KR100219882B1 - Method and apparatus for bridging 1:n digital data of paging system - Google Patents

Abstract

The present invention relates to a method and apparatus for transmitting a digital synchronization signal from one serial signal source to N base stations. In particular, it relates to a digital bridge for simultaneously sending synchronous serial digital signals output from one paging terminal to several base stations, such as a paging system.

The method of simultaneously transmitting digital signals from one serial digital signal source to N base stations according to the present invention comprises selecting N data service units (DSUs) from the digital transmission network to the base stations to digital bridge the transmission. step; Extracting N loop clocks from the selected DSU; Selecting one of the N loop clocks and selecting the representative clock as a representative clock signal; And transmitting a digital signal to the N DSUs in synchronization with the representative clock. And a digital data bridge device according to the present invention comprises one serial digital signal source; A digital data bridge module (2) coupled to the digital data transmission network for receiving the transmission signal from the serial digital signal source and simultaneously transmitting the digital signal to the N base stations; A digital data transmission network coupled to the bridge module 2 for transmitting digital signals to N base stations; In the digital bridge module (2), select N data service units (DSUs) from the digital transmission network to the base station, extract N loop clocks from the selected DSU, select one of them, and represent signal transmission. A representative clock extraction circuit (4) for sending a clock to the digital signal source; And in the bridge module 2, a TXD bridge and a drive circuit 5 for transmitting a transmission signal to the N digital DSUs in synchronism with the representative clock.

Description

1: en digital data bridge method and digital data bridge device of paging system

The present invention relates to a method for transmitting a digital synchronization signal from one serial signal source to N base stations. In particular, it relates to a digital bridge for simultaneously sending synchronous serial digital signals output from one paging terminal to several base stations, such as a paging system.

Conventional paging systems analog bridge the analog signals output from the paging terminal and transmit the data as analog signals to multiple base stations. For example, as in the modem signal processing, as shown in FIG. 1, a method of simultaneously transferring necessary data using analog bridging technology of an analog signal output from a paging terminal is adopted. In general, when the analog bridge method is used, the transmission speed of the analog signal is low (512bps-9600bps), which makes it difficult to apply to a high-speed paging system that needs to transmit a large amount of data. For example, a high-speed paging system that performs a flex service has to transmit a large amount of information. Therefore, the analog signal transmission method is expensive in terms of efficiency of line use and system operation.

In other words, when using a flex 6400bps, when using an analog bridge while outputting an analog signal from the paging terminal, the transmission method of 512bps-4800bps cannot be used, and at least 9600bps can serve one channel. If you use 9600bps, one line of analog line is required to transmit one paging channel signal to each base station.However, if you apply digital bridge by applying digital bridge technology, paging corresponding to 8 channels on one line It is possible to transmit as much data as the call.

In order to solve the above problems, the present invention uses a digital service network (DSU) of a digital transmission network to transmit a serial digital signal from a paging terminal to various base stations using a digital transmission network among current data transmission networks. The digital bridge can be used to transmit the serial data synchronized with the transmission synchronization cooler to the base station by selecting only one transmission clock among the transmission clocks output from multiple DSUs and outputting the transmission synchronization clock to the paging terminal. TXD) is designed to be bridged by the number of DSUs or base stations. Accordingly, an object of the present invention is to provide an improved method for realizing high-speed transmission to a plurality of base stations to perform a paging service of a high-speed paging system such as PLEX and also using digital DSUs and transmission clocks in accordance with this method. Specific bridging mechanisms are provided.

1 is a conventional paging system

2 is an overall configuration diagram of the present invention

3 is a block diagram of a digital data bridge module of the present invention

Explanation of symbols for the main parts of the drawings

1. Data service unit, 2. Data bridge module

3. Paging terminal 4. Representative clock extraction circuit

5. Bridge and Drive Circuit

According to the present invention, a method for simultaneously transmitting digital signals from one serial digital signal source to N base stations comprises selecting N data service units (DSUs) from the digital transmission network to the base stations to digital bridge the transmission. step; Extracting N loop clocks from the selected DSU; Selecting one of the N loop clocks and selecting the representative clock as a representative clock signal; And transmitting a digital signal to the N DSUs in synchronization with the representative clock.

The present invention for achieving another object, one serial digital signal source; A digital data bridge module (2) coupled to the digital data transmission network for receiving the transmission signal from the serial digital signal source and simultaneously transmitting the digital signal to the N base stations; A digital data transmission network coupled to the bridge module 2 for transmitting digital signals to N base stations; In the digital bridge module (2), select N data service units (DSUs) from the digital transmission network to the base station, extract N loop clocks from the selected DSU, select one of them, and represent signal transmission. A representative clock extraction circuit (4) for sending a clock to the digital signal source; And in the bridge module 2, a TXD bridge and a drive circuit 5 for transmitting a transmission signal to the N digital DSUs in synchronism with the representative clock.

The purpose and configuration of the above-mentioned invention will be described with reference to the accompanying drawings.

2 is a diagram showing the overall configuration of the present invention and a transmission configuration between a paging terminal and a base station apparatus via a digital transmission network. Here, each of the DSUs 1 through N, which is an interface device between the paging system and the digital data transmission network, stores the respective loop clocks TXCLK1, TXCLK2, ..., TXCLKn extracted from the digital data transmission network. To supply. The data bridge module 2 selects one of the loop clocks provided by the DSU 1 from 1 to N and transmits it to the paging terminal 3. The paging terminal (3) outputs a digital signal (TD) to the data bridge module (2) in synchronization with the TCLK selected among several loop clocks, and is bridged to TXD1, TXD2, ..., TXDn in each bridge module. It is output to the DSU and transmitted to the base station apparatus through the digital data transmission network. This causes the base station apparatus to perform subsequent operations in accordance with the received data. A detailed configuration and operation of the digital data bridge module for selectively delivering a loop clock (also referred to as a TCLK or a DDS clock) will be described with reference to FIG. 3.

The digital data bridge module of Fig. 3 is composed of a representative clock extraction circuit 4 for extracting and transferring TCLK and a TXD bridge and a drive circuit 5 for bridging the digital synchronization signal. The representative clock extraction circuit 4 is each DSU. By selecting TCLK as one of the loop clocks outputted by the controller, it bypasses the paging terminal and can be implemented with a few 74HC123 and TTL devices and programmable logic units (PLAs). Detailed description will be omitted. Like the digital network of Tongshin, the digital data transmission network uses the TCLK by selecting only one of the loop-up clocks provided by the n DSUs, that is, the DDS clocks, because the upper level clocks of the transmission networks provided for data transmission are the same. Of course, if the characteristics of the selected clock are not good, TCLK is selected as the loop clock output from other DSUs. For example, if TXCLK1 output from DSU # 1 is not good or TXCLK1 is not output due to bad DSU # 1, etc., TXCLK # 2 output from DSU # 2 is selected as TCLK. In addition, the present invention is designed to enable the speed of the DDS clock, which is a factor that determines the transmission rate when matching with the digital data transmission network, up to 64 kbps, so that the data transmission rate from the paging terminal 3 to the base station is provided by the DSU ( TXCLK1).

The TXD bridge and drive circuit 5 is simply implemented as several buffers and driver circuits, such as TTL drivers / buffers such as 74LS244 to 245. The TXD bridge and drive circuit 5 performs a bridge transmission function to a range allowed by the fan out of the TTL so that the TXD signal output from the paging terminal 3 can be output to a plurality of DSUs.

As described above, by using the digital data bridge module 2 proposed in the present invention for the interface between the paging terminal and the DSU, the data transmission speed transmitted from the paging terminal 3 to the base station is increased, and a large amount of data is simultaneously transmitted. Can transmit to multiple base stations. In addition, according to the present invention, when a service company operating a paging service uses a digital transmission line, various transmission speeds (64, 56, 19.2, 9.6, 4.8, 2.4 kbps, etc.) supported by the DSU may be adopted. As diversity is increased, up to 64kbps is supported, so when sending paging information signal to base station, it becomes 8 * 6.4 = 51.2kbps, so at least 8 channels through digital 1 line transmission channel connected to each base station The amount of data can be transferred (as seen in the flex standard). In this way, by adopting the innovative implementation technique of the present invention, such as the adoption of digital networks and digital bridging in the implementation of high-speed paging, it will be possible to secure an excellent effect stably. It describes the matters to be protected by the following claims for the technical idea disclosed.

Claims (6)

A method of simultaneously transmitting digital signals from one serial digital signal source to N base stations, Selecting N data service units (DSUs) from the digital transmission network to the base station to digitally bridge the transmissions; Extracting N loop clocks from the selected DSU; Selecting one of the N loop clocks and selecting the representative clock as a representative clock signal; And transmitting a digital signal to the N DSUs in synchronization with the representative clock. 2. The method of claim 1, wherein one serial digital signal source is a serial digital signal of a paging terminal. 3. The digital data bridge method according to claim 2, wherein the digital data bridging transmits data of eight channels of paging service using a single-line digital transmission line for a paging service. One serial digital signal source; A digital data bridge module (2) coupled to the digital data transmission network for receiving the transmission signal from the serial digital signal source and simultaneously transmitting the digital signal to the N base stations; A digital data transmission network coupled to the bridge module 2 for transmitting digital signals to N base stations; In the digital bridge module (2), select N data service units (DSUs) from the digital transmission network to the base station, extract N loop clocks from the selected DSU, select one of them, and represent signal transmission. A representative clock extraction circuit (4) for sending a clock to the digital signal source; And in the bridge module (2), a TXD bridge and a drive circuit (5) for transmitting a transmission signal to the N digital DSUs to the serial digital signal sources in synchronization with the representative clock. Bridge device. 5. The digital data bridge device of claim 4, wherein one serial digital signal source is a serial digital signal of a paging terminal. 6. The digital data bridge device according to claim 5, wherein the digital data bridging transmits data of eight paging services using a single-line digital transmission line for paging service.

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