 and 8 pass through the first and second detectors 7a and 8a and amplify the FM broadcast signal and the pager signal in a band lower than 120 MHz and 175 MHz, respectively. Only the waveform is detected to be mixed with each other in the first coupling plate 9.

In the preamplifier 11 connected to the transmit / receive antenna 10, the first duplexer 12 performs amplification to compensate for the signal noise ratio of the received radio wave and amplifies the signal noise ratio due to degradation during transmission of the transmitted signal. In accordance with the operation associated with), the transmission and reception of the segula are smoothly performed.

The third band pass filter 13 connected to the output side of the first duplexer 12 detects a receiving rate factor of 870 to 890 MHz, and then the third high frequency amplifier 14 and the fourth band pass filter 15. The signal is transmitted through the second duplexer 19 to the leaky coaxial cable through the second duplexer 19.

On the other hand, the sixth bandpass filter 18 connected to the second duplexer 19 detects a signal for transmission in the 825 to 845 MHz band, and the fourth high frequency amplifier 17 and the fifth bandpass filter 16 are connected. By passing through the first duplexer 12 to ensure that the correct signal is compensated for the transmission.

Meanwhile, the mixed signal of the FM broadcast signal and the pager signal from the first combiner 9 is mixed in the segula and the second combiner 20 transmitted through the second duplexer 19, and again During the transmission and reception through the three-duplexer 21, the terminal resistor or antenna is combined at the end of the fire terminal box 23 and the fire-wireless signal of 449-449.5 MHz band transmitted / received through the seventh band pass filter 22. Radio waves are transmitted and received even in the radio wave dead zone via the connected leaky coaxial cable 24.

3 is a view illustrating a configuration of a power feeding cable according to another embodiment of the present invention, in which an FM broadcast signal and a pager signal received through the reception antenna 1 are transmitted and received through the transmission and reception antenna 10 as well. It is to deliver the Seulla smoothly.

The signal received from the reception antenna 1 is improved in the preamplifier 31 so that the signal noise ratio is improved, and then the FM broadcast signal and the pager signal are detected while passing through the low pass filter 32, and the transmission and reception antenna 10 The received signal among the signals received through the duplexer 33 connected to the signal is detected by the receiving tax rate of the 870-890 MHz band while passing through the bandpass filter 34, and then the signal-to-noise ratio is increased in the preamplifier 35, so that the duplexer ( 36, the signal transmitted from the duplexer 36 is detected only the transmission rate of 825 ~ 845MHz band through the bandpass filter 37, so that the signal-to-noise ratio is increased in the preamplifier 38 In addition, the FM signals transmitted through the duplexer 36 and the FM broadcast signal and the pager signal received through the low pass filter 32 are transmitted and received through the duplexer 39 from the outside. After passing through the first DC power supply unit 40 for supplying the DC power to the preamplifiers 31, 34, 38 as operating power, the second DC power supply unit 41 passes through the duplexer 42. The FM broadcast signal and the pager signal may be transmitted to the divider 2 of FIG. 1 and may be transmitted and received with the first duplexer 12 of FIG.

In addition to the page signal for the pager, a reception path for receiving a pager signal having a frequency band of 322 to 328 MHz may be additionally connected between the distributor 2 and the first combiner 9.

Therefore, in the underground composite wireless relay system of the present invention, the FM broadcasting signal and the pager signal for the pager signal received from the receiving antenna, as well as the seula and the fire-wireless signal for the wireless telephone transmitted and received through the transmitting / receiving antenna, are leaky coaxial lines. By transmitting the cable to the radio dead zone by using a cable and outputting it to the outside, accurate information is exchanged anywhere and anytime.

Claims (3)

The first and second band pass filters 3 and 4 separately detect and detect the FM broadcast signal and the pager signal in the radio wave received through the splitter 2 from the reception antenna 1, and the FM broadcast signal and In the first and second low pass filters (7) (8), which receive the pager signals through the high frequency amplifiers (5), (6), the underground combined radio relay system allows these signals to be mixed in the first combining section (9). In the third and fourth detection in the radio wave received through the first duplexer 12 connected to the transceiving antenna 10 via the pre-amplifier 12, the receiving tax rate is transmitted to the second duplexer (19) Fifth and sixth bandpass filters which detect the transmission rate of the transmission transmitted through the leakage coaxial cable from the second and second duplexers 19 and 14 to the first duplexer 12; (16) (18) and the first coupler (9) and the second duplexer (19) are connected in common to enable transmission and reception of signals. It is connected to the second coupling panel 20 and the second coupling panel 20 so as to mix and transmit a fire fighting radio signal transmitted from the wireless fire-fighting terminal box 23 through the seventh band pass filter 22. Underground composite wireless relay system comprising a third duplexer (21), and a leaky coaxial cable (24) connected to the third duplexer (21) for relaying with the outside. The underground hybrid wireless relay system according to claim 1, wherein the signal transmitted and received by the third duplexer 21 includes an FM broadcast signal, a pager signal for a wireless pager, a segula for a wireless telephone, and a fire radio signal. . The receiving antenna (1) is connected to the duplexer (39) via a preamplifier (31) and a low pass filter (32), and a band pass in the duplexer (33) connected to the transmitting and receiving antenna (10). The duplexer 39 is connected to the duplexer 39 via the duplexer 36 through the reception paths of the filter 37 and the preamplifier 35 and the transmission paths of the preamplifier 38 and the bandpass filter 37. In step 39, the first and second power supply units 40 and 41 pass through the duplexer 42, and the FM broadcast signal and the pager signal are supplied to the splitter 2 while transmitting and receiving the seulala for the first duplexer. Underground composite wireless relay system, characterized in that configured to exchange with (12).