KR100224665B1 - Sync. protection circuit of a dvd - Google Patents

Abstract

A sink protection circuit of a DVD that can generate an accurate sync signal is disclosed. The circuit performs a counting in synchronization with a system clock signal and outputs the counting value. When the 1488 counting value is reached, the circuit generates a frame reference signal and resets the operation according to the detected frame sync. Counts according to a reference signal, generates a first frame detection signal when the frame reference signal is first input, generates an ID reference signal when the counting value reaches 26, and operates according to detection ID sync. A sector counter which resets the frame counter and the ID reference signal, generates a first sector detection signal when the ID reference signal is first input, and resets the operation according to the detection error correction code sync; When the counting value of the first bit counter reaches a predetermined value, a counted frame sync is generated, and the first sector detection signal is generated. A count sink generating unit generating a counted ID sync when a predetermined value is reached by counting the counted signal, and generating a counted error correction code sync when the predetermined value is reached by counting the first frame detection signal; A second bit counter that performs counting in synchronization with the system clock signal in response to the signal, a frame window is generated by decoding a counting value of the second bit counter, and the ID window is decoded by decoding the first frame detection signal. A generated window generating unit and the protected detection frame sync when the detected frame sync is detected in the frame window, and the protected detection ID sync when the detected ID is detected in the ID window; Detection ID sync and error correction Sync detection signal is generated and ID error correction result A window operator for generating the detection error correction sink and an output of the window operator and the sink generator when the leg signal is at a predetermined level are respectively input. When each output of the window operator exists, the output of the window operator is given priority. And a sink signal generator for outputting each output of the sink generator.

Description

DVD sink protection circuit

The present invention relates to a digital versatile disc (DVD), and more particularly to a sink protection circuit of a DVD.

In the data format of the DVD system, one frame has a 32-bit sync pattern based on 1488 channel bits, and one sector composed of 26 frames includes eight types of SY0 to SY7 and a digital sum value according to each frame. There are two sync patterns for control and two sync patterns for state classification, so there are a total of 32 sync patterns. In this case, SY0 is used only as a sync of the first frame and this is called a sector sync. One error correction block consists of 16 sectors, and the first sink of the block is an ECC sink determined by the serial number of each sector in the demodulation ID data. This ECC sync signal represents the first sector as a reference sync signal for error correction. If such frame sync, sector sync, and ECC sync are not properly detected, data errors occur continuously.

An object of the present invention is to provide a sink protection circuit of a DVD that can accurately protect the sync signal by generating a separate counted sync signal even when the sync signal is not properly detected.

1 is a schematic diagram for explaining an arrangement relationship of a sink protection circuit of a DVD according to the present invention.

2 is a block diagram illustrating a sink protection circuit of a DVD according to the present invention.

FIG. 3 is a waveform diagram illustrating the operation of the sink generator shown in FIG. 2. FIG.

The sink protection circuit of the DVD according to the present invention for achieving the object of the present invention performs a counting in synchronization with the system clock signal and outputs the counting value, and generates a frame reference signal when the 1488 counting value is reached, The first bit counter resets the operation according to the detection frame sync, and performs counting according to the frame reference signal, and generates a first frame detection signal when the frame reference signal is input for the first time. Generates an ID (ID) reference signal, performs a counting according to the ID reference signal, a frame counter that resets operation according to detection ID sync, and generates a first sector detection signal when the ID reference signal is first input. And a count value of the sector counter for which the operation is reset according to the detection error correction code sink and the first bit counter is small. Generate a counted frame sync when a value is reached, count the first sector detection signal to generate a counted ID sync when a predetermined value is reached, and count the first frame detection signal to reach a predetermined value. A count sync generator for generating a counted air correction code sink, a second bit counter for performing a counting in synchronization with the system clock signal in response to the frame reference signal, and a counting value of the second bit counter. A window generating unit generating a frame window, decoding the first frame detection signal to generate an ID window, and generating a detection frame sync when the detected frame sync is detected in the frame window, and detecting the ID in the ID window. The detected ID sink is generated when the detected eye desync is detected, and the detected ID sink is generated. When the error correction sync detection signal is generated and the ID error correction result flag signal is at a predetermined level, a window operator for generating the detection error correction sink and an output of the window operator and the sink generator are respectively inputted. And if there is an output, each output of the window operator is preferentially outputted; otherwise, the sink signal generator is configured to output each output of the sink generator.

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

1 is a schematic diagram illustrating a system arrangement relationship of a sink protection circuit of a DVD according to the present invention, wherein 1 is a demodulator, 2 is a sink protector according to the present invention, and 3 is an ID error. Each correction part is shown.

First, the demodulator 1 demodulates the EFMI signal, outputs the detected frame sync DFRSY and the detected ID sync DIDSY to the sync protector 2, and simultaneously outputs the demodulated ID data to the ID error correction unit 3. ) At this time, the ID error correction unit 3 performs error correction, generates a flag signal SIDER according to the error correction result, and generates an ECC sync detection signal detected from the ID data. Then, the sink protection unit 2 according to the present invention receives the detected sinks DFRSY, SIDSY, PECSY and the error correction result flag signal SIDER, respectively, and generates the correct sync signals FRSY, SESY, ECSY.

FIG. 2 is a detailed block diagram of the sink protection unit of the DVD according to the present invention shown in FIG. 1. The configuration thereof is as follows.

First, the 1488 bit counter 12 performs counting in synchronization with the system clock signal PCLK and outputs the counting value fr1487. Further, when the counting value reaches the frame constant reference count number (outside the window), the frame reference signal idx is generated, and when the detection frame sync wfrsy protected by the window is input, the counting operation is reset.

The 26 frame counter 14 performs frame counting according to the frame reference signal idx from the 1488 bit counter 12. When the frame reference signal idx is input for the first time, the first frame detection signal ( id0). In addition, since one sector includes 26 frames, when the counting value reaches 26, an ID reference signal ecx is generated. In addition, when the detection ID widsy is input, the counting operation is reset.

The 16 sector counter 16 performs counting according to the ID reference signal ecx from the 26 frame counter 14 and detects a first sector indicating that the ID reference signal ecx is the first sector ID when the ID reference signal ecx is first input. Generate signal ec0. In addition, counting reset is performed when a detection error correction code sink is input.

The count sync signal generator 20 generates a count sync signal according to the output of the counters 12, 14, and 16. That is, when the counting value fr1487 of the 1488 bit counter 12 reaches a predetermined value, a counted frame sync is generated, and the counted value is counted when the predetermined value is reached by counting the first frame detection signal id0. An ID sync is generated, and the first sector detection signal ec0 is counted to generate a counted air correction code sync when the predetermined value is reached.

The sector window counter 24 performs counting according to the ID reference signal ecx and generates an ID window signal iidl if a detection ID widsy is not detected even after reaching a predetermined counting value. That is, if the detection ID widsy is not detected more than a predetermined number of times, an ID window signal iidl for opening the ID window is generated.

The frame window counter 22 performs a counting according to the frame reference signal idx and generates a frame window signal ifl if the detection frame sync wfrsy is not detected even after reaching a predetermined counting value. That is, if the detection frame sync wfrsy is not detected more than a predetermined number of times, a frame window signal ifl for opening the frame window is generated.

The bit counter 10 counts in synchronization with the system clock signal PCLK in response to the frame reference signal idx. Accordingly, counting is performed after the last counting value of the 1488 bit counter 12.

The window generator 18 decodes the output of the bit counter 10 and the first frame detection signal from the 26 frame counter 14, respectively, to generate window signals frwinx and idwinx, respectively. That is, the frame window frwinx is generated by decoding the counting value of the bit counter 10, and the ID window idwinx is generated by decoding the 26 frame counting value.

The window operator 26 generates a detection frame sync wfrsy when the detected frame sync dfrsy is detected in the frame window frwinx, and detects the ID ID detected when the ID sync detected in the ID window idwinx is detected. Generate a widsy, generate a detection error correction sink when the detection ID widsy and the error correction sink detection signal pecsy are generated, and the ID error correction results in the flag signal slider. . At this time, when the detection sync signals wrfsy, widsy, wecsy are not detected, that is, the counted frames in which the frame sync dfrsy detected in the frame window frwinx are not detected or are respectively generated by the frame window counter 22. If (ifrl) is continuously detected in the ID window (idwinx), and if no IDSy is detected for a predetermined number of times, if iidl is generated, the frame widow is used instead of the ID window.

The sink signal generator 28 receives the outputs of the window operator 26 and the count sync signal generator 20, respectively, and if each output of the window operator 26 is present, the respective outputs wfrsy, widsy, wecsy) are outputted first, and otherwise, each output (cfrsy, cidsy, cecsy) of the count sync signal generator 20 is output.

Referring to the operation according to the above-described configuration, the count sync signal generator 20 is a 1488 bit counter 12 for performing a bit counting in synchronization with the system clock PCLK, and a 26 frame counter 14 and a sector for counting frames. A count sync signal (cfrsy, cidsy, cecsy) is generated separately from the sync signal detected by using the counting value of the 16 sector counter 16. The window generator 18 decodes the output of the bit counter 10 and the 26 frame counter 14 to generate a frame window frwinx and an id window x idwinx, respectively. At this time, the window operator 26 generates a detection frame sync wfrsy when the detected frame sync dfrsy is detected in the frame window frwinx, and simultaneously detects the ID sync detected in the ID window idwinx. When a detection ID is generated (widsy). In addition, the window operator 26 generates a detection air correction code sink when the detection ID sync is generated and the error correction sink detection signal pecsy is input and the ID flag is low level. . By the way, when the detection frame sync wfrsy and the detection ID widsy are not generated more than a predetermined number of times, the frame and ID window signals (ifrl) generated through the frame and sector window counters 22 and 24 (frwinx). To open the window using the frame and the id window (frwinx) instead of idwinx. Subsequently, the sync signal generator 28 preferentially outputs the detection sync signals wfrsy, widsy, and wecsy generated by the window operator 26, but when the detection sync signal is not properly generated, the count sync signal generator 20 Corresponding count sync signals (cfrsy, cidsy, cecsy) generated by Accordingly, the sync signal generator 28 finally uses the frame sync FRSY using the detection frame sync wfrsy and the count frame sync frsy, and uses the detection ID sync and count ID cidsy. Then, the sector sync SESY is generated, and the error correction code sink ECSY is generated using the detection error correction code sink wecsy and the count error correction code sink cecsy. In this case, FRSY is detected by using a certain 23 bits (including 14T pattern) for each type among 32 bits, and if many 32 bits are compared according to each type, there is a high probability of not being detected. The counted sink is output. This is because if there is a constant sync pattern and is within a window, it is regarded as an accurate sync. As shown in FIG. 3, if a detected frame sync dfrsy is detected in the window section 31 of the frame window frwinx, the frame sync FRSY follows the detected frame sync dfrsy. However, if the frame sync dfrsy is ignored in the window section 33, if the detected frame sync dfrsy is not detected in the window section 33, the frame sync FRSY may follow the count frame sync frsy. do. In addition, the sector sync SESY should detect SY0. The sector sync SESY is detected by comparing 30-bit patterns without distinguishing the four SY0. In particular, the sector sync SESY is a more important sync than the frame sync FRSY, indicating the first frame. In addition, since 30 bits are compared, when an error occurs or the clock is shaken, the probability of not being detected at the correct position becomes very high, and once detected, the probability of being incorrectly recognized by the error becomes very small, so the size of the window is frame-synced. It is about twice as wide as FRSY, and once detected, it is recognized as the correct sync in preference to the counted cidsy. Also, even when the sector sync SESY is not detected, if there is a detected frame sync dfrsy in the frame window frwinx, the reference of the actually demodulated data is based on the detection frame sync wfrsy. When the sink is not detected continuously or when the sink is to be detected for the first time, the window is completely opened to catch a newly detected sink. Subsequently, the error correction code sink ECSY is determined as the sector serial number in the ID sector information that comes out for each sector sync SESY, and when it is xxxxx0, it should be output as the first sector. However, since an error occurs and it is recognized incorrectly, ID error correction is performed, and when the result is xxxxxF, an error correction code sync detection signal pecsy and an error flag indicating that the next sector is the first sector are output. Let's go. At this time, if the flag is at a low level and an error correction code sync is generated, it is generated at the next sector sync. However, if this condition is not met, the count error correction code sync is output instead.

As described above, when the detected sync signal is not properly detected, the present invention has an advantage of generating the correct sink signal of the DVB using the counted sync signal instead.

Claims (2)

A first bit counter configured to perform counting in synchronization with the system clock signal to output a counting value, generate a frame reference signal when the counting value reaches 1488, and reset the operation according to the detected frame sync; Counting is performed according to the frame reference signal, a first frame detection signal is generated when the frame reference signal is first input, an ID reference signal is generated when the counting value reaches 26, and according to detection ID sync. A frame counter in which the operation is reset; A sector counter performing counting according to the ID reference signal, generating a first sector detection signal when the ID reference signal is first input, and resetting the operation according to a detection error correction code sink; Generate a counted frame sync when the counting value of the first bit counter reaches a predetermined value, generate a counted ID sync when the predetermined value is reached by counting the first sector detection signal, and generate the counted sync. A count sink generator for counting the detection signals and generating counted air correction code sinks when a predetermined value is reached; A second bit counter configured to perform counting in synchronization with the system clock signal in response to the frame reference signal; A window generator for generating a frame window by decoding a counting value of the second bit counter, and generating an ID window by decoding the first frame detection signal; The detection frame sync is generated when the detected frame sync is detected in the frame window, the detection ID sync is generated when the detected frame sync is detected within the ID window, and the detection ID sync and the error correction sync detection signal are generated. And a window operator for generating the detection error correction sink when the ID error correction result flag signal is at a predetermined level; And And a sink signal generator configured to receive outputs of the window operator and the sink generator, respectively, to output respective outputs of the window operator if each output of the window operator exists, and to output respective outputs of the sink generator. The sink protection circuit of the DVD. 2. The method of claim 1, further comprising: a sector window counter that performs an ID window signal and generates an ID window signal if the detection ID sync is not detected even after the counting is performed according to the ID reference signal; And And a frame window counter for generating a frame window signal if the frame sync is not detected even after counting according to the frame reference signal and reaching a predetermined counting value. The window operator uses the frame window signal when the detected frame sink does not exist, and uses the ID window signal when the detected ID sink does not exist. Circuit.