KR20090038739A - Apparatus for transmitting communication signal of cdma system - Google Patents

Abstract

A communications signal transmitting device for simply transmitting E1/T1 signal without a private line by using wireless communication between a switching center and a base station is provided to transmit communication signal after modulation/demodulation of the communication signal by using intermediate frequency. A base station transmits communications signal provided from a mobile terminal through a plurality of E1/T1 transmission path. A first repeater(11) modulates the communications signal by using the intermediate frequency after receiving the communications signal of the base station. The first repeater demodulates the modulated communications signal. The first repeater transmits the demodulation signal to the base station through the E1/T1 class transmission path. A second relay(13) demodulates the modulated signal supplied through the first repeater. The second relay transmits the demodulation signal to the switching center through the E1/T1 class transmission path. The second relay modulates the communications signal received from the switching center through the E1/T1 transmission path.

Description

Communication signal transmission device of mobile communication system {APPARATUS FOR TRANSMITTING COMMUNICATION SIGNAL OF CDMA SYSTEM}

The present invention relates to an apparatus for transmitting a communication signal of a mobile communication system, and more particularly, to an apparatus capable of simply transmitting an E1 / T1 signal without a dedicated line by using wireless communication between a base station and an exchange.

A general code division multiple access (CDMA) mobile communication system is composed of a mobile terminal, a base station (BTS), and a mobile switching center (MSC), as shown in FIG.

Here, the mobile terminal refers to a mobile phone, etc. Since the beginning of the mobile phone service, battery technology and low-power device technology has become smaller in size and less tax-free, and the maximum power of the mobile phone is 0.2W or more. The terminal makes a call between the opposite mobile terminal through the base station (BTS) and the switching center (MSC).

In addition, the switching center is connected between each base station through a plurality of E1 / T1 (2.048 Mbps / 1.544 Mbps) transmission path, and handles the call request of the mobile terminal transmitted from the multiple base stations until the end of the call Keep it up.

It also keeps track of all mobile terminal subscriptions and adds charges and keeps track of where the mobile terminal is registered.

It can be connected to a public switched telephone network (PSTN) to connect ordinary fixed-line telephones and mobile terminals, or can be connected to an exchange in another region to make a call between a mobile terminal and a mobile terminal in another region.

The base station is a device that manages the connection between the mobile terminal and the switching center. The base station of the CDMA method codes / decodes a voice signal supplied from the mobile terminal and transmits the same to the switching center.

At this time, since the communication between the base station and the switching center is made through a plurality of E1 / T1 (2.048 Mbps / 1.544 Mbps) transmission path, there was a problem that a separate cable or optical cable must be installed between a plurality of separate base stations and switching stations.

The present invention has been made to solve the above problems, and an object of the present invention is to remove the additional cable installation work through the wireless communication between the base station and the switching station to enable a simple communication between the base station and the switching station. An object of the present invention is to provide an apparatus and method for transmitting a communication signal.

Communication signal transmission apparatus of a mobile communication system according to an aspect of the present invention for achieving the above object,

A base station for transmitting a communication signal provided from a mobile terminal through a plurality of E1 / T1 transmission paths;

After receiving the communication signal of the base station provided through the E1 / T1 class transmission path, modulate and transmit using a predetermined intermediate frequency, receive and demodulate the modulated communication signal, and then demodulate the demodulated signal to the E1 / T1 level transmission path. A first repeater for transmitting to the base station via;

Demodulates a modulated signal supplied through the first repeater to transmit a demodulated signal to the switching center through the E1 / T1 level transmission path, modulates a communication signal received from the switching center through the E1 / T1 level transmission path, Including a second repeater for transmitting to one repeater, wherein the first repeater,

A first duplexer for receiving a communication signal of a base station received through an E1 / T1 level transmission path;

A modulator for modulating a communication signal received through the first duplexer using a predetermined intermediate frequency;

A second duplexer for transmitting an output signal of the output signal of the modulator to a second repeater through an antenna or receiving a modulated signal of a second repeater received through the antenna;

A demodulator for demodulating the modulated signal of the second repeater received through the second duplexer and passing the first duplexer to the base station through an E1 / T1 transmission path;

The second repeater,

A first duplexer for receiving a communication signal from an exchange station received through an E1 / T1 class transmission path;

A modulator for modulating a communication signal received through the first duplexer using a predetermined intermediate frequency;

A second duplexer for transmitting an output signal of the output signal of the modulator to a first repeater through an antenna or receiving a modulated signal of the first repeater received through the antenna;

And a demodulator for demodulating the modulated signal of the first repeater received through the second duplexer and passing the demodulated signal through the first duplexer to an exchange through an E1 / T1 level transmission path.

The modulation and demodulation between the first repeater and the second repeater may be performed based on a radio frequency (RF) communication protocol.

As described in the present invention, according to the present invention, communication between a base station and an exchange station is wirelessly transmitted by performing a demodulation demodulation by using an intermediate frequency of the communication signal transmitted through the E1 / T1 level transmission path between the base station and the exchange station. The effect of eliminating the extra cable installation work.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is a diagram showing the configuration of a communication signal transmission apparatus of a mobile communication system according to the present invention.

As shown in FIG. 2, a communication signal transmission apparatus of a mobile communication system according to the present invention includes a base station (BTS) for transmitting a communication signal provided from a mobile terminal (not shown) through a plurality of E1 / T1 level transmission paths. And a communication signal of a base station (BTS) provided through the E1 / T1 level transmission path, modulated and transmitted using a predetermined intermediate frequency, and receiving and demodulating the modulated communication signal. The first relay 11 transmitting the base station through the E1 / T1 transmission path and the modulation signal supplied through the first repeater 11 demodulates the demodulated signal through the E1 / T1 transmission path; MSC) and a second repeater 13 for modulating a communication signal received from the switching center (MSC) through the E1 / T1 level transmission path and transmitting the same to the first repeater 11.

Here, each of the first repeater 11 and the second repeater 13 includes a first duplexer IDU and a first duplexer IDU for controlling input and output of a communication signal received through an E1 / T1 level transmission path. A modulator MOD for modulating a communication signal received through a predetermined intermediate frequency and a second duplexer for controlling input and output of an output signal of the modulator MOD or an output signal of the second repeater 13. And a demodulator (DEMOD) for demodulating the modulated signal received through the second duplexer (ODU) and transmitting the demodulated signal to the base station (BTS) through an E1 / T1 level transmission path.

Here, the modulator MOD and the demodulator DEMOD are configured based on well-known RF communication protocols.

According to this configuration, first, a process in which the communication signal of the base station BTS is transmitted to the switching center MSC will be described.

That is, the base station (BTS) receiving the communication signal provided from the mobile terminal (not shown) is supplied to the first repeater 11 through the E1 / T1 level transmission path after encoding / decoding the received communication signal.

The first repeater 11 provides a communication signal of a base station (BTS) received through an E1 / T1 level transmission path to a modulator MOD through a first duplexer IDU, and the modulator MOD is The output signal of the first duplexer IDU is modulated based on a predetermined intermediate frequency.

In this case, a process of modulating a communication signal of a base station (BTS) to enable the RF communication is already known, and thus detailed description thereof will be omitted.

The output signal of the modulator MOD is output through the second duplexer ODU, and the output signal of the second duplexer ODU is supplied to the second repeater 13 through the antenna ANT1.

The first duplexer IOU of the second repeater 13 passes a modulated signal transmitted from the first repeater 11, and the passed modulated signal is provided to a demodulator DEMOD, and the demodulator DEMOD. Demodulates the modulated signal based on a predetermined intermediate frequency. In this case, the demodulator DEMOD is demodulated with the same signal as the communication signal provided through the base station BTS.

The demodulation signal of the demodulator DEMOD is passed through the second duplexer ODU, and the demodulated signal passed through the demodulator DEMOD is transmitted to the switching center MSC through the E1 / T1 level transmission path.

 Conversely, a process in which the communication signal of the switching center MSC is supplied to the base station BTS will be described.

The communication signal of the switching center (MSC) is provided to a modulator (MOD) through a second duplexer (ODU) of a second repeater 13 through an E1 / T1 level transmission path, and the modulator (MOD) is the first signal. The output signal of the two duplexer (ODU) is modulated based on a predetermined intermediate frequency.

At this time, the process of modulating the communication signal of the switching center (MSC) to enable the RF communication is already known technology and a detailed description thereof will be omitted.

The output signal of the modulator MOD is output through the first duplexer IDU, and the output signal of the first duplexer IDU is supplied to the first repeater 11 through the antenna ANT2.

The second duplexer IOU of the first repeater 11 passes a modulated signal transmitted from the second repeater 13, and the passed modulated signal is provided to a demodulator DEMOD, and the demodulator DEMOD. Demodulates the modulated signal based on a predetermined intermediate frequency. At this time, the demodulator DEMOD is demodulated with the same signal as the communication signal provided through the switching center MSC.

The demodulation signal of the demodulator DEMOD is passed through the first duplexer IDU, and the passed demodulation signal is transmitted to the base station BTS through the E1 / T1 level transmission path.

As such, those skilled in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing to the technical spirit or essential features of the present invention. Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive. The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. .

1 is a schematic diagram showing a general CDMA communication network.

2 is a diagram showing the configuration of a communication signal transmission apparatus of a mobile communication system according to the present invention.

Claims (4)

A base station for transmitting a communication signal provided from a mobile terminal through a plurality of E1 / T1 transmission paths; After receiving the communication signal of the base station provided through the E1 / T1 class transmission path, modulate and transmit using a predetermined intermediate frequency, receive and demodulate the modulated communication signal, and then demodulate the demodulated signal to the E1 / T1 level transmission path. A first repeater for transmitting to the base station via; Demodulates a modulated signal supplied through the first repeater to transmit a demodulated signal to the switching center through the E1 / T1 level transmission path, modulates a communication signal received from the switching center through the E1 / T1 level transmission path, And a second repeater for transmitting to one repeater. The method of claim 1, wherein the first repeater, A first duplexer for receiving a communication signal of a base station received through an E1 / T1 level transmission path; A modulator for modulating a communication signal received through the first duplexer using a predetermined intermediate frequency; A second duplexer for transmitting an output signal of the output signal of the modulator to a second repeater through an antenna or receiving a modulated signal of a second repeater received through the antenna; And a demodulator for demodulating the modulated signal of the second repeater received through the second duplexer and passing the first duplexer to the base station through the E1 / T1 level transmission path. Device. The method according to claim 1 or 2, wherein the second repeater, A first duplexer for receiving a communication signal from an exchange station received through an E1 / T1 class transmission path; A modulator for modulating a communication signal received through the first duplexer using a predetermined intermediate frequency; A second duplexer for transmitting an output signal of the output signal of the modulator to a first repeater through an antenna or receiving a modulated signal of the first repeater received through the antenna; And a demodulator for demodulating the modulated signal of the first repeater received through the second duplexer and transmitting the demodulated signal through the first duplexer to the switching center through the E1 / T1 level transmission path. Device. The apparatus of claim 3, wherein the modulation and demodulation between the first repeater and the second repeater is performed based on a radio frequency (RF) communication protocol.

Images