KR100524885B1 - Digital signal processing block defect determination method - Google Patents

Abstract

The present invention relates to a digital signal processing block failure determination method for detecting a bad state of a digital signal processing block operation.

The present invention examines the data correction capability by using a test disc with predetermined deflection, eccentricity, scratches, etc. in a digital signal processing apparatus including an error correction block for determining occurrence of a predetermined error correction impossibility between predetermined unit sections. A digital signal processing block failure determination method, comprising: an initial value setting step of setting a predetermined value of a predetermined section of the test disc and a predetermined number of error correction unacceptable determinations that can be allowed during playback, and a predetermined section of the test disc A counting value of a reproducing mode execution step of reproducing a track between, an error correcting counting step of counting the predetermined number of error correction impossible determinations generated between the predetermined sections of the reproducing mode execution step, and a counting value of the error correcting counting step A comparison step of comparing the reference value with the comparison step As a result of the comparison, if the counting value is larger than the reference value is characterized in that it indicates that the defective, otherwise it comprises a display step of indicating that the good quality.

According to the present invention, it is possible to determine whether the digital signal processing block is normally operated based on accurate data without depending on the senses.

Description

Digital signal processing block defect determination method

The present invention relates to a failure detection method of a signal processing apparatus, and more particularly, to a digital signal processing block failure determination method for detecting a failure state of a digital signal processing block operation.

In general, in a production line for assembling a set including a signal processing device, after completion of assembly of the set, an inspection process is performed to check whether each block satisfies a design specification. There are various inspection items in this inspection process depending on the type of set. As an example, in an assembly line of a CD-ROM drive, one of the inspection items is to determine the extent to which data loss can be compensated for and reproduced in the event of eccentricity, deflection, scratches, etc. in a disk, a recording medium. There is a check item of the digital signal processing block by the bad disk.

According to the related art, the inspection item of the digital signal processing block is a disc having a certain amount of eccentricity, deflection, and scratches, which is played on a line, and judges the state of the audio to be reproduced by the operator's sense to determine whether the set is defective. Judging

Therefore, the inspection method of the set by the hearing of the inspector as described above, because it is difficult to accurately determine the boundary of the good or bad of the set, it is difficult not only accurate inspection, but also had a problem that takes a lot of time.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a digital signal processing block failure determining method for automatically determining whether a signal processing block performs a normal operation and automatically determining the number of error correction impossible occurrences in a predetermined period in order to solve the above problems. .

In order to achieve the above technical problem, the digital signal processing block failure determination method according to the present invention includes a predetermined deflection in the digital signal processing apparatus including an error correction block for determining occurrence of a predetermined error correction impossible between predetermined unit intervals, A digital signal processing block failure determining method for checking data correction capability by using a test disk with eccentricity, scratches, etc., wherein a predetermined number of error correction impossible occurrences that can be allowed during a predetermined section and playback of the test disk are An initial value setting step of setting a reference value, a reproducing mode execution step of reproducing tracks between predetermined sections of the test disc, and a count of the predetermined number of error correction impossible determinations generated between the predetermined sections of the reproducing mode execution step; Error correction counting step, the error correction failure A comparison step of comparing a counting value and a reference value of a counting step and a comparison step of the comparison step, a display step of indicating that the counting value is greater than the reference value, otherwise indicating a good quality It is characterized by.

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

As shown in FIG. 1, the digital signal processing block failure determination method according to the present invention includes an initial value setting step 100 for setting a reference value for determining whether a test interval and an error correction impossibility are allowed, and a track for finding a test start track. Seek step 110, a target track determination step 120 for determining whether a pickup has been reached to the initially set target track, a play mode execution step 130 for executing a play mode, and a counting step for counting the number of times of error correction impossible determination occurrence 140, an end track determination step 150 for determining whether an initially set test end track has been reached, a comparison step 160 for comparing a counting value with a reference value, a defect display step 170 for indicating a defective state, and a good product A good display step 180 for indicating a status is provided.

Prior to describing the flow chart of the present invention, a configuration diagram of a CD-ROM drive to which the present invention shown in FIG. 2 is applied will be briefly described.

The pickup 210 receives the optical signal reflected from the pit of the disk, converts it into a current signal, and outputs it. Then, the pre-amplifier 220 converts the current signal into a voltage signal, generates an EFM (Eight to Fourteen Modulation) signal, and then amplifies and outputs the signal to a predetermined gain. The EFM signal includes 256 types of data patterns, two types of sub code patterns that represent the heads of sub codes, and 258 types of patterns.

The EFM signal is demodulated by the EFM demodulator 230 to convert it into data before modulation.

The error detection and correction unit 240 detects an error occurring in the EFM demodulated data and corrects the detected error to normal data before the error occurs. In this case, an example of a method of detecting an error may include a double error correction method and a quadratic error correction method using a Reed Solomon code.

In the double error correction method, if an error occurs in one codeword of one block of data, error correction is possible. If an error occurs in two or more codewords, error correction is impossible. Is correctable for an error occurring up to two codewords in one block of data. However, if an error occurs in more than one codeword, error correction is impossible.

When double error correction is not possible in one block of data as an output terminal of the error detection and correction unit 240, quadratic error correction is not possible in the C1 terminal and one block of data that output corresponding data. In this case, the C2 terminal for outputting corresponding data is connected to the controller 260.

Then, the controller 260 may determine how many blocks among the blocks between the predetermined intervals have an error correction impossible state. Then, when the number of occurrences of the error correction impossible state in the predetermined interval exceeds the allowable reference value, the display unit 270 indicates that the defective state.

The D / A converter 250 converts the error corrected data into an analog signal and outputs the analog signal.

Each flowchart of the present invention shown in FIG. 1 will be described in sequence using each component that executes such an operation.

The initial value setting step 100 sets a section of a track to which a test disk for which a certain amount of deflection, eccentricity, or scratching occurs is to be inspected, and a reference value which is the number of error correction impossibles that the set can tolerate in this set section. It is a step to set. In particular, the reference value in the test section is determined by the experimental specification in consideration of the error correction ability of the set and the deflection, eccentricity, and scratches of the disk.

The track seek step 110 is a step of searching for a target track at which a test section of a test disc starts.

The target track determination step 120 is a step of determining whether a signal of the target track of the track seek step 110 is detected by pickup.

If the target track has not been reached, the track seek step 110 above is continued.

However, if the target track is reached, the playback mode execution step 130 for executing the playback mode is executed.

The counting step 140 counts the number of error correction impossible occurrences detected by the error detection and correction unit 240 after performing the EFM demodulation of the signal detected by the pickup 210. That is, in an exemplary embodiment, when the double error correction and quadratic error correction methods are used, when it is determined that the double error correction is impossible, the control unit 260 is applied to the controller 260 through the C1 terminal, and the quadratic error correction is disabled. If it is determined, the control unit 260 is applied to the control unit 260 through the C2 terminal. The control unit 260 then decodes the C1 and C2 data and counts the C1 and C2 values whenever data indicating the uncorrectable state is input.

The end track determination step 150 is a step of determining whether the pickup position has reached the end track of the test setting section in the initial value setting step 100. That is, the step of determining the test end section.

If the current track is not the end of the test track, the counting value of the counters C1 and C2 is counted each time data C1 and C2 are inputted to notify the error correction impossible state by continuously executing the counting step 140 above. Increase.

However, if the current track and the test end track are the same, the counting step 140 is terminated and the next comparison step 160 is executed.

The comparing step 160 compares the counting values of the C1 and C2 counters of the counting step with the reference value set in the initial value setting step 100.

If the counting values of the C1 and C2 counters are larger than the respective reference values, since the set exceeds an allowable amount of error, the defect display step 170 for displaying a defective state is executed.

The failure display step 170 may take a method of turning on a light emitting diode displaying a failure state to notify a worker that the failure is a failure, or may generate a sound indicating the failure state by a sound.

The good display step 180 is a case where an amount of error correction impossibility that the set can tolerate is detected when the counting value of the counters C1 and C2 of the comparison step 160 is less than or equal to each reference value. It turns on the light emitting diode that indicates that it is good for the worker.

Through the above method, it is possible to check whether the digital signal processing block operates normally by counting the number of error correction impossible occurrences that occur between certain sections when the test disk is driven and comparing the result with a reference value.

As described above, according to the present invention, by counting the number of error correction impossible occurrences in a predetermined interval and comparing it with a reference value, it is possible to determine whether the digital signal processing block is normally operated based on accurate data without depending on the senses. have.

1 is a flowchart of a digital signal processing block failure determination method according to the present invention.

2 is a configuration diagram of a CD-ROM drive to which the present invention is applied.

Claims (2)

A digital signal for checking data correction capability using a test disk with predetermined deflection, eccentricity, scratching, etc. in a digital signal processing apparatus including an error correction block for determining occurrence of a predetermined error correction impossibility between predetermined unit sections. In the processing block failure determination method, An initial value setting step of setting a reference value which is a predetermined interval of the test disc and a predetermined number of error correction unacceptable determinations that can be allowed during playback; A playback mode execution step of playing back tracks between predetermined sections of the test disc; An error correction counting step of counting the number of error correction impossible occurrences detected by applying a double error correction processing method between the predetermined sections of the play mode execution step; A comparison step of comparing a counting value of the error correcting counting step and the reference value; And And a displaying step of indicating that the counting value is bad when the counting value is larger than the reference value. A digital signal for checking data correction capability using a test disk with predetermined deflection, eccentricity, scratching, etc. in a digital signal processing apparatus including an error correction block for determining occurrence of a predetermined error correction impossibility between predetermined unit sections. In the processing block failure determination method, An initial value setting step of setting a reference value which is a predetermined interval of the test disc and a predetermined number of error correction unacceptable determinations that can be allowed during playback; A playback mode execution step of playing back tracks between predetermined sections of the test disc; An error correction counting step of counting the number of error correction impossible occurrences detected by applying a quadratic error correction processing method between the predetermined sections of the play mode execution step; A comparison step of comparing a counting value of the error correcting counting step and a reference value; And And a displaying step of indicating that the counting value is bad when the counting value is larger than the reference value.

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