KR100673420B1 - Synchronous signal transceiver and synchronization acquisition method its in communication system - Google Patents

Abstract

The present invention relates to a synchronization signal transmission and reception apparatus and a synchronization acquisition method thereof that can acquire synchronization using any communication medium without relying on GPS satellites when operating a CDMA base station. Synchronizing signal transmitting means for transmitting through the medium and modulating the time information generated after the synchronizing signal transmission through the communication medium; And when the sync signal is received through the communication medium, demodulate the received sync signal to calculate a time difference between the sync signal reception time and the self-predicted sync signal generation time, and calculate the time difference based on the calculated average of the time differences. A synchronization signal for updating the prediction synchronization signal generation time, transmitting the received synchronization signal to a base station based on the prediction synchronization signal generation time, and demodulating time information transmitted from the synchronization signal transmission means to the base station; Receiving means is included.

Serial data communication, synchronization signal, synchronization acquisition, synchronization signal transmission and reception device

Description

Synchronization signal transmission and reception device and communication acquisition method in communication system {SYNCHRONOUS SIGNAL TRANSCEIVER AND SYNCHRONIZATION ACQUISITION METHOD ITS IN COMMUNICATION SYSTEM}             

1 is a block diagram of a transmission and reception system for explaining a conventional synchronization signal acquisition method.

2 is a block diagram of an embodiment of a synchronization signal transmission and reception device in a communication system according to the present invention.

3A and 3B are diagrams illustrating an operation process of a synchronization signal transmission and reception device and a synchronization acquisition method thereof in a communication system according to the present invention.

4 is a flowchart illustrating an embodiment of a synchronization acquisition method in a communication system according to the present invention.

5 is a flowchart illustrating an embodiment of a synchronization signal transmission method according to the present invention.

Figure 6 is a flow diagram of an embodiment of a synchronization signal receiving method according to the present invention.

Explanation of symbols on the main parts of the drawings

210: sync signal transmitter 211: sync signal generator

212: visual information generators 213, 221: modem

220, 230: synchronization signal receiving unit 222: signal processor

223: visual information detector 240: satellite

250 and 251: base station 260: terminal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a synchronization signal transmission and reception apparatus and a synchronization acquisition method thereof in a communication system, and more particularly, to a synchronization signal transmission and reception apparatus and a synchronization acquisition method for operating a base station of a code division multiple access (CDMA) scheme. It is about.

1 is a configuration diagram of a transmission and reception system for explaining a conventional method of obtaining a synchronization signal, including a base station (110, 111), a terminal 120, a GPS (Global Positioning System) receivers (130, 131) GPS satellites 140, 141, 142 and 143.

A conventional synchronization acquisition method will be described with reference to the transmission / reception system of FIG. 1 having such a structure as follows.

Domestic base stations (110, 111) using the CDMA scheme was absolutely dependent on foreign GPS satellites (140, 141, 142, 143).

And, the GPS receivers 130 and 131 on the ground can simultaneously view up to 5 to 8 GPS satellites, and provide highly accurate synchronization and time information (TOD) of tracking GPS satellites. Receive.

At this time, the GPS receiver on the ground receives the synchronization signal from the tracking GPS satellites and provides the synchronization signal with a very small error (that is, less than 0.8 msec) to the base station.

Then, since the base station transmits the CDMA signal in accordance with the provided synchronization signal, all the base stations are synchronized with each other, so that the terminal 120 has a soft / softer handoff between base stations or base station sectors. Becomes possible.

However, in the conventional synchronization acquisition method as described above, there is a problem that domestic mobile communication service cannot be smoothly performed when a situation such as GPS satellite failure or use of GPS satellite is paid.

Accordingly, the present invention has been made to solve the above problems, and transmits the synchronization signal necessary for the operation of the CDMA base station from the transmitting side to the communication medium and all the CDMA base stations in the remote area receive the synchronization signal from the communication medium. By analyzing the information on the synchronization signal and predicting the synchronization signal that is close to the original synchronization signal, an arbitrary communication medium (for example, a Korean Mugunghwa satellite, etc.) can be used without relying on a GPS satellite provided by a foreign country when operating a CDMA base station. It is an object of the present invention to provide a synchronization signal transmission and reception apparatus and a synchronization acquisition method thereof capable of acquiring synchronization.

In order to achieve the above object, the present invention modulates a synchronization signal generated at a predetermined period and transmits the same through a communication medium, and modulates the time information generated after the synchronization signal is transmitted and transmits the same through the communication medium. Way; And when the sync signal is received through the communication medium, demodulate the received sync signal to calculate a time difference between the sync signal reception time and the self-predicted sync signal generation time, and calculate the time difference based on the calculated average of the time differences. A synchronization signal for updating the prediction synchronization signal generation time, transmitting the received synchronization signal to a base station based on the prediction synchronization signal generation time, and demodulating time information transmitted from the synchronization signal transmission means to the base station; Receiving means is included.

In addition, the present invention provides a synchronization acquisition method in a communication system, the synchronization signal preamble and the synchronization signal is sequentially generated at a predetermined period, the synchronization signal preamble and the synchronization signal is modulated and transmitted through a communication medium; Stage 1; A second step of generating time information after a predetermined time elapses after the synchronization signal is generated and transmitting the same through the communication medium; A third step of waiting for reception of the synchronization signal when the synchronization signal preamble is received through the communication medium; In the third step, when the synchronization signal is received through the communication medium, a time difference between the synchronization signal reception time and the self-predicted synchronization signal generation time is calculated, and the prediction synchronization signal is calculated based on the calculated average value of the time difference. Updating a generation time; A fifth step of transmitting the received synchronization signal to a base station based on the prediction synchronization signal generation time; And a sixth step of recognizing the time information if the signal received through the communication medium is not the synchronization signal preamble signal, detecting the time information from the received signal, and transmitting the detected time information to the base station.

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

2 is a block diagram of an exemplary embodiment of a synchronization signal transmission and reception device in a communication system according to the present invention. The synchronization signal transmission unit 210 and the synchronization signal transmission unit 210 for transmitting a synchronization signal are outputted as a communication medium. Receiving a synchronization signal transmitted through the satellite 240 to obtain a time difference between the synchronization signal receiving time and the predicted synchronization signal predicted by itself, predicting the time point for transmitting the synchronization signal to the base station to base the synchronization signal And a synchronization signal receiver 220 or 230 for transmitting to 250 and 251.

Here, the synchronization signal receivers 220 and 230 receive the transmitted synchronization signal and time information from the communication medium and provide the synchronization signal to the base stations 250 and 251, so that the terminal 260 is soft / soft at the base station being serviced. Handoff is possible.

The synchronization signal transmitter 210 generates the time information TOD after a predetermined time after the synchronization signal generator 211 and the synchronization signal generator 211 generate the synchronization signal at predetermined time intervals. And a modem 213 for modulating and transmitting the synchronization signal and the time information.

When the synchronization signal is generated every second from the synchronization signal generator 211, the synchronization signal transmitter 210 modulates the generated synchronization signal through the modem 213 to transmit the synchronization signal. At this time, the time information generator 212 determines whether the generated synchronization signal is an even number of seconds, and if it is an even number of seconds, 20 msec after transmitting the synchronization signal and then time information (that is, year, month, day, hour, minute). And candles, etc.).

The synchronization signal receiver 220 or 230 receives a modem 221 for demodulating a signal transmitted through the Mugunghwa satellite 240 which is a communication medium, and a synchronization signal demodulated by the modem 221 to receive the synchronization signal. And calculating a time difference from a synchronization signal (prediction synchronization signal) provided from the synchronization signal receiver to the base station, accumulating the calculated time difference, calculating an average time difference, and updating the predicted synchronization signal generation time using the average time difference. And a signal processor 222 for transmitting the sync signal to the base stations 250 and 251 at the time of generating the predicted sync signal, and time information transmitted from the sync signal transmitter 210 from the signal input through the signal processor. It includes a time information detector 223 to detect and deliver to the base stations (250, 251).

3A and 3B are explanatory diagrams illustrating an operation process of a synchronization signal transmission and reception device and a synchronization acquisition method thereof in a communication system according to the present invention, and the synchronization signal transmission and reception device of the present invention has the structure as described above with reference to this. The operation of the in detail is as follows.

First, the operation of the synchronization signal transmitter 210 will be described with reference to FIG. 3A.

The sync signal transmitter 210 first transmits one byte 'BB' of the ACSII scheme as a preamble of the sync signal, and informs that the sync signal 'AA' is soon transmitted.

After outputting the synchronization signal, the time information generator 212 determines whether the transmitted synchronization signal is an even-second synchronization signal. If the synchronization signal is an even-second synchronization signal, a time of 16 bytes after about 20 msec after the synchronization signal has been transmitted is passed. Send the information.

As described above, after transmitting the time information TOD in the even-second synchronization signal, the transmission processor sleeps about 20 msec, and then transmits a preamble 'BB' of the synchronization signal again.

If the signal is not an even second synchronization signal, the processor sleeps about 40 msec and transmits a preamble 'BB' of the synchronization signal.

That is, the synchronization signal transmitter 210 repeats the cycle (Cycle) as described above every second.

Next, the operation of the synchronization signal receivers 220 and 230 will be described with reference to FIG. 3B.

First, when the synchronization signal receivers 220 and 230 receive the preamble 'BB' of the synchronization signal, the reception processor recognizes that the synchronization signal 'AA' is soon received and the synchronization signal is in a ready state. Wait for

If it is not the preamble 'BB' of the synchronization signal, it recognizes the time information TOD, receives 16 bytes of time information, transmits the time information TOD at 9600bps to the base station, and then preambles the preamble of the synchronization signal. Wait for BB '

On the other hand, when the synchronization signal 'AA' is received after the preamble of the synchronization signal, a time difference between the synchronization signal reception time and the synchronization signal (ie, the prediction synchronization signal) provided to the base station from the synchronization signal receivers 220 and 230 is calculated.

At this time, since the synchronization signal transmitted from the Mugunghwa satellite 240, which is a communication medium, is transmitted as serial data, the lower the transmission baud rate, the larger the synchronization error of the synchronization signal, and the maximum 1 / board. Errors will occur up to sec.

In order to solve this problem, the signal processor 222 is required in the synchronization signal receivers 220 and 230. In the signal processor 222, by calculating an average of the time difference between the synchronization signal 'AA' input time and the predicted synchronization signal for a predetermined time, an error caused by a low transmission baud rate can be reduced.

In this way, with the time difference obtained through the uniform signal detection, the processor may update the prediction synchronization signal generation time to provide a stable synchronization signal to the base station.

4 is a flowchart illustrating an embodiment of a synchronization acquisition method in a communication system according to the present invention.

Referring to FIG. 4, first, a preamble 'BB' signal of a synchronization signal is generated and transmitted (406). Then, a synchronization signal is generated at approximately one second period, and the generated synchronization signal 'AA' is modulated into a one-byte signal and transmitted to a transmission communication medium (401).

The synchronizing signal transmission processor determines whether the synchronizing signal is generated in even or odd seconds (402), and if it occurs in even seconds, transmits 16 bytes of time information TOD after 20 msec, and stops the transmission operation again for 20 msec. (403). At this time, the 16-byte time information TOD is provided using a protocol provided from the base station to the terminal.

If the synchronizing signal is generated in an odd number of seconds in the process of determining the generation time of the synchronizing signal, the transmission operation is stopped for 40 msec without transmitting the time information TOD (404).

In this manner, as in the transmission stop processes 403 and 404, transmission is stopped for a predetermined time, and then the preamble 'BB' of the synchronization signal is transmitted again to the communication medium (405). In the present invention, a synchronization signal preamble is generated and a synchronization signal is generated after approximately 10 msec.

On the other hand, the synchronization signal receiver checks whether the signal received from the communication medium is a preamble 'BB' of the synchronization signal (406). If the synchronization signal is a preamble, the internal processor of the synchronization signal receivers 220 and 230 is ready (Ready). After the synchronization signal 'AA' is received after waiting for the reception of the synchronization signal 'AA' in the Ready state, the time difference between the predicted synchronization signal generation time and the reception time of the synchronization signal 'AA' is detected and equalized by using the detected time difference. The synchronization signal is detected, and the detected time differences are accumulated for a predetermined time period, and then the average value of the accumulated time values is taken, and the prediction synchronization signal generation time is changed according to the average value (407).

If the preamble 'BB' of the synchronization signal is determined in step 406, the synchronization signal receivers 220 and 230 receive and receive 16 bytes of time information TOD when the received signal is not the preamble 'BB' of the synchronization signal. The time information TOD is transmitted to the base station (407).

5 is a flowchart illustrating an embodiment of a synchronization signal transmission method according to the present invention.

Referring to FIG. 5, the sync signal transmitter 210 generates a sync signal at a period of about 1 second (501). First, the sync signal transmitter generates and transmits a sync signal preamble 'BB', and then generates the sync signal ' AA 'is modulated by the modem 213 into a single byte signal and transmitted to the communication medium (502).

Subsequently, the transmitting processor inside the synchronizing signal transmitter 210 determines whether the synchronizing signal is generated in even or odd seconds (503), and if it occurs in even seconds, stops the transmitting operation for 20 msec (504), and then 16 The time information TOD of bytes is transmitted (505), and the transmission operation is stopped for another 20 msec (506).

If the synchronizing signal is generated in an odd number of seconds in the process of determining the occurrence time of the synchronizing signal, the transmission operation is stopped for 40 msec without transmitting the time information TOD (507).

Thus, as in the transmission stop process (506, 507), the transmission is stopped for a predetermined time, and then the preamble 'BB' of the synchronization signal is transmitted again to the communication medium (508).

In addition, the synchronization signal transmitter 210 repeatedly performs the above-described transmission process, and determines whether an operation stop command is transmitted from the outside through an internal processor (509), and if the operation stop command is not transmitted, the synchronization signal. The process proceeds to the generation process 501, and if the operation stop command is transmitted, the synchronization signal transmission ends.

On the other hand, the synchronization signal transmitter 210 repeats the above-described process (501 to 508) every second.

In addition, the synchronization signal transmitter 210 provides a pulse per second (1pps) synchronization signal and a preamble every second, and provides time information TOD every two seconds.

6 is a flowchart illustrating a method of receiving a synchronization signal according to the present invention.

Referring to FIG. 6, the synchronization signal receivers 220 and 230 determine whether the signal received from the communication medium is a preamble 'BB' of the synchronization signal (601), and if the synchronization signal is a preamble of the synchronization signal, In order to receive the signal 'AA', the internal processor of the synchronization signal receiver 220 or 230 waits for reception of the synchronization signal 'AA' for a predetermined time in a ready state (602).

Next, when the synchronization signal 'AA' is received, the time difference between the predicted synchronization signal generation time (that is, the synchronization signal 'AA' is the time generated by the synchronization signal transmitter) and the reception time of the synchronization signal 'AA' are calculated. In operation 603, an equal synchronization signal is detected using the time difference. Here, the detected equal synchronization signal is a synchronization signal generated by the synchronization signal receivers 220 and 230 at the same time when the synchronization signal is generated by the synchronization signal transmitter 210.

At this time, after accumulating the detected time differences for approximately 20 seconds, the average value of the accumulated time values is taken, and the synchronization signal receivers 220 and 230 according to the average value accurately generate the 1pps synchronization signal at the synchronization signal transmitter 210. In operation 604, an accurate synchronization signal is provided to the base stations 250 and 251 according to the prediction result.

Thus, the 1pps sync signal provided to the base station is a reference clock in the base station, which is used to generate a system clock in the base station.

Meanwhile, one terminal may communicate with two or more base stations, where each base station is provided with a 1 pps synchronization signal generated at the same time.

If the preamble 'BB' of the synchronization signal is determined in step 601, the synchronization signal receivers 220 and 230 receive a 16-byte time information TOD when the received signal is not the preamble 'BB' of the synchronization signal (605). The received time information TOD is transmitted to the base station (606).

The synchronization signal receivers 220 and 230 repeatedly perform the reception process as described above, and determine whether the operation stop command has been transmitted from the outside through the internal processor (607). The process proceeds to the synchronization signal receiving process 601, and if the operation stop command has been transmitted, the synchronization signal reception ends.

Although the technical idea of the present invention has been described in detail according to the above preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

As described above, the present invention provides an arbitrary communication medium between a transmitter and a receiver by acquiring a synchronization signal using an arbitrary communication medium without relying on a GPS satellite provided abroad when the CDMA base station is operated. For example, it is possible to provide a stable synchronization signal to a CDMA base station outside the use of GPS satellites in other countries by using the Korean Mugunghwa satellite and transmission paths), and also to use domestic satellites in situations where foreign GPS satellites are unavailable or difficult to use. Only by using a stable synchronization signal necessary for the communication system has the effect of ensuring the stability of the communication.

Claims (9)

Synchronizing signal transmitting means for modulating the synchronizing signal generated at a predetermined period and transmitting the same through the communication medium, and modulating the time information generated after the synchronizing signal transmission through the communication medium; And When the sync signal is received through the communication medium, the received sync signal is demodulated to calculate a time difference between the sync signal reception time and the self-predicted sync signal generation time, and the cumulative average value of the time difference is calculated. Receives a synchronization signal for updating a prediction synchronization signal generation time, transmitting the received synchronization signal to a base station based on the prediction synchronization signal generation time, and demodulating time information transmitted from the synchronization signal transmission means to the base station. Way Synchronous signal transmission and reception apparatus in a communication system comprising a. The method of claim 1, The synchronization signal transmission means, Synchronization signal generation means for generating a synchronization signal preamble and the synchronization signal at a predetermined period; Time information generating means for generating time information after a lapse of a predetermined time after the synchronization signal is generated by the synchronization signal generating means; And Modulation means for modulating and transmitting the synchronization signal preamble, the synchronization signal, and the time information Synchronous signal transmission and reception apparatus in a communication system comprising a. The method according to claim 1 or 2, The synchronization signal receiving means, Demodulation means for demodulating the synchronization signal preamble, the synchronization signal, and the time information received from the communication medium; Receiving a demodulated synchronization signal by the demodulation means, calculating a time difference between the synchronization signal reception time and the self-predicted synchronization signal generation time, and updating the prediction synchronization signal generation time by the cumulative average value of the calculated time differences. Signal processing means for transmitting the received synchronization signal to a base station based on the prediction synchronization signal generation time; And Time information detecting means for detecting the time information from the signal processed by the signal processing means and transmitting it to the base station Synchronous signal transmission and reception apparatus in a communication system comprising a. The method of claim 3, wherein The synchronization signal transmission means, The preamble signal of the synchronization signal is transmitted, the synchronization signal is generated and transmitted every second, and the synchronization signal in the communication system is characterized by transmitting the time information after 20 msec after transmitting the synchronization signal in even seconds. Transceiver. delete In the synchronization acquisition method in the communication system, A first step of sequentially generating a synchronization signal preamble and a synchronization signal at a predetermined period, and modulating the generated synchronization signal preamble and the synchronization signal through a communication medium; A second step of generating time information after a predetermined time elapses after the synchronization signal is generated and transmitting the same through the communication medium; A third step of waiting for reception of the synchronization signal when the synchronization signal preamble is received through the communication medium; In the third step, when the synchronization signal is received through the communication medium, a time difference between the synchronization signal reception time and the self-predicted synchronization signal generation time is calculated, and the prediction synchronization signal is calculated based on the calculated average value of the time difference. Updating a generation time; A fifth step of transmitting the received synchronization signal to a base station based on the prediction synchronization signal generation time; And A sixth step of recognizing the time information if the signal received through the communication medium is not the synchronization signal preamble signal, detecting the time information from the received signal, and transmitting the time information to the base station; Synchronization acquisition method in a communication system comprising a. delete The method of claim 6, In the first step, the synchronization signal is generated in one second period, And generating the time information after 20 msec has elapsed if the synchronization signal is generated in even seconds in the second step. delete

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