KR19990036530A - Reproducing apparatus of disc type recording medium - Google Patents

Abstract

The present invention relates to a technique that can overcome the discrepancy in disc reproduction quality and increase the reproduction margin in a so-called "lead system" of a reproduction apparatus including a demodulation system and an error correction system. The state of the reproduction signal read out from the disc is compared with the prescribed value, and the setting constant of the amplification circuit is adjusted, and then digitally processed. That is, a gain change circuit is connected to the amplifier circuit, and the gain setting is changed in accordance with the result of comparing the amplitude of the reproduction signal with the specified value. An equalizer is connected to the amplifying circuit, and the frequency setting or Q value setting is changed according to the result of comparing the amplitude ratio of the low frequency component and the high frequency component included in the reproduction signal.

Description

Reproducing apparatus of disc type recording medium

The present invention relates to an apparatus for reproducing a disc-shaped recording medium (hereinafter, disc) such as a CD.

For example, in CD, individual differences may occur in the pit shape, and thus errors occur in the reproduction signal composed of 3T to 11T signal components, which causes the reproduction quality to be different for each individual. This individual difference is amplified by scratches or dust on the disk, and in some cases may cause a playback error.

Discrepancies of discs are expected to be more remarkable in rewritable discs, but there has not been yet appeared a reproducing apparatus having a function of overcoming individual differences by judging deviations in reproduction quality.

Accordingly, the present invention is to provide a playback apparatus having a function of overcoming individual differences. That is, according to the present invention, in a disc reproducing apparatus which amplifies an analog reproducing signal read out from a disc and then digitally outputs the amplified circuit, the state of the reproducing signal read out from the disc is compared with a predetermined value to determine the setting of the amplifying circuit. Its feature is that it allows the constant to be adjusted.

In the case of the playback apparatus, the playback signal is amplified while adjusting the setting constant of the amplifying circuit according to the state of the playback signal, so that individual differences in playback quality can be reduced. In addition, since the setting constant is changed by the amplification circuit of the analog reproduction signal, the margin during digital processing of the so-called "lead system" including the demodulation system, error correction system, and so forth can be enlarged in advance, thereby generating a reproduction error. Can be reduced.

The reproducing apparatus is preferably configured to connect a gain changing circuit to the amplifying circuit to change the gain setting according to a result of comparing the amplitude of the reproducing signal with a prescribed value.

For example, a reproduction error may be caused by lack of amplitude of the reproduction signal. In such a case, in the present playback apparatus, the gain of the amplification circuit is increased to amplify and adjust the amplitude of the playback signal, thereby reducing the occurrence of playback errors due to the amplitude state. The gain change circuit may be configured, for example, as a constant of the negative feedback operational amplifier or as an LSI on the same chip as the negative feedback operational amplifier. For example, the variable resistor may be connected to a feedback loop of the amplifier circuit. Further, the prescribed value refers to the amplitude of the model reproduced signal in which the number of error occurrences is less than the predetermined number, or the predetermined amplitude range including the amplification thereof.

The reproducing apparatus is further preferably configured to change the frequency setting or the Q value setting according to a result of comparing the amplitude ratio of the low frequency component and the high frequency component included in the reproduction signal with the prescribed value by connecting an equalizer to the amplifier circuit.

The present playback apparatus compares the amplitude ratio of the low frequency component and the high frequency component of the reproduction signal with the specified value, and it can be seen that a cause of a reproduction error such as an amplitude deficiency occurs in one frequency component when the amplitude ratio and the specified value differ. According to this determination, the frequency setting and the Q value setting of the equalizer can be changed by equalizing frequency components having a problem in amplitude. As a result, the amplitude of the frequency component can be adjusted to reduce the occurrence of reproduction errors due to the amplitude state. The equalizer may be configured, for example, as a constant of the negative operational amplifier or as an LSI on the same chip as the negative operational amplifier. As an example, it can be comprised by the filter which consists of RC, LC, etc. which were connected to the feedback loop of the negative feedback operational amplifier. In addition, the prescribed value refers to a predetermined amplitude ratio range including the amplitude ratio of the low frequency component and the high frequency component, or the amplitude ratio of the modeled reproduction signal having the desired amplitude when the reproduction apparatus performs the reproduction.

Preferably, the reproducing apparatus is configured to determine the type of error occurring in the reproducing signal before performing adjustment of the setting constant. Therefore, it is effective when a rank is set for a reproduction error. That is, for example, by changing the setting constant at the time of a light error, a large error can be prevented. Also, changing the setting constant at the time of a large error can reduce the occurrence of unplayable errors.

Further, it is preferable that the above reproducing apparatus adjusts the setting constant according to a result of comparing the number of errors generated in the reproducing signal with a prescribed value. That is, the setting constant of the amplifying circuit is adjusted so that the number of reproduction errors generated in the reproduction signal is reduced, thereby effectively preventing the occurrence of reproduction errors.

1 is a schematic diagram showing a playback device according to an embodiment;

2 is a flowchart showing a setting constant adjustment procedure of the amplifier circuit according to the embodiment;

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment of this invention is described. Fig. 1 shows a structural example in which the present invention is applied to a CD playback apparatus 1. Since the analog reproduction signal read out from the CD into the optical system 2 including the pickup has a low voltage level, it is amplified by the amplifying circuit 3 and then digitally processed. The analog reproduced signal after amplification is digitally processed by a so-called " lead system " including a DSP 4 for performing demodulation, error correction, and the like, and a CPU 5 as a control system thereof, and is externally output.

FIG. 2 is a flowchart showing a procedure for adjusting the set constant of the amplifier circuit 3 performed in the playback device 1 of FIG. The basic purpose of adjusting the set constant in this example is to prevent the occurrence of bursty regeneration errors that require C2 error correction. Therefore, in this example, the type of error in the reproduction signal, that is, the C1 error is determined first, and the number of occurrences thereof is counted, and when a predetermined number (for example, 200) is reached, further occurrence of C1 error is suppressed by preventing further occurrence of C2 error. The setting constant of the amplifier circuit 3 is adjusted so as to prevent it. The procedure is described below with reference to FIG.

When the CD is started by the optical system 2 (S10), the CPU 5 receives a signal indicating the number of C1 errors among the playback signals detected by the DSP4. The CPU 5 stores the prescribed value of the number of C1 errors and compares the specified value with the number of C1 errors generated at a predetermined time (S12). As a result, if the number of C1 errors is less than the specified value, there is no particular problem in the error occurrence state of the reproduction signal, so that the following processing such as C1 error correction is performed in the DSP 4 without changing the setting constant of the amplifier circuit 3 (S14). .

On the other hand, when the number of C1 errors exceeds the specified value, the CPU 5 compares the specified value of the stored amplitude value with the amplitude value detected by the DSP 4 (S16). If the amplitude value is less than the specified value, the CPU 5 controls the resistance value of the variable resistor 3c of the gain change circuit 3a to increase the gain of the amplification circuit 3 (S18) to increase the amplitude of the reproduction signal. Amplify. Subsequently, if the number of C1 errors among the amplified reproduction signals is redetected (S12), when it is converted to a predetermined value or less, the resistance value of the variable resistor 3c is maintained and the next process is performed in the DSP 4 (S14). If the number of C1 errors is still larger than the specified value (S12), it is determined whether the gain is further increased (S18) or the equalization has already been changed (S16) according to the result of comparing the amplitude value with the prescribed value as described above (S16). S20).

On the other hand, when the amplitude value is larger than the prescribed value in step S16, the CPU 5 determines whether the equalization has already been changed (S20). In this example, since the equalization has not been changed yet, the CPU 5 determines the result of comparing the amplitude ratio of 3T / 11T and the specified value among the reproduction signals output from the amplitude comparator 6 (S22). If the amplitude ratio is larger than the specified value, adjusting the amplitude does not improve the state of the reproduction signal, so the CPU 5 maintains the current setting of the amplifying circuit 3 and the DSP 4 executes the next processing such as C2 error correction. (S24)

On the other hand, when the amplitude ratio is smaller than the prescribed value in step S22, the CPU 5 turns off the switch SW to change the time constant of the equalizer 3b (S26). That is, equalization is applied to 3T, which has the lowest frequency, to make the 3T amplification significantly higher than other signal components. As a result, when the number of C1 errors falls below the prescribed value (S12), the current setting of the amplifier circuit 3 is maintained and the next process is performed in the DSP 4 (S14). If it is still larger than the specified value (S12), the gain is increased by comparing the amplitude value of the reproduction signal with the specified value as described above (S16) (S18). If the amplitude value is smaller than the specified value (S16), since the equalization has already been changed (S26), the CPU 5 maintains the current setting of the amplifier circuit 3 (S20, S24).

When the setting constant of the amplifying circuit 3 is adjusted as described above, a regenerating operation for finally performing C1 error correction is performed when the number of C1 errors of the reproduction signal is equal to or less than the specified value (S12) or the amplifying circuit 3 A reproducing operation for performing C2 error correction and the like is determined as a burst error that cannot be improved even by adjusting the set constant of (S24).

The reproducing apparatus of the present invention may be implemented by changing the above-described adjustment procedure of the set constant. That is, in the above embodiment, the process of detecting the number of C1 errors and comparing them with the prescribed value is illustrated (S12). Instead, the present invention first judges whether or not the C2 error is detected and executes the above-described regeneration before the regeneration due to the occurrence of the C2 error. It is also possible to change the setting constant of the amplifier circuit. It is also possible to change the setting constant of the amplifier circuit 3 by judging only the comparison result between the amplitude of the reproduction signal and the specified value irrespective of the reproduction error.

In the case of performing equalization for signal components other than 3T and 11T, that is, 4T to 1OT, in the equalizer 3b, switches SW and capacitors 3d are installed in multiple stages in parallel, and each switch is controlled by the CPU 5 to open and close. This allows time constant selection range. In addition, a separate circuit for changing the setting of the Q value without changing the frequency setting in the equalizer 3b may be provided to change the amplitude for a specific frequency component.

In the above embodiment, the amplitude comparator 6 compares the amplitude ratio of 3T / 11T with a prescribed value, but instead of the amplitude comparator 6, an amplitude ratio detecting circuit of an analog reproduction signal is provided and the detected amplitude ratio is determined by the CPU 4. The CPU 4 may be configured to provide a comparison with the specified value.

In the above embodiment, the gain and equalization adjustments are performed in a group of amplifier circuits 3, but a multi-stage amplifier circuit or a gain change circuit or an equalizer are provided for the amplifier circuits and connected to the amplifier circuits, respectively. It can also be configured.

According to the present invention, since the reproduction signal is amplified while adjusting the setting constants such as gain setting and frequency setting of the amplifying circuit according to the amplitude value, error number, etc. of the analog reproduction signal, the so-called "lead system" such as a demodulation system and an error correction system is used. Margins can be increased during various digital treatments. In addition, since the set constant is changed according to the state of the reproduction signal, individual differences in reproduction quality can be solved to obtain an equal reproduction signal as well as to reduce the incidence of reproduction errors.

Claims (5)

In the reproducing apparatus of a disc type recording medium, An amplifier for amplifying the analog reproduction signal read out from the recording medium according to a variable set constant; And a control unit for comparing and determining the state of the reproduction signal with a predetermined predetermined value to adjust the set constant. The gain control apparatus according to claim 1, wherein the amplifying unit changes the gain setting according to a control signal of the control unit according to a result of comparing an amplifying circuit for amplifying the reproduction signal with a predetermined value of the amplitude of the reproduction signal. And a reproducing apparatus. The method of claim 2, wherein the amplifying unit changes the frequency setting or the setting of the Q value according to a control signal of the controller according to a result of comparing the amplitude ratio of the low frequency component and the high frequency component included in the reproduction signal with a preset predetermined value. A reproducing apparatus, further comprising an equalizer. 4. The reproducing apparatus as set forth in claim 3, wherein said control section determines the type of error generated in said reproducing signal and adjusts said set constant. 5. The reproducing apparatus as set forth in claim 4, wherein the control unit adjusts the set constant according to a result of comparing the number of errors generated in the reproduced signal with a predetermined prescribed value.