KR19990004347A - Wireless subscriber matching device of mobile communication system - Google Patents

Abstract

According to the present invention, a mobile subscriber does not have a handoff, and thus, does not have a GPS receiver at all base stations, but has a GPS receiver only at a base station controller, and then transfers a synchronization signal to each base station through an existing transmission path. A radio subscriber matching device for a communication system, comprising: a GPS receiver, a TFC block for adapting a synchronization signal generated by the receiver to a base station controller, and an E / S signal received from the TFC block. EFB block for generating a flaming sequence having a constant repetition period of seconds, a CDMA selector bank block for directly using the synchronization signals, and a CIS block for transmitting a packet-type TOD signal to the CDMA selector bank block. A configured base station controller (BSC); A base station (BTS) comprising an EUB block, a BHI block, which is a packet network of a base station, an RF block for directly using synchronization signals, and a CDMA channel block, can be provided in the network (a relay line matching block of CIS / BHI). In addition to the 2 ms periodicity, the periodicity is extended to 2 seconds using the EFB.

Description

Wireless subscriber matching device of mobile communication system

The present invention relates to a WLL (Wireless Local Loop) of a code division multiple access type mobile communication system. Particularly, in case of a wireless subscriber, a GPS receiver is applied to all existing base stations using a characteristic that no handoff occurs. The present invention relates to a wireless subscriber matching device in which a GPS receiver is provided only to a base station controller, and then each base station transmits a synchronization signal through an existing transmission path.

1 illustrates a synchronization system between a base station controller and a base station of a conventional CDMA digital cellular and personal mobile communication system.

In the case of the base station controller (BSC) 120, a GPS (Global Position System) receiver 121 and a time of date (TOD), which are signals generated by the receiver 121, and a 50 second E / S (Even S) synchronization signal. A CFC selector bank (CSB) block 124 for directly using the synchronization signals, and a packet form of the TFC block 122. And a CDMA Interface Subsystem (CIS) block 123, which is a packet network for transmitting the TOD signal to the CDMA selector bank block 124, respectively.

Meanwhile, even in the case of the base station 110, the GPS receiver 111, the TFC block 113, the BHA (Back Haul Interface) block 114, which is a packet network of the base station, and a radio frequency (RF) which directly use synchronization signals. Block 112, CDMA channel block 115, and the like.

In FIG. 1, the base station controller 120 and the base station 110 use the GPS receivers 121 and 111, respectively, and all base stations matched with the base station controller have separate GPS receivers, and thus almost completely matched E / S signals. And TOD signal. The E / S signal and the TOD signal become the same reference point of the base station pilot PN sequence offset for distinguishing between each base station in the base station. In fact, in case of CDMA Digital Cellular System's CDMA Air Interface Spec. (IS-95A) or Personal Portable Service Air Interface Specification (ANSI-J-STD008), each base station has the same E / S. Based on the signal, a forward link channel signal including a constant pilot signal is always generated at a distance of at least 64 PN chips (= 52.0833 ms, one PN sequence offset difference).

Since the pilot PN sequence offset is the same as the pilot channel and its synchronization channel, and each base station is based on the same E / S signal, the synchronization channel of each base station always has a constant difference as much as the pilot PN sequence offset difference between the base stations.

The difference in the constant pilot PN sequence offset between the base stations is that in the case of a mobile data communication network (DCN) or a personal mobile communication system (PCS) terminal, the location where the terminal is connected to the system is always different. Since more than two must occupy the base station at the same time, a constant offset value becomes an easy parameter for distinguishing the base station.

However, in the synchronization system between the base station controller and the base station of the conventional CDMA digital cellular and personal mobile communication system, an expensive GPS receiver is provided at both the base station controller and the base station, thereby increasing the price of the system. If there is no subscriber mobility, there is a problem in that it is not necessary to provide an accurate pilot PN offset value.

The present invention was devised in view of the above-described problems of the prior art, and in the case of a wireless subscriber, a GPS receiver is provided only in a base station controller without using a GPS receiver in all base stations by using a characteristic that no handoff occurs. It is an object of the present invention to provide a wireless subscriber matching device for a mobile communication system that transmits a synchronization signal through an existing transmission path.

The wireless subscriber matching device of the mobile communication system according to the present invention for achieving the above object comprises a GPS receiver, a TFC block for adapting a synchronization signal generated by the receiver to a base station controller, and from the TFC block. Transferring an EFB generating a flaming sequence having a constant repetition period of 2 seconds using the received E / S signal, a CDMA selector bank that directly uses the synchronization signals, and a packet-shaped TOD signal to the CDMA selector bank A base station controller (BSC) configured with a CIS that is a packet network for the mobile station; And a base station (BTS) comprising an EUB, a BHI block, which is a packet network of the base station, an RF block for directly using synchronization signals, and a CDMA channel block, which can be provided in the network (the trunk line matching block of the CIS / BHI). In addition to the 2 ms periodicity, the periodicity is extended to 2 seconds using the EFB.

1 is a block diagram of a wireless subscriber registration device of a conventional mobile communication system;

2 is a block diagram of a wireless subscriber registration device of a mobile communication system according to the present invention;

3 is a diagram for describing a base station matching method of a flaming sequence.

Explanation of symbols for main parts of the drawings

110,210: base station 111,121,221: GPS receiver

112,212: RF block 113,122,222: TFC block

114,214: BHI block 115,213: CDMA channel block

120,220: base station controller 123,223: CIS block

124: CMDA selector bank block (CBS) 225: EFB block

221: EUB block

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

2 is a block diagram of a synchronization signal transmission device between a base station controller and a base station in a wireless subscriber matching device according to the present invention.

In the case of the base station controller 220, as in the conventional configuration, a GPS (Global Position System) receiver 221, a signal generated by the receiver 221, time of date (TOD) and 50ms of E / S (Even) Second) a TFC block 222 for adapting the synchronization signal to the base station controller 220, a CDMA selector bank (CSB) block 224 for directly using the synchronization signals, and In addition to the CDMA Interface Subsystem (CIS) block 223, which is a packet network for transmitting the packet-shaped TOD signal to the CDMA selector bank block 224, an EFB (Even Second Flaming Block) block 125 is provided. In addition, in the case of the base station 210, a BHA (Back Haul Interface) block 214, which is a packet network of the base station, and a radio frequency (RF) block 212 and a CDMA channel block 2115 for directly using synchronization signals. And a higher base station instead of a conventional GPS receiver and a TFC block. Signals required for each block of the base station 210 (1pps, Even Second, 10) in the E / S programming signal transmitted to the BHI (Back Haul Interface) block through the relay line E / S flaming channel from the fish. It is configured by adding a separate E / S unframing and other clock generation block (EUB: 211) in the base station for generating the MHz system clock).

In the case of the CIS and the BHI, the IIS-TG.704, the D3 / D4, the ESF, the SLC-96, and the like for the PCM30 are operated in a flammable structure in which the synchronization signal of the base station controller can be transmitted in hardware. Have In this case, the base station controller uses the signal received from the GPS receiver 221 as a reference for the relay line synchronization signal.

In the E / S (Even Second) flaming block 221 of FIG. 2, after generating a flaming sequence having a constant repetition period of 2 seconds using the E / S signal received from the TFC block 222, the CIS is generated. It is inserted into the relay line matching portion of the block 223. This flaming sequence has a different form according to the base station concatenation scheme (CEPT E1 or NA T1), and FIG. 3 shows an example of the CEPT E1 scheme.

In the case of the CEPT relay, the time-division multiplexed data stream having a period of 125 ms is a data frame, and 16 frames (2 ms) have one multiframe structure. . Each frame has a synchronization channel and a signal channel, and this function is provided by the relay line matching hardware, and the position of each time slot and bit can be identified within a period of at least 2 ms.

In the present invention, in addition to the 2 ㎳ periodicity that can be provided in the existing relay line (CIS / BHI relay line matching block), by adding a separate E / S flaming block (EFB: 225), this periodicity up to 2 seconds (E / S) It has a form of extension. That is, in the EFB block 225, at least one E / S flaming bit may be added to each multiple frame based on the frame start point received from the TFC block 222. Generate a unique flaming sequence of at least 500 bits or more during the S frame, which is used to extract the E / S frame from the E / S unflamming and other clock generation blocks (EUB) 211 in the base station.

On the other hand, the channel into which the E / S flaming bit is inserted is not used among the matching channels of the relay line. In addition, the E / S frame starting point error extracted from the EUB 211 in each base station according to the propagation delay due to the difference in transmission distance between each base station and the base station controller is within an acceptable value in the wireless subscriber device system ( Do not make too big a difference).

That is, the transmission between the base stations of the pilot PN offset allowable by the base station 210 of the wireless subscriber purifier (that the pilot PN offset between each base station is not exactly an integer multiple of 52.0833) is transmitted so that it does not affect the system. Keep the distance constant. Since the delay in each relay line matching device is relatively constant, it may be more affected by the transmission distance between each base station and the inherent delay of the intermediate transmitter.

Signals other than E / S in the base station are generated through the internal PLL hardware. In addition, the TOD signal in the base station 210 allows the TOD of the base station controller 220 to be transmitted as it is through the packet path between the existing base station controller and the base station.

According to the present invention as described above, there is an advantage that can reduce the manufacturing cost of the radio matching device of the mobile communication system by not using an expensive GPS receiver in the base station.

Claims (4)

Generate a flaming sequence having a constant repetition period of 2 seconds using a GPS receiver, a TFC block for adapting a synchronization signal generated by the receiver to a base station controller, and an E / S signal received from the TFC block. A base station controller (BSC) comprising an EFB block, a CDMA selector bank block for directly using the synchronization signals, and a CIS block which is a packet network for transmitting a packet-type TOD signal to the CDMA selector bank; A base station (BTS) comprising an EUB block, a BHI block, which is a packet network of a base station, an RF block for directly using synchronization signals, and a CDMA channel block, can be provided in the network (a relay line matching block of CIS / BHI). In addition to the 2㎳ periodicity, the wireless subscriber matching device of the mobile communication system, characterized in that to extend the periodicity to 2 seconds by using the EFB. The method of claim 1, wherein at least 500 E / S flamming bits are added to each multiple frame based on a frame start point received from the TFC block in the EFB block. A subscriber registration device for a mobile communication system, characterized by generating a unique flaming sequence of at least a bit. 2. The apparatus of claim 1, wherein the CDMA channel block synchronization signal in the base station is indirectly received from the controller of the base station through a network. 2. The apparatus of claim 1, wherein the CDMA synchronization signal is transmitted to the base station controller and the base station by using a part of a time division multiplexing channel.