KR100498929B1 - System for providing system clock in code division multiple access mobile communication terminal - Google Patents

Abstract

The present invention relates to a code division multiple access mobile communication system, and in particular, to provide a method for supplying an inexpensive and stable system clock in a code division multiple access mobile communication system. The present invention provides a system clock for a code division multiple access mobile communication system including a base station controller and a plurality of base stations, wherein the system clock is connected between the base station controller and a plurality of lower base stations to supply the system clock. System clock communication lines connected between the respective base stations, a system clock supply unit of a base station controller for supplying the system clocks to the plurality of base stations through the system clock communication line and located in the base station controller; Located at each of the plurality of base stations and transmitting the system clock to the at least one base station of the plurality of base stations via a communication line for the system clock, and from at least two or more of the base station controller and the plurality of base stations Remind It receives the system clock via a communication line for a system clock, and select the normal system clock of the clock with the received and is characterized in that the system clock of the base station comprising a transceiver for Kane used as a system clock of the base station.

Description

SYSTEM FOR PROVIDING SYSTEM CLOCK IN CODE DIVISION MULTIPLE ACCESS MOBILE COMMUNICATION TERMINAL}

The present invention relates to a code division multiple access mobile communication system, and more particularly, to a system for supplying a system clock of a code division multiple access mobile communication system.

A code division multiple access (CDMA) mobile communication system divides an entire service area into a plurality of base station areas, constitutes cells, which are small service areas, and centrally controls these base stations with a mobile exchange. It allows subscribers to continue their calls while moving from cell to cell. The code division multiple access mobile communication system includes a mobile station (MS) for providing mobile communication services to a subscriber, a base station transceiver (BTS) for providing services to a mobile communication terminal, and a base station for controlling a base station. Base Station Controller (BSC) It consists of a Mobile Switching Center (MSC) that connects a base station controller to a public switched telephone network (PSTN).

In the mobile communication system configured as described above, each base station is synchronized using a system clock. Typically the system clock is generated by the base station controller and supplied to each base station. That is, the base station controller having one GPS receiver uses the system clock for synchronizing the respective base stations with GPS data received from a GPS (Global Positioning System) satellite, that is, a pulse per second (PPS) and a reference clock (10 MHz). In addition, time data is generated using time of day (TOD) and supplied to each base station located at a short distance (for example, within 500M) by wire. When the base station controller does not supply the system clock, one GPS receiver may be installed in each base station to generate and use the system clock directly at each base station.

However, in the base station controller having one GPS receiver as described above, supplying the system clock to each of the base stations located in a short distance by wire may cause an error in the base station controller and thus may not supply the system clock to the respective base stations. In this case, a problem occurs that adversely affects the mobile communication system. In addition, when one GPS receiver is installed at each base station, a significant cost is added.

Accordingly, an object of the present invention is to provide a system for supplying an inexpensive and stable system clock in a code division multiple access mobile communication system.

The present invention for achieving the above object is a system for supplying a system clock of a code division multiple access mobile communication system including a base station controller and a plurality of base stations, the base station controller and a plurality of lower base stations to supply the system clock System clock communication lines connected to each other and connected between each of a plurality of base stations, and a system of a base station controller for supplying the system clock to the plurality of base stations via the system clock communication line located at the base station controller. A clock supply unit and located in each of the plurality of base stations and transmitting the system clock to the at least one base station of the plurality of base stations via the system clock communication line, and at least one of the base station controller and the plurality of base stations more than two It receives the system clock via a communication line for the system clock from the system clock, and select the normal one of the received clock and is characterized in that the system clock of the base station comprising a transceiver for Kane used as a system clock of the base station.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

In the present invention, a system clock transmission communication line is connected between a base station controller and a plurality of base stations below, and a system clock transmission communication line is connected between a plurality of base stations to transmit the system clock. It is. The base station controller is provided with a GPS receiver to generate a system clock and to supply a plurality of base stations through the communication line for the system clock. Each of the plurality of base stations receives the system clock supplied by the base station controller and the system clocks provided by the plurality of base stations through the system clock communication lines, and uses the normal system clock as the base station system clock. In view of the fact that a system for supplying such a system clock uses a system clock communication line, it is preferable to apply to a public and private mobile communication system in which a base station controller and a plurality of base stations are installed in close proximity.

1 is a block diagram of a system clock supply unit of a base station controller according to an exemplary embodiment of the present invention. Referring to FIG. 1, the system clock supply unit 9 of the base station controller includes one GPS receiver 2, a system clock generator 4, and a plurality of system clock transmitters 6.

As described above, the GPS receiver 2 transmits GPS data, that is, a pulse per second (PPS), a reference clock (10 MHz), and a time of day (TOD) from the GPS satellite through the antenna ANT. Receive. The GPS receiver 2 generates a reference time (Pulse Per 2 Second: PP2S) of the base station using the common time, and outputs it to the system clock generator 4 together with the reference clock and time data. The system clock generator 4 generates a system clock of 8 KHz using the reference time, reference clock, and time data output from the GPS receiver 2. The generated system clock is output to the plurality of system clock transmitters 6.

The plurality of system clock transmitters 6 transmits each of the system clocks output from the system clock generator 4 to a plurality of base stations using RS-485, which is a TIA / EIA standard for a multi-point communication line. Send each one. The system clock transmitters 6 in the present invention are configured in three to transmit the system clocks to the three base stations 20, 30, and 40, respectively, and randomly vary the number of the system clock transmitters 6. Each may transmit system clocks to base stations.

The system clock supply unit of the base station controller configured as described above receives GPS data using a GPS receiver, generates a system clock, and transmits the system clock to a plurality of base stations located in a short distance through a communication line for transmitting a system clock.

As shown in FIG. 2, the system clock transceiver 19 located in each of a plurality of base stations that receives a system clock from the system clock supply unit 9 of the base station controller includes a plurality of system clock receivers 12 and a clock selector. The unit 14 includes a system clock transmitter 16, a reference clock recovery unit 18, and a system clock check unit 17.

The plurality of system clock receivers 12 respectively receive and output at least two or more system clocks of the base station controller 10 and the plurality of base stations. The system clock receivers 12 of the present invention are configured in two and receive two system clocks from one of the base station controller 10 and a plurality of base stations, respectively. The number can be randomly varied.

The clock selector 14 outputs a normal system clock among a plurality of system clocks respectively output from the plurality of system clock receivers 12 under the control of the system clock checker 17. The normal system clock is defined as a system clock of 8 KHz generated by the system clock supply unit normally received by the system clock receiver. The clock selector 14 may be implemented as a 2: 1 multiplexer, and the ratio of the clock selector 14 may vary with the number of system clock receivers 12.

The system clock transmitter 16 transmits the system clock output from the clock selector 14 to any one of a plurality of base stations.

The reference clock recovery unit 18 restores the normal system clock output from the clock selector 14 to the reference time, the reference clock, and the time data under the control of the system clock checker 17 to use as the system clock of the base station. do. In addition, when the plurality of system clocks received under the control of the system clock check unit 17 are all abnormal, the reference clock recovery unit 18 uses the internal phase locked loop (PLL) to obtain the reference time, reference clock, and time data. Create

The system clock checker 17 inspects a plurality of system clocks respectively output from the plurality of system clock receivers 12 and applies a control signal to the clock selector 14 so that a normal system clock is output. The control signal is applied to the reference clock recovery unit 18 so that the reference time, the reference clock, and the time data are normally output. That is, when all of the system clocks output from the system clock receivers 12 are abnormal, the system clock checker 17 generates a reference time, a reference clock, and time data using an internal phase locked loop (PLL). The control signal is applied to the clock recovery unit 18.

The system clock transceiver of the base station configured as described above receives at least two or more system clocks of the base station controller and the plurality of base stations, selects a normal system clock among the received system clocks, and uses the system clock. The normal system clock selected by either base station is transmitted through a communication line for system clock transmission.

As shown in FIG. 3, when the base station controller including the system clock supply unit and the plurality of base stations including the system clock transceiver are connected as shown in FIG. 3, the base station controller 20, 30, and 40 are connected to each other using a single GPS receiver. Each can be supplied with a system clock. That is, the base station controller 10 receives the GPS data, generates a system clock, and transmits the generated system clock to three base stations 20, 30, and 40 located in a short distance through a communication line for system clock transmission. Each of the three base stations 20, 30, and 40 receives one system clock from the base station controller 10, and receives the other system clock from one of the other two base stations. Among the system clocks, the normally received system clock is used as the normal system clock. In addition, each of the three base stations 20, 30, and 40 transmits a normal system clock to one of the other two base stations using a system clock transmission communication line.

As described above, by configuring the configuration ratio of the base station controller and the plurality of base stations to 1: 3, the system clock can be supplied to three base stations using one GPS receiver.

In addition, as shown in FIG. 4, by configuring the configuration ratio of the base station controller and the plurality of base stations to 1: 5, the system clock can be supplied to five base stations using one GPS receiver, similarly to the configuration ratio of 1: 3. have.

In the above-described present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the invention should not be defined by the described embodiments, but by the equivalents of the claims and the claims.

As described above, by supplying a system clock to a plurality of base stations using one GPS receiver, there is an effect of supplying a more stable system clock and an effect of reducing the price of the system clock supply system.

1 is a block diagram of a system clock supply unit of a base station controller according to an embodiment of the present invention;

2 is a block diagram of a system clock transceiver of a base station according to an embodiment of the present invention;

3 is a block diagram of a system clock supply system according to an embodiment of the present invention;

Figure 4 is a block diagram of a system clock supply system according to another embodiment of the present invention.

Claims (3)

A system for supplying a system clock of a code division multiple access mobile communication system including a base station controller and a plurality of base stations, System clock communication lines connected between the base station controller and a plurality of lower base stations to supply the system clock, and connected between each of the plurality of base stations; A system clock supply unit of a base station controller, which is located in the base station controller and supplies the system clock to the plurality of base stations through the system clock communication line; Located in each of the plurality of base stations, and transmits the system clock to the at least one base station of the plurality of base stations through the communication line for the system clock, at least two of the base station controller and the plurality of base stations In the code division multiple access mobile communication system characterized in that it comprises a system clock transceiver for receiving the system clocks through the system clock communication line from the above, and selects the normally received system clock to use as a system clock. System clock supply system. The system clock supply unit of the base station controller, A GPS receiver for receiving GPS data from a GPS satellite and outputting a reference time, a reference clock, and time data; A system clock generator configured to generate and output the system clock by using a reference time, a reference clock, and time data output from the GPS receiver; And a plurality of system clock transmitters for transmitting the system clock output from the system clock generator to the plurality of base stations, respectively. The system clock transceiver of the base station, A plurality of system clock receivers respectively receiving and outputting a plurality of system clocks from at least two of the base station controller and the plurality of base stations; A clock selector configured to output a system clock normally received from a plurality of system clocks respectively output from the plurality of system clock receivers; A system clock transmitter configured to transmit a system clock output from the clock selector to any one of the plurality of base stations; A reference clock recovery unit for restoring and outputting a system clock output from the clock selection unit to a reference time, a reference clock, and time data; Controlling the clock selector to output a normal system clock among a plurality of system clocks respectively output from the plurality of system clock receivers, and to control the reference clock recovery unit to output the reference time, reference clock, and time data normally System clock supply system of a code division multiple access mobile communication system comprising a system clock check unit.