KR200387975Y1 - Mobile communication relay device that use microwave frequency and optic fiber cable - Google Patents

Abstract

The present invention relates to a mobile communication relay apparatus using a microwave frequency and an optical line, the microwave donor equipment is located in the base station tower and connected to the optical repeater donor equipment in the base station through the optical line to transmit the base station signal through the optical line. After receiving and converting into microwave signal, the converted microwave frequency is wirelessly transmitted to the microwave remote device, and the transmitted signal is received by the microwave remote device and converted into the commercial frequency band, and then the remote of the optical repeater through the optical path. It is a system that extends new coverage to the output of optical repeater transmitted to equipment. The system has overcome the disadvantages such as stable call quality, optical line laying, or excessive optical line cost by converting the optical link section to microwave frequency without using the optical line previously used in the optical repeater. Structural features of the system include a level compensation system that compensates for the frequency output of spatial waves lost by measuring the transmission loss of microwave frequencies in order to compensate for the microwave transmission loss caused by using the microwave frequency band in the optical line. It has a built-in automatic angle measurement system that can measure microwave frequency directivity at all times and manages it at higher level. It also has an automatic measurement system for space loss such as frequency attenuation caused by microwave loss in rainy weather.

Description

Mobile communication relay device that use microwave frequency and optic fiber cable

The present invention relates to a mobile communication relay apparatus using a microwave frequency and an optical line, and in detail, a base station connecting the base station antenna and the microwave donor equipment to the optical repeater donor equipment; It consists of a relay station that connects the relay station antenna and the microwave remote device to the optical repeater remote device to secure the existing optical repeater or new coverage by allowing the microwave donor device of the base station and the microwave remote device of the relay station to communicate wirelessly. It is a system to remove the economic problems caused by the installation of optical line to be installed at the time of installing the optical repeater and to provide easy, effective and stable mobile communication service in the metropolitan area and shadow area by using microwave frequency.

In general, a mobile phone is a system that implements a communication network by making transmission and reception with a base station by a high frequency, and is a terminal that communicates with another mobile communication terminal through the base station and a relay interposed between the base station and the terminal to perform a relay role. In this case, the mutual data communication is performed.

The repeater re-amplifies and transmits a signal of a base station or a signal transmitted from a terminal in order to cover a partial sound region or a region not covered by a base station signal, which is mainly caused by insufficient balance strength. It is a device that enables the call by transmitting the signal of the subscriber station which is installed, operated and moved to the base station in an optimal state.

In the above configuration of the radio path between the terminal and the base station, the loss of the radio wave path occurs between the terminal and the base station or the rotational loss and fading due to the complex configuration of the mobile communication environment and the shielding of buildings. In consideration of the small output, it amplifies and transmits the mutual signal between the terminal and the base station through the repeater to maintain a smooth call state.

That is, in order to reduce the loss and distortion between the base station and the terminal, as shown in FIG.

In other words, the existing optical relay equipment is to be connected to the optical fiber from the base station to the remote device in order to transmit the signal received from the base station to the remote device from the donor equipment connected to the base station by a high frequency coaxial cable.

Therefore, such a configuration up to now has an economic problem in that the optical line to be installed at the time of installing the existing optical repeater or optical repeater for securing new coverage had a problem.

The present invention is in consideration of the various problems as described above and the base station antenna and microwave donor equipment connected to the optical repeater donor equipment; It consists of a relay station that connects the relay station antenna and microwave remote device to the optical repeater remote device, so that the microwave donor device of the base station and the microwave remote device of the relay station can transmit and receive signals wirelessly. In order to use the optical repeater as it is, the donor equipment of the existing optical repeater installed inside the base station and the microwave donor equipment installed near the base station pylon or antenna transmit the signal using the optical path. Transmitter transmits to microwave remote equipment installed near antenna of optical repeater remote equipment. The signal received by the microwave remote device is connected to the existing optical repeater remote device by using the optical path, and the signal transmitted through the optical path radiates a signal to each terminal through the high power amplifier of the conventional optical repeater remote device. By transmitting the clear signal of the mobile phone base station using less optical path than the repeater, it solves the error that occurs during the transmission of the clear call and data with the optimal signal and also enables the video transmission.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the overall configuration of the present invention, in the mobile communication relay method, a base station having a base station antenna 12 and a microwave donor device 13 connected to an optical repeater donor device 11 ( 10); The relay station 20 connects the relay station antenna 22 and the microwave remote device 23 with the optical repeater remote device 21 to the microwave donor device 13 and the relay station 20 of the base station 10. The microwave remote equipment 23 is to send and receive signals wirelessly through the donor equipment transmitter and receiver 14 and the remote equipment transmitter and receiver 24.

The optical repeater using the microwave frequency is located within the base station 10, and receives the signal from the base station antenna 12, and the optical repeater also receives the signal to the base station antenna 12, the equipment 11, optical The repeater is also connected to the user equipment 11 by the optical path, and receives the transmission signal of the base station antenna 12 as an optical signal from the optical repeater equipment 11, and after the photoelectric conversion up-converted to the microwave frequency and then of the relay station 20 The donor equipment transmitter and receiver for transmitting to the microwave remote equipment 23 and receiving the terminal signal from the microwave remote equipment 23 at the microwave frequency and converting the frequency signal into an optical signal after converting the optical signal to the optical equipment. The microwave donor device 13 having the 14 and the base station 10 receive the transmitted signal at the microwave frequency and convert the frequency into an optical signal after down-converting the frequency. The remote control unit transmits the optical signal to the optical repeater remote device 21 and receives the terminal signal from the optical repeater remote device 21 as an optical signal and then converts the photoelectric conversion to the microwave frequency and transmits the microwave signal to the microwave donor device 13. It is connected to the microwave remote equipment 23 having the equipment transmitting and receiving unit 24, and the optical fiber remote control 23 and the optical path, and the signal transmitted from the donor equipment transmitting and receiving unit 14 from the microwave remote control equipment 23 After the photoelectric conversion into an optical signal, a high power amplification and service, and the optical repeater remote device 21 for transmitting the signal received from the terminal to the microwave remote equipment 23 after the photoelectric conversion.

Here, the microwave donor equipment includes a donor light module 131 which transmits and receives an optical signal of an optical repeater also connected to the base station antenna 12 as shown in FIG. 3 and the donor light module 131. A frequency up converter 133 for upconverting the received signal to a microwave frequency for transmission, and a microwave high power amplifier 134 for amplifying the microwave signal converted by the frequency up converter 133 to a high output. ), And a duplexer for band limiting the signal output from the microwave high power amplifier 134 and band limiting the signal transmitted from the remote device transmitter / receiver 24 of the microwave remote device 23 of the relay station 20. And the band-limited signal from the duplexer 135 is transmitted to the microwave remote equipment 23 through the donor equipment transceiver 14 and Low-noise signal received from the donor equipment transmitter and receiver 14 for receiving the signal transmitted from the remote equipment transmitter and receiver 24 of the equipment 23 and the microwave remote device 23 band-limited in the duplexer 135 A microwave low noise amplifier 136 to amplify, and a frequency down converter (137) for frequency down-converting the signal transmitted from the microwave low noise amplifier 136.

That is, the optical repeater is also connected to the user equipment 11 and the optical cable, the optical repeater received from the base station antenna 12 is also received as an optical signal through the wireless equipment 11, the received signal is a frequency up-converter 133 Is transmitted to the frequency up-converter 133 via an attenuator 132 for the proper input level. The transmitted signal is amplified upward at the microwave frequency to be transmitted to the microwave remote equipment 23 and transmitted to the microwave high power amplifier 134. The transmitted signal is amplified in high power in consideration of the loss of the radio section, and is band-limited through the duplexer 135 and transmitted to the microwave remote equipment 23 through the donor equipment transmitter / receiver 14.

In addition, the terminal signal transmitted from the microwave remote equipment 23 is input to the duplexer 135 through the donor equipment transceiver 14, and the band-limited terminal signal is amplified low noise high gain through the microwave low noise amplifier 136 Then it is transmitted to the frequency down converter 137. The signal converted to the original terminal use frequency through the frequency down converter 137 is adjusted to an appropriate level for all-optical conversion through the attenuator 138 and then transmitted to the donor light module 131. The transmitted signal is transmitted to the optical equipment also after the all-optical conversion through the donor optical module 131.

The microwave remote device 23 is a remote optical module 231 for transmitting and receiving an optical signal of the optical repeater remote device 21 connected to the relay station antenna 22, as shown in Figure 4 and the remote optical module 231 Frequency Up Converter 233 for upconverting and transmitting the signal received from the microwave to the microwave frequency, and microwave high power for amplifying the microwave signal converted in the frequency up-converter 233 to high power. An amplifier 234, a duplexer 235 for band-limiting the signal output from the microwave high power amplifier 234, and band-limiting the signal received from the microwave donor device 13, and a band in the duplexer 235 A remote device transmitter and receiver 24 for transmitting the restricted signal to the microwave donor device 13 and receiving the signal transmitted from the microwave donor device 13; Microwave low noise amplifier 336 for low-noise amplifying the signal received from the band-limited microwave donor equipment 13 in the flexure 235, and frequency downconverts the signal transmitted from the microwave low noise amplifier 336 It is composed of a frequency down converter (237).

That is, the optical repeater remote device 21 is connected to the optical cable through a cable, and the transmission signal of the base station 10 received from the microwave donor device 13 is limited to the band through the duplexer 235 and then the microwave low noise amplifier 336 is sent. The signal received by the microwave low noise amplifier 336 is amplified by a low noise high gain and then converted to a relay station transmission frequency via the frequency down converter 237 and adjusted to an appropriate level for photoelectric conversion via the attenuator 238. The adjusted signal is transmitted to the optical repeater remote device 21 after photoelectric conversion through the remote optical module 231.

In addition, the terminal signal transmitted as the optical signal from the optical repeater remote device 21 is photoelectrically converted through the remote optical module 231 and after being adjusted to an appropriate level through the attenuator 232 in order to up-convert to the original terminal signal. Is applied to the frequency up-converter 233. The applied terminal signal is upconverted to the microwave frequency and transmitted to the microwave high power amplifier 234 for transmission to the microwave donor equipment 13. The microwave high power amplifier 234 high frequency amplifies the input signal in consideration of the transmission loss in the wireless section, and then limits the band through the duplexer 235, and then the microwave donor equipment 13 through the remote device transmitter / receiver 24. To send.

As described above, the present invention can reduce the optical fiber cost by transmitting the optical fiber section of the conventional optical repeater using microwave frequency in the mobile communication and broadcasting service, and use the mobile optical base station using less optical fiber than the conventional optical repeater. By delivering a clear signal of, you can obtain a new effect of securing a clear call and data transmission service with an optimal signal.

1 is a system configuration diagram of a conventional optical repeater

2 is a block diagram showing the configuration of the present invention

Figure 3 is a block diagram showing the configuration of the donor equipment of the present invention

Figure 4 is a block diagram showing the configuration of a remote device of the present invention

♣ Explanation of symbols for the main parts of the drawing

10: base station 11: optical repeater also equipment 12: base station antenna

13: microwave donor equipment 14: donor equipment transceiver

20: relay station 21: optical repeater remote equipment 22: repeater antenna

23: microwave remote equipment 24: remote device transmitter and receiver

131: donor optical module 231: remote optical module 132,138,232,238: attenuator

133,233: Frequency upconverter 134,234: Microwave high power amplifier

135,235 Duplex 136,236: MicroAve Low Noise Amplifier

137,237: frequency down converter

Claims (3)

In the mobile communication relay device, It consists of a base station connecting the transmitting and receiving antenna and the microwave donor device as an optical repeater and a relay station connecting the microwave remote device and the transmitting and receiving antenna wirelessly with the microwave donor device of the base station as an optical repeater remote device. Mobile communication relay apparatus using a microwave frequency and optical line characterized in that. According to claim 1, wherein the microwave donor equipment,  Donor optical module for transmitting and receiving optical signals of the optical equipment also connected to the antenna, A frequency up-converter for converting the signal received from the donor optical module into microwave frequency and transmitting the signal; A microwave high power amplifier for amplifying the microwave signal converted by the frequency up-converter to a high output; A duplexer for band-limiting the signal output from the microwave high power amplifier and band-limiting the signal transmitted from the microwave remote device; An antenna for transmitting the band-limited signal from the duplexer to a microwave remote device and receiving a signal transmitted from the microwave remote device; A microwave low noise amplifier for low noise amplifying the signal received from the microwave limited remote band device in the duplexer; And a frequency down converter for frequency downconverting the signal transmitted from the microwave low noise amplifier. According to claim 1, wherein the microwave remote equipment, Remote optical module for transmitting and receiving the optical signal of the optical repeater remote equipment connected to the antenna, A frequency up converter for converting a signal received from the remote optical module into a micro-ave frequency and transmitting the signal; A microwave high power amplifier for amplifying the microwave signal converted by the frequency up-converter to a high output; A duplexer for band-limiting the signal output from the microwave high power amplifier and band-limiting the signal received from the microwave donor device; An antenna for transmitting the band-limited signal from the duplexer to the microwave donor device and receiving the signal transmitted from the microwave donor device; A microwave low noise amplifier for low noise amplifying a signal received from a band donor microwave donor device in the duplexer; And a frequency down converter for frequency downconverting the signal transmitted from the microwave low noise amplifier.