KR20000025146A - Frame detection circuit - Google Patents

Abstract

PURPOSE: A frame detection circuit is to quickly detect a frame and multi-frame regardless of the line state of a network upon receiving the information comprising the multi-frame signals and frame signals into the data receiving terminal through the transmission network, thereby reducing the data sampling time. CONSTITUTION: A frame detection circuit comprises: a divider(213) for detecting frame start positions and multi-frames start positions by received information; a frame regenerating and comparing unit(214,215) for regenerating the frame data from the received information, comparing the data with the frame start positions detected by the divider and providing the divided and delayed pulses into the divider when being not synchronized with the frame synchronizing signals; a frame storing and synchronizing unit for generating the frame synchronizing signals by storing when the frame data and the frame start positions of the divider are identified, checking the values and detecting the frame positions; a multi-frame regenerating and comparing unit(218,219) for regenerating the multi-frame data using the frame synchronizing signals, comparing the data with the multi-frame start positions of the divider and detecting the multi-frame synchronizing signals; a frame restart unit(230) for providing the divider with the delayed pulses for comparing the detected multi-frame synchronizing signals with the multi-frame data again to detect the frame again when being not synchronized to each other; and a data sampling unit(222) for sampling the data according to the multi-frame synchronizing signals.

Description

Frame extraction circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a frame extraction circuit used in a data transmission network, and more particularly, to a frame extraction circuit capable of effectively extracting frames and multi-frames from transmission information in a shorter time.

The conventional frame extracting circuit is configured to extract a frame after extracting a multi-frame, and shows an example in FIG.

As shown in the figure, a frame generator 11 for adding a frame to information to be transmitted and a multi-frame generator 12 for adding multiple frames in units of several frames are configured at the transmitting end.

The receiving end outputs a divider 13 for dividing the received clock to find the multi-frames and frames from the received information, a multi-frame reproducing unit 14 for retrieving the multi-frames from the received information, and outputs the divider and the multi-frame reproducing unit. The multi-frame comparison unit 15 provides a division delay pulse to the division unit when the multi-frame synchronization does not match, and the multi-frame storage unit which stores when the output is periodically generated by the multi-frame reproducing unit ( 16), a multi-frame synchronization unit 17 for generating a multi-frame synchronization signal using the multi-frame storage unit, a frame reproducing unit 18 for retrieving frame data from received information, an output of the multi-frame synchronization unit, and Compare the output of the divider and the frame reproducing unit, and when the frame synchronization is not matched, A frame comparator 19 for providing a pulse, a frame memory 20 for storing when the output of the frame regenerator occurs periodically, and a frame synchronizer 21 for generating a frame synchronization signal using the frame memory. ) And a data extraction section 22 which is activated by the output of the frame synchronization section and extracts data from the received information.

Looking at the operation in the conventional configuration as described above, the frame generating unit 11 at the transmitting end adds a frame to the data to be transmitted, the multi-frame generating unit 12 adds a multi-frame again to the data to add the frame to the transmission network send.

At the receiving end, the divider 13 executes division to find the multi-frame and the frame of the received information, and outputs a signal indicating the multi-frame start position and the frame start position, and the multi-frame reproducing unit 14 receives the multi-frame from the received information. Find it. The multi-frame comparing unit 15 compares the multi-frame data of the multi-frame reproducing unit 14 with the virtual multi-frame start position of the divider 13 and the synchronization signal of the multi-frame synchronizing unit 17. At this time, the multi-frame storage unit 16 stores when the multi-frame reproducing unit 14 occurs periodically, so that the multi-frame synchronizing unit 17 generates a multi-frame when the output of the multi-frame storage unit occurs three times in succession. If the synchronized state is lost four times in succession, a signal indicating a state where the multi-frame synchronization is not matched is generated.

Next, the frame reproducing unit 18 finds a frame from the received information, and the frame comparing unit 19 outputs the frame reproducing unit 18, the virtual frame start position of the dividing unit 13, and the multi-frame frame. The output of the base 17 is compared to provide a dispensing delay pulse back to the dispensing unit if the synchronization is not consistent.

The frame storage unit 20 memorizes when the frame reproducing unit periodically occurs, and the frame synchronizing unit 21 loses frame synchronization when the frame storage unit occurs three times in succession. Does not generate an output that indicates a status. Therefore, the data extracting unit 22 extracts data when a synchronization signal is generated in the frame synchronizing unit 21.

However, in general, since the period of the multi-frame is longer and the number of data bits is smaller than the frame period, when the starting position of the multi-frame is found and the starting position of the frame is found as in the conventional art, the frame extraction time takes longer. If the transmission line is in a bad state, there are various disadvantages such as not being able to find the multi frame quickly.

Therefore, the present invention has been made to solve the above problems, and the present invention provides a frame and a frame information quickly when information including a multi-frame signal and a frame signal is received through a transmission network, regardless of the line state of the transmission network. It is an object of the present invention to provide a frame extraction circuit that can shorten data extraction time by finding multiple frames.

In order to achieve the above object, the present invention includes a divider for finding a frame start position and a multi-frame start position from the received information; A frame reproducing unit for reproducing frame data from the received information; A frame comparator which compares the frame start position found by the divider with the frame data reproduced by the frame reproducing unit and provides a division delay pulse to the divider when frame synchronization is not corrected; A frame storage unit for detecting and storing when the frame data reproduced by the frame reproduction unit and the frame start position of the division unit are the same; A frame synchronizer which checks a value stored in the frame memory to find a frame position, and generates a frame synchronizing signal when the frame position is found; A multi-frame reproducing unit for finding multi-frame data from the received information; It is activated by a frame synchronizing signal generated by the frame synchronizing unit, and compares the multi-frame start position of the frequency division unit with the multi-frame data of the multi-frame reproducing unit. A multi-frame comparison unit generated; It is activated by the output of the multi-frame comparator, and compares the multi-frame data and the multi-frame start position of the multi-frame playback unit, and when the multi-frame synchronization is not matched to the frame storage unit, the frame synchronizer and the divider unit A frame restart unit providing a delay pulse of a predetermined clock; A multi-frame storage unit for detecting and storing when the multi-frame data of the multi-frame reproducing unit and the multi-frame start position of the dividing unit are the same; A multi-frame synchronization unit which checks a value stored in the multi-frame storage unit to find a multi-frame position, and generates a multi-frame synchronization signal when the multi-frame position is found; Provided is a frame extracting circuit comprising a data extracting unit which is activated by a multi-frame synchronizing signal of the multi-frame synchronizing unit and extracts data from the received information.

Figure 1 is a block diagram showing the configuration of a conventional frame extraction circuit

2 is a block diagram of a frame extraction circuit according to an embodiment of the present invention.

3 is a block diagram of a frame extraction circuit according to another embodiment of the present invention.

** Explanation of symbols for the main parts of the drawings **

211: frame generator 212: frame generator

213: division part 214: frame playback part

215: frame comparison unit 216: frame storage unit

217: frame synchronizer 218: multi-frame playback unit

219: Multi frame comparison unit 220: Multi frame storage unit

221: multi-frame synchronization unit 222: data extraction unit

230: frame restart

Hereinafter, an embodiment of a frame extraction circuit according to the present invention will be described in detail with reference to the accompanying drawings.

2 illustrates an embodiment of a frame extraction circuit according to the present invention, which is designed to find a frame from information received through a relatively good line network, find a multi-frame again using the frame, and extract data.

In an embodiment of the present invention, a frame generator 211 for adding a frame to information to be transmitted, a multi-frame generator 212 for adding a multi-frame in units of several frames, and a frame start position and multi-point from received information. A division unit 213 for finding a frame start position, a frame reproducing unit 214 for reproducing frame data from the received information, and a frame start position found in the division unit and frame data reproduced in the frame reproducing unit; And a frame comparator 215 for providing a division delay pulse to the divider when the frame synchronization is not correct, and detecting when the frame data reproduced by the frame reproducing unit and the frame start position of the divider are the same. The frame storage unit 216 and the value stored in the frame storage unit to check the frame position, and when the frame position is found, The frequency division unit is activated by a frame synchronization unit 217 for generating another frame synchronization signal, a multi frame reproduction unit 218 for retrieving multi-frame data from received information, and a frame synchronization signal generated in the frame synchronization unit. A multi-frame comparator 219 for comparing a multi-frame start position of the multi-frame reproducing unit and generating a signal according to the result of the comparison when the multi-frame synchronization is not correct; Compare the multi-frame data of the multi-frame reproducing unit, and generate a multi-frame synchronizing signal when the synchronization is correct as a result of the comparison, and when the multi-frame synchronization is inconsistent as the comparison result, the frame storage unit, the frame synchronizing unit and the divider unit A frame restart unit 230 for providing a delay pulse of a predetermined clock, and the frame restart unit The configuration is active by the multi-frame synchronization signal includes a data extraction unit 222 to extract data from the received information.

3 shows another embodiment of a frame extraction circuit according to the present invention designed to find a frame from information received through a transmission network, find a multi-frame again using the frame, and extract data.

In another embodiment of the present invention, in the circuit of FIG. 2, the multi-frame memory unit 220 detects and stores when the multi-frame data of the multi-frame reproducing unit and the multi-frame start position of the dividing unit are the same; The apparatus further includes a multi-frame synchronization unit 221 which checks a value stored in the multi-frame storage unit, finds a multi-frame position, and generates a multi-frame synchronization signal accordingly when the multi-frame position is found. In this case, the multi-frame synchronization signal required by the data extractor 222 may be provided by the frame restart unit 230, or may be configured to be provided by the multi-frame synchronization unit 221.

The operation of the present invention as described above is as follows.

First, at the transmitting end, the frame generator 211 adds a frame to data, and the multi-frame generator 212 adds a multi-frame again to the data to which the frame is added and transmits it to the transmission network on the line.

In the receiving end, in order to extract data from the received information, the frame reproducing unit 214 and the multi-frame reproducing unit 218 respectively find frame data and multi-frame data from the received data. At the same time, the divider 213 starts dispensing to find the frame position and the multi frame position using the reception clock. In this case, the divider 213 uses the frame comparison unit 215 and the frame restart unit 230. It is busy by moving one clock.

The frame comparison unit 215 compares the frame start position provided by the division unit 213 with the frame data reproduced by the frame reproducing unit 214. As a result of the comparison, if the same position does not generate 1 clock pulse, and if it is not the same position, a division reset signal is provided to the division unit 213 to restart the division of the division unit 213 by delaying the frame start position by one clock. do.

The frame storage unit 216 stores a state in which the frame data reproduced by the frame reproducing unit 214 becomes the same as the frame start position of the division unit 213. When the frame start position of the division unit 213 and the data frame reproduction position of the frame reproducing unit 214 are successively generated three times in the frame storage unit 216, the frame synchronizing unit 217 is the frame position. A frame synchronizing signal is generated to indicate that is found. If the position is not corrected four times in the frame storage unit 216, a signal indicating that the frame position is lost is generated.

In this case, when the frame synchronizing signal is generated in the frame synchronizing unit 217, the frame comparator 215 does not generate one clock pulse even if the frame start position and the frame data position are not the same.

On the other hand, the divider 213 generates a multi-frame start position when a frame synchronization signal indicating that the frame synchronizer 217 finds a frame position. Therefore, after the frame synchronizing signal is generated, the multi-frame comparison unit 219 compares the position of the multi-frame data generated by the multi-frame reproducing unit 218 with the start position of the multi-frame of the dividing unit 213. If the two positions are not the same, it moves by the next frame and compares the multi frame start position with the multi frame data again.

In such a method, when the multi-frame is composed of N frames, the frame restart unit moves to N frames, and when the multi-frame data and the multi-frame start position do not match even though the multi-frame is moved up to N frames, (230).

The frame restart unit 230 generates a pulse width of one clock to delay the division of the division unit 213 by one clock, and simultaneously initializes the frame storage unit 216 and the frame synchronization unit 217, thereby resetting the frame data. Find motivation.

Such a case may occur if any arbitrary data periodically occurs equal to the frame data.

If the multi-frame data and the multi-frame start position are the same in consideration of the line state of the transmission network, the multi-frame storage unit 220 stores the state. If the multi-frame data of the multi-frame storage unit 220 and the multi-frame start position is stored three times, the multi-frame synchronization unit 221 generates a multi-frame synchronization signal, the multi-frame data of the multi-frame storage unit 220 When it is stored that the multi frame start position is different from the multi frame synchronizing unit 4 times, the multi-frame synchronization unit 221 generates a signal that the multi-frame synchronization signal is lost.

At this time, when the multi-frame synchronization signal is generated, even if the multi-frame data and the multi-frame start position is different, the frame restart unit 230 does not generate one clock pulse.

Where the line state of the transmission network is good, as shown in FIG. 2, even when the multi-frame storage unit 220 and the multi-frame synchronization unit 221 are not present, when the multi-frame synchronization signal is generated in the frame restart unit 230, the data extraction unit ( In 222, data is extracted according to the synchronization signal. At this time, when there is no multi-frame storage unit 220 and the multi-frame synchronization unit 221, the pulse does not occur in the multi-frame comparison unit 219, that is, the data when the multi-frame synchronization signal is generated in the frame restart unit 230 The extractor 222 extracts data.

According to the present invention as described above, when the multi-frame signal and the frame signal is received at the data receiving end, first to find a short frame, and then to find a long multi-frame, the advantage that can reduce the data extraction time There is this.

Claims (2)

A division unit for finding a frame start position and a multi-frame start position from the received information; A frame reproducing unit for reproducing frame data from the received information; A frame comparator which compares the frame start position found by the divider with the frame data reproduced by the frame reproducing unit and provides a division delay pulse to the divider when frame synchronization is not corrected; A frame storage unit for detecting and storing when the frame data reproduced by the frame reproduction unit and the frame start position of the division unit are the same; A frame synchronizer which checks a value stored in the frame memory to find a frame position, and generates a frame synchronizing signal when the frame position is found; A multi-frame reproducing unit for finding multi-frame data from the received information; It is activated by a frame synchronizing signal generated by the frame synchronizing unit, and compares the multi-frame start position of the frequency division unit with the multi-frame data of the multi-frame reproducing unit. A multi-frame comparison unit generated; It is activated by the output of the multi-frame comparator, and compares the multi-frame data and the multi-frame start position of the multi-frame playback unit, the multi-frame synchronization signal is generated when the multi-frame synchronization is matched, the comparison result, multi A frame restart unit which provides a delay pulse of a predetermined clock to the frame storage unit, the frame synchronization unit and the divider unit when frame synchronization is not corrected; And a data extraction unit which is activated by the multi-frame synchronization signal of the frame restart unit and extracts data from the received information. 2. The apparatus of claim 1, further comprising: a multi-frame storage unit for detecting and storing when the multi-frame data of the multi-frame reproducing unit and the multi-frame start position of the dividing unit are the same; And a multi-frame synchronizing unit which checks a value stored in the multi-frame storage unit to find a multi-frame position, and generates a multi-frame synchronizing signal when the multi-frame position is found. .