KR19990073082A - Transmission network enhancement apparatus of communication - Google Patents

Abstract

The transmission network expansion device of the disclosed communication system uses a modem having a real-time high-capacity compression rate and a transmission rate and a module having a transmission network matching function to serve as a base station using only an RF module and the above-described device. It's about making it work with partial modules.

The apparatus of the present invention receives and processes data in the form of compressed digital data through a transmission network to restore an RF signal, upconverts and amplifies the recovered RF signal, radiates it through an antenna, and receives an RF signal transmitted from a terminal. After amplifying and downconverting the data, the base station converts the data into compressed digital data and transmits it to the switching center through the transmission network, and converts the voice signal processed by the switching device into an RF signal, and converts the converted RF signal into compressed digital data. It is composed of an exchange station that converts the data into a form and then transmits the data of the compressed digital data form transmitted from the base station to the base station through the transmission network.

Accordingly, the present invention provides a compact implementation of signal transmission and reception parts for transmitting and receiving signals by connecting the RF processing part of the base station and the digital processing part of the switching center through a transmission network, or directly connecting the base station directly behind the current antenna, or It is possible to form an integrated module with an antenna, and to provide an effect that one base station system is implemented by connecting a transmission network and a power supply thereto.

Description

Transmission network enhancement apparatus of communication system

The present invention relates to a transmission network extension device of a communication system.

More specifically, by using a modem having a real-time high-capacity compression rate and a transmission rate and a module having a network matching function, the base station can be miniaturized, and at the same time, all types of transmission networks can be connected to the base station so that data can be transmitted between terminals. The present invention relates to a transmission network extension device of a system.

1 is a block diagram schematically illustrating a conventional communication system, as illustrated, an RF processor 20 for amplifying an RF signal transmitted and received through an antenna 10 and converting a frequency of an RF signal; The RF processor 20 performs a signal processing on the frequency converted RF signal and transmits the signal to the exchanger 50, and then processes the signal transmitted from the exchanger 50 using a digital processing method and then the RF processor 20. It consists of a digital processing unit 30 for outputting.

Reference numeral 40 denotes a transmission line connection unit to match the digital processing unit 30 and the transmission network so that data can be smoothly transmitted and received between the digital processing unit 30 and the switching device 50.

The RF signal generated by the above-described digital processor 30 refers to a signal such as a base band signal, for example.

In the general digital mobile communication system having the above-described configuration, the switching device 50 and the base station BTS are connected by wire lines such as E1 and T1 through the transmission line connection part 40.

At this time, the switching device 50 transmits the data in the form of a packet compressed voice signal to the digital processing unit 30 of the base station. The digital processing unit 30 of the base station generates an RF signal to radiate the signal through the antenna 10 using a unique digital processing scheme.

In this case, the above-described digital processing method may include various methods such as IMT2000, CDMA, TDMA, and AMPS.

Meanwhile, the RF signal generated by the digital processor 30 is transmitted to the RF processor 20. The RF processor 20 then amplifies and converts these RF signals into a frequency that is easy to transmit on the air, and radiates onto the air through the antenna 10.

On the other hand, a brief description of the reverse process of the above-described process, first, the signal generated on the terminal is transmitted to the RF processing unit 20 of the base station through the antenna 10, the RF processing unit 20 amplified and down-converted the frequency Lowers.

As described above, the RF processor 20 converts the signal received through the antenna to have a low frequency and then outputs the signal to the digital processor 30, and the digital processor 30 converts the RF signal into a compressed packet data. Next, it is transmitted to the exchanger 50 through the E1, T1 wired network.

At this time, the transmission line connection unit 40 matches the digital processing unit 30 and the wired network so that the digital data output from the digital processing unit 30 can be smoothly transmitted to the exchange apparatus 50.

The wired network described above is shown in the figure as a transmission network.

However, the base station in the prior art as described above has a digital processing part and an RF processing part and is a collection of control parts for driving them, and in the case of an outdoor type in order to enable its own magnetic operation, a heat sink ( Additional devices such as heat sinks, power supplies, environmental monitoring devices, controls, security devices, etc. are needed.

Of course, even indoor type, indoor type equipment, fire fighting equipment, storage batteries, etc. are required.

Therefore, in order to implement an existing base station, a separate building must be provided in the case of the outdoor type, and in the case of the indoor type, there is a problem that the scale becomes large enough to consume one floor of the building.

Of course, at present, each mobile communication service provider has practically significant effects by extending the service range by introducing a repeater-type device in the shaded area to overcome the technical limitations described above. It is not a complete solution.

The repeater has no signal processing at all, and has only the purpose of amplifying the electric field strength of the RF signal emitted from the base station to increase service coverage. The call capacity depends solely on the capacity of the mortgage station. It is reasonable to classify it as an additional device of the existing base station system.

Accordingly, an object of the present invention is to locate the digital processing part in charge of the call processing to solve the above-mentioned problem at a remote location, compress the RF signal generated at the digital processing part located at the remote location, and convert the RF signal into a digital signal. It transmits to the module that compresses, decompresses, and RFizes the signal, and processes the signal in the base station's RF processing part and emits it on the air. The present invention provides a transmission network expansion apparatus of a communication system for transmitting to a digital processing part of an exchange through the digital processing part of the switching center, and digitally processing the transmission at the switching center.

1 is a block diagram schematically illustrating a conventional communication system;

2 is a block diagram for explaining a transmission network extension device of the present invention communication system;

3 is an internal block diagram of a signal transmission and reception apparatus applied to FIG. 2.

* Description of Signs of Main Parts of Drawings *

100: base station

110: antenna

120: RF processing unit

130: first signal transmission and reception unit

200: exchange office

210: second signal transmission and reception unit

220: digital processing unit

230: exchange device

a: modem

b: matching module

In order to achieve the above object, the present invention provides a communication system in which a plurality of base stations are connected to a single exchange station through a transmission network so that communication between mobile terminals can be performed, and the apparatus of the present invention provides digital data compressed through a transmission network. Receives the data in the form and restores it to the RF signal, amplifies and upconverts the recovered RF signal, radiates it through the antenna, converts the RF signal transmitted from the mobile terminal into data in the form of compressed digital data and exchanges it through the transmission network. Switching station that converts the signal processed by the switching device into data in the form of compressed digital data and transmits it to the base station through the transmission network, and receives the data in the form of compressed and signaled digital data transmitted by the base station. Characterized in that the configuration.

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

FIG. 2 is a block diagram illustrating a transmission network expansion apparatus of the present invention communication system, and FIG. 3 is an internal block diagram of a signal transmission and reception apparatus applied to FIG. 2.

As shown, the communication system of the present invention has a plurality of base stations 100 are connected to the switching center 200 like the general communication system, the configuration of the present invention is different from the general case as follows: do.

First, the base station 100 receives data in the form of digital data compressed through a transmission network, restores an RF signal, amplifies and upconverts the recovered RF signal, radiates it through an antenna, and compresses an RF signal transmitted from a terminal. The data is converted into data in the form of digital data, and transmitted to the switching center 200 through the transmission network. The detailed configuration is as follows.

An RF signal is generated by amplifying and downconverting a signal received by the antenna 110, and an RF processor 120 for upconverting and amplifying the RF signal to radiate through the antenna and the RF processor 120 output from the above-described RF processor 120. Transmitting the compressed digital data form data generated by converting the RF signal to the switching center 200, receiving the compressed digital data form data transmitted from the switching center 200, restored to the RF signal and transmitted to the RF processing unit The first signal transmitting and receiving unit 130 is composed of.

Next, the switching center 200 converts the voice signal transmitted from the switching device 230 to an RF signal, converts the converted RF signal into data in the form of compressed digital data, and transmits the converted RF signal to the base station 100 through a transmission network. In addition, the data of the compressed digital data form transmitted from the base station 100 is restored to the RF signal and output to the switching device 230. The detailed configuration is as follows.

A second signal that receives the above-described data in the form of compressed digital data of the base station 100 through the transmission network to restore the RF signal, converts the RF signal into data in the form of compressed digital data and then transmits to the base station 100 Transmitting and receiving unit 210 and the RF signal restored by the above-described second signal transmitting and receiving unit 210 is digitally transmitted to the exchange unit 230, and the audio signal processed by the exchange unit 230 to the RF signal The digital processing unit 220 converts the signal to the second signal transmission and reception unit 210.

The first signal transmitter / receiver 130 and the second signal transmitter / receiver 210 include a modem (a) having a real-time large-capacity compression ratio and a transmission rate, the base station 100 and the exchange station 200 connected through a transmission network. It consists of a matching module (b) for matching the base station 100 and the switching center 200 to the transmission network to transmit and receive signals between each other.

The transmission network used in the present invention includes not only a conventional wired network but also a wireless network such as a WLL, and an infrastructure network having a local loop (LOCAL LOOP) in a broad sense.

In addition, the exchange apparatus 50, 230 used conventionally and in this invention means the exchange station which we generally speak, and was called the exchange apparatus for convenience in order to raise the objective of this invention.

The operation of the transmission network expansion apparatus of the communication system according to the present invention configured as described above will be described in more detail with reference to the accompanying drawings.

First, when a signal to be transmitted from the switching device 230 of the switching center 200 to the terminal is transmitted to the digital processing unit 220, the digital processing unit 220 receives the signal and performs digital processing to receive an RF signal which is an analog signal. It generates and transmits to the second signal transmission and reception unit 210.

Then, the second signal transmitter / receiver 210 converts the RF signal into data in the form of compressed digital data and transmits it to the base station 100 through the transmission network.

On the other hand, the base station 100 receives the data in the form of compressed digital data transmitted through the above-described process through the first signal transmission and reception unit 130, the first signal transmission and reception unit 130 is received The data in digital data form is restored to an RF signal. The RF processor 120 of the base station 100 receives and amplifies the restored RF signal, upconverts it, and then radiates it onto the air through the antenna 110. do.

Of course, the signal transmitted from the terminal is transmitted to the switching center 200 through the above-described process, which is briefly described as follows.

The RF processor 120 of the base station 100 amplifies and downconverts a signal received through the antenna 110 and then transmits the signal to the first signal transmitter and receiver 130.

Then, the first signal transmitting and receiving unit 130 converts the down-converted RF signal into data in the form of compressed digital data and transmits it to the switching center 200 through the transmission network.

Meanwhile, the second signal transmitter / receiver 210 of the switching center 200 receives the data of the compressed digital data type described above and restores the original RF signal to the digital processor 220.

Then, the digital processor 220 processes the restored RF signal and transmits the signal to the exchange apparatus 230.

On the other hand, in the present invention, the digital processing unit installed in the remote place was installed in the base station in the prior art, because of the performance limitation of the wired network. In other words, it was because of the preconceived notion that only a relatively low-compression digital data such as compressed digital data data can be transmitted to a conventional wired network.

However, various compression technologies of the present invention have been developed such that not only data in the form of compressed digital data can be transmitted over a wired network, but also can be transmitted over a wired network by compressing an RF signal. The parts were placed at remote locations and formed as part of the exchange.

Here, the first and second signal transmitters and receivers 130 and 210 are shown in FIG. 3 and have a network matching function with a modem (a) having a large compression rate and transmission rate in real time as described in the configuration. It consists of a module (b) having it can be directly applied to a communication system having a wired network currently being used. In this case, instead of a wired network, a wireless network, and moreover, an infrastructure network of a local loop type may be applied.

In other words, although not attached to the drawing, if the base station is miniaturized and attached to the antenna, or if the base station is integrated with the antenna, the base station is provided with a connector portion for selectively connecting the wired network as well as the wireless network and the infrastructure network. Any transmission network among the various transmission networks as described above may be selected and used.

Therefore, as described above, the present invention can achieve several effects as follows.

First, a base station having the same size as a current DR repeater can be implemented. Of course, small sized base stations with call processing capacity, such as PIC0 base stations, have emerged, but since they have a digital processing part, there is a limit to reducing the size. In the present invention, a digital processing unit is provided in an exchange station. By doing so, the size of the base station can be minimized.

Second, if the signal transmission / reception part is compactly implemented to connect the RF processing part of the base station and the digital processing part of the switching center through a transmission network to transmit and receive a signal, it may be connected directly behind the current antenna or formed integrally with the antenna. It is possible to implement a module, and when only a transmission network and a power supply are connected, there is an effect that one base station system is made.

Third, the power loss and noise figure caused by the feeder in the conventional method is not bad, there is an effect that the RF characteristics in the communication system is greatly improved.

Fourth, there is no need for a separate device for the management of the user, such as the roof or bare land of the building is a small or almost no need to rent.

Fifth, there is an effect that relocation and new construction can be made freely by coping with extreme RF environment change in urban area due to the expansion of buildings.

Claims (5)

In a communication system in which a plurality of base stations are connected to one switching center through a transmission network to allow communication between terminals, The base station, Receives data in the form of compressed digital data through the transmission network and restores it into an RF signal, amplifies and upconverts the recovered RF signal, radiates it through an antenna, and converts the RF signal transmitted from the terminal into data in the form of compressed digital data. Convert it and transmit it through the transmission network to the switching center, The exchange office, Converts a voice signal transmitted from an exchange apparatus into an RF signal, converts the converted RF signal into data in the form of compressed digital data, and then transmits it to the base station through a transmission network, and transmits data in the form of compressed digital data transmitted from the base station. Transmission network expansion device of a communication system, characterized in that the signal processing to output to the switching device. The method of claim 1, wherein the base station, An RF processor for amplifying and downconverting a signal received through the antenna, upconverting and amplifying the restored RF signal to radiate through the antenna; And The first signal converts the RF signal output from the RF processing unit into data in the form of compressed digital data and transmits the converted RF data to the switching center, and restores the data in the form of compressed digital data transmitted from the switching center to the RF signal and outputs the RF signal to the RF processing unit. Transmission network expansion device of a communication system, characterized in that the transmission and reception unit. The method of claim 1, wherein the exchange station, A second signal transmitter and receiver which receives data in the form of compressed digital data of the base station through a transmission network, restores the RF signal, converts the RF signal transmitted from the exchange apparatus into data in the form of compressed digital data, and transmits the data to the base station; ; And And a digital processor for digitally processing the RF signal restored by the second signal transmitter / receiver and transmitting the digital signal to a switching device, and converting the voice signal received from the exchanger into an RF signal and transmitting the RF signal to the second signal transmitter / receiver. Transmission network expansion device of a communication system. The method of claim 2 or 3, wherein the first signal transmission and reception unit and the second signal transmission and reception unit, Modem with real-time large compression rate and transmission rate; And And a matching module for matching the base station and the switching center to the transmission network so as to transmit and receive a signal between the base station and the switching center connected through the transmission network. The method of claim 1, wherein the transmission network, Transmission network extension device of a communication system, characterized in that the infrastructure network is all forms of data transmission in the form of wired or wireless network or local loop.