KR100226665B1 - The remote alarm apparatus for t1 network in packet communication system - Google Patents

Abstract

The present invention provides a remote alarm device in a T-wan network for packet communication in which a remote alarm can be transmitted to a counterpart LIU in a T1 network.

The present invention modified 1.544 / 2.048Mhz by modifying the clock of the input 1.544 / 2.048Mhz

Clock transformation unit 11 for Mhz clock and remote alarm data transmission and reception clock, the remote alarm data to a specific 1 bit of each channel of the T1 frame according to the remote alarm data transmission and reception clock of the clock transformation unit 11. The remote alarm bit data inserting unit 12 to insert and the output data of the remote alarm bit data inserting unit 12 are added to the framer / transceiver 15 to the transmission data of the processor 10 for transmitting and receiving data to and from the T1 network. Remote alarm bit data extraction for extracting remote alarm data according to the remote alarm data transmission / reception clock of the clock transformation unit 11 from the data received and output from the network by the adder 13 and the framer / transceiver 15 to output. It is comprised by the part 14.

Description

Remote alarm device in Twan network for packet communication

The present invention is applicable to all fields that use the T1 network in a non-channelized manner rather than in a channelized manner. In particular, the T1 network has its own remote alarm (Remote) in a relative line interface unit (LIU) in the T1 network. The present invention relates to a remote alarm device in a T-wan network for packet communication that allows an alarm to be delivered.

In general, a switching system uses a channelization scheme, and a mobile communication system uses a non-channelization scheme.

At present, in a CDMA mobile communication system, a connection between a control station and a base station uses T1 / E1, and the communication between the two uses a non-channelization method rather than a channelization method.

Dual T1 is frame, multiframe specification (ITU-T G703,704, ANSI T1,102,107,

403) There is no remote alarm bit in the configuration.

There is a yellow alarm that allows alarm information to be loaded on a specific 1 bit (usually 6 bits) of each channel. However, when this alarm is used, packet breakage occurs, which is suitable for packet communication. Not.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a remote alarm device in a T-wan network for packet communication in which a remote alarm is possible by allocating a bit as a remote alarm bit according to a clock change position in each channel of a T1 frame. There is this.

The present invention for achieving this object is a remote alarm to any one bit of each channel of the T1 frame in the remote alarm bit data insertion unit in accordance with the data transmission and reception clock for the remote alarm made by the clock transformation unit when transmitting data from the system unit to the network unit. Bit data is inserted and transmitted, and when the data is transmitted from the network unit to the system unit, the remote alarm bit data extraction unit extracts the remote alarm data according to the remote alarm data transmission / reception clock made by the clock transformation unit and gives it to the CPU. This makes it possible to implement the remote alarm function in the T1 network.

1 is a block diagram of a remote alarm device in a Twan network for packet communication according to the present invention.

2 is a diagram showing the format of a general T1 frame.

3a-g is a timing diagram of each signal of FIG.

Explanation of symbols for main parts of the drawings

10 processor 11: clock transformation part

12: Remote alarm bit data insertion unit 13: Adder

14: remote alarm bit data extraction unit 15: framer / transceiver

FIG. 1 is a block diagram of a remote alarm device in a Tiwan network for packet communication according to the present invention. The 1.544 / 2.048Mhz clock (MCLK) and remote alarm data modified by modifying an input clock of 1.544 / 2.048Mhz are shown in FIG. The remote alarm data is inserted into a specific one bit of each channel of one frame of T1 according to the clock transform unit 11 for generating the transmission / reception clock SCLK and the remote alarm data transmission / reception clock SCLK of the clock transform unit 11. The remote alarm bit data insertion unit 12 and the output data Rdata of the remote alarm bit data insertion unit 12 are added to the transmission data TXD of the processor 10 for transmitting and receiving data to and from the T1 network. An adder 13 for outputting data (DSTi) into which data for remote alarm is inserted, and converting the output data (DSTi) of the adder 13 into a T1 frame format and transmitting the result to a T1 network. For remote alarm of the clock transformer 11 from data DSTo received and outputted from the network by the framer / transceiver 15 which receives data from the network and synchronizes the data with the internal PLL to the processor 10. The remote alarm bit data extracting unit 14 extracts data for remote alarm in accordance with the data transmission / reception clock SCLK.

FIG. 2 is a diagram illustrating a general T1 frame format, in which one frame of T1 is composed of 193 bits, and 192 bits are used for data except for the S bit (or F bit) indicating the start of a double frame. One of the data bits allocates one bit for the remote alarm.

3 (a)-(g) show a timing diagram of each signal used in the present invention, (a) is a clock of 8 kHz indicating a division between frames, (b) is a T1 channel number, and (c ) Is the 1.544 / 2.048Mhz clock, (d) is the data transmitted from the network part to the system part (DSTo), (e) is the modified 1.544 / 2.048Mhz clock (MCLK), and (f) is the network part in the system part Data (DSTi) to be transmitted to the negative, and (g) is the data transmission and reception clock (SCLK) for the remote alarm.

The present invention configured as described above allocates one bit of data bits of 192 bits of the T1 frame having the format as shown in FIG. 2 for the remote alarm, and modifies the synchronous communication clock to prevent packet data from being transmitted or received. Implementing a remote alarm, the system section transmits at the polling edge and receives at the rising edge, and the framer / transceiver 15 receives at the polling edge and transmits at the rising edge, and channel 1 (CH1) in one frame of T1. Assuming that 8 bits of are allocated for the remote alarm, the following description will be given.

First, when data is transmitted from the system unit to the network unit, when the remote alarm data is loaded on the 8th bit of channel 1 by the clock transform unit 11, the clock transform unit 11 is loaded as shown in FIG. Invalid data (Invalid Data) is loaded on 8 bits of channel 1 of the data TXD transmitted on the falling edge of the modified clock MCLK.

This is because the system transmits on the falling edge of the modified clock MCLK, the S-bit value remains at the 8-bit position of channel 1. This means that when the S bit of the T1 frame format is the seventh bit, nothing is loaded in the eighth bit, so that the seventh bit value is maintained.

Therefore, when the remote alarm bit data inserting unit 12 writes the remote alarm data value using the remote alarm data transmission / reception clock SCLK made by the clock transform unit 11, the processor 10 may be used by the adder 13. ) Is added to the output data TXD and output as the data DSTi in which the remote alarm data is inserted into the T1 data transmitted from the system unit to the network.

When the data is transmitted from the network unit to the system unit, the remote alarm bit data extracting unit 14 is output from the clock transform unit 11 from the data DSTo received and output from the framer / transceiver 15 from the network. By reading the remote alarm data bit value using the remote alarm data transmission / reception clock (SCLK) and sending it to a CPU (not shown), it is possible to determine whether the remote alarm is transmitting from the remote LIU or the normal state. .

In addition, since the processor 10 receives the data at the rising edge when transmitting data from the network unit to the system unit, the remote alarm data is not sampled and only normal data is sampled so that the remote alarm data does not interfere with the normal data.

As described above, it is possible to implement a remote alarm indicating that a reception state is bad in the LIU without breaking the packet of the present invention, thereby increasing convenience of network maintenance and reducing costs.

Claims (1)

A framer / transceiver that outputs data to and from the processor 10 for transmitting and receiving data to and from the T1 network over the network in accordance with the T1 frame format, and sends data received from the network to the processor 10 in synchronization. A packet communication Twan network including (15), comprising: a clock transforming unit (11) for outputting a modified 1.544 / 2.048Mhz clock and a data transmission / reception clock for a remote alarm by modifying an input clock of 1.544 / 2.048Mhz; A remote alarm bit data inserting unit 12 for inserting remote alarm data into a specific 1 bit of each channel of a frame T1 according to the remote alarm data transmitting / receiving clock of the clock converting unit 11, and the processor 10 of the processor 10; An adder 13 for adding the output data of the remote alarm bit data inserting unit 12 to the transmission data and outputting the output data to the framer / transceiver 15; And a remote alarm bit data extraction unit 14 for extracting the remote alarm data according to the remote alarm data transmission / reception clock of the clock transformation unit 11 from the data received and output from the network by the framer / transceiver 15. Remote alarm device in the T-wan network for packet communication, characterized in that configured.

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