RU98110812A - DATA DISCOVERY DEVICE (OPTIONS) AND DATA DISCOVERY METHOD - Google Patents

Claims (19)

1. A data detection device comprising a converter for converting a received signal into digital data by a selective synchronizing signal, a maximum likelihood decoder for decoding the maximum likelihood of digital data, and a generator for measuring a phase difference between sample points of the digital data and the optimal detection points of the received signal and for generating a control signal for changing the phase of the selective synchronizing signal in accordance with the measured second phase difference.  2. The data detection device according to claim 1, characterized in that the number of optimal detection points is one or more points.  3. The data detection device according to claim 1, characterized in that the driver comprises a calculator for calculating the absolute value of the difference between the digital data level and each of the series of reference levels with respect to a given number of optimal detection points and outputting the results as a phase error, and driver signal for generating a control signal corresponding to a phase error.  4. The data detection device according to claim 3, characterized in that the calculator comprises a first comparator for comparing the first reference level, which represents an optimal detection point for the level “+1”, with a digital data level for measuring the difference between them, a second comparator for comparison the second reference level representing the optimal detection point for level "0", with the level of digital data for measuring the difference between them, the third comparator for comparing the third reference level representing the optimal point about exposure for level "-1", with the level of digital data for measuring the difference between them, the fourth comparator for comparing the output signals from the first and second comparators for outputting the output signal of the lower of the two levels and the fifth comparator for comparing the output signals from the third and fourth comparators to output the lower of the two levels.  5. The data detection device according to claim 3, characterized in that the driver of the control signal comprises a pulse former with a pulse-width modulation for generating signals with pulse-width modulation in accordance with a phase error and a low-pass filter for converting a pulse-width modulated signal into a signal voltage and for issuing an output voltage signal in the form of a control signal.  6. The data detection device according to claim 3, characterized in that it further comprises a clock generator for generating a selective synchronizing signal and changing the phase of the selective synchronizing signal in accordance with the control signal and supplying the resulting signal to the converter and a reference level generator for generating reference levels for a given number of optimal detection points.  7. A data detection device comprising a converter for converting a received signal into digital data by a selective synchronizing signal, a maximum likelihood decoder for decoding to the maximum likelihood of digital data, a generator for measuring the phase difference between sample points of the digital data and the optimal detection points of the received signal and for generating a control signal corresponding to the measured phase difference and phase shifter for phase shift selectively th synchronization signal in accordance with the control signal.  8. The data detection device according to claim 7, characterized in that the number of optimal detection points is one or more points.  9. The data detection device according to claim 7, characterized in that the driver comprises a calculator for calculating the absolute value of the difference between the digital data level and each of the series of reference levels with respect to a given number of optimal detection points and outputting the results as a phase error and the driver a control signal for generating a control signal corresponding to a phase error.  10. The data detection device according to claim 9, characterized in that the calculator comprises a first comparator for comparing the first reference level, which represents an optimal detection point for the level “+1”, with a digital data level for measuring the difference between them, a second comparator for comparison the second reference level representing the optimal detection point for level "0", with the level of digital data for measuring the difference between them, the third comparator for comparing the third reference level representing the optimal point about detection for level "-1", with a digital data level for measuring the difference between them, the fourth comparator for comparing the output signals from the first and second comparators to produce the output signal of the lower of the two levels and the fifth comparator for comparing the output signals from the third and fourth comparators to output the lower of the two levels.  11. The data detection device according to claim 9, characterized in that the driver of the control signal comprises a signal generator with pulse-width modulation for generating signals with pulse-width modulation in accordance with a phase error and a low-pass filter for converting a signal with pulse-width modulation into a voltage signal and for issuing an output voltage signal in the form of a control signal.  12. The data detection device according to claim 9, characterized in that it further comprises a reference level generator for generating reference levels for a given number of optimal detection points.  13. A data detection device for a digital recording-reproducing device with a maximum likelihood decoder, comprising a converter for converting the input reproduced signal to digital data using a selective synchronization signal and for supplying a resulting signal to the maximum likelihood decoder, and a shaper for measuring a phase difference between the sample points of the digital data and a predetermined number of optimal detection points of the reproduced signal and for the formation of the control signal for changing the phase of the selective synchronization signal in accordance with the measured phase difference.  14. The data detection device according to claim 13, characterized in that it further comprises a phase shifter for shifting the phase of the selective synchronizing signal in accordance with the control signal.  15. The data detection device according to p. 13, characterized in that the driver includes a first comparator for comparing the first reference level, which represents the optimal detection point for the level of "+1", with the level of digital data for measuring the difference between them, the second comparator for comparison a second reference level representing the optimum detection point for level "0", with a digital data level for measuring the difference between them, a third comparator for comparing a third reference level representing the optimal point the detection for level “-1”, with the level of digital data for measuring the difference between them, the fourth comparator for comparing the output signals from the first and second comparators to provide the output signal of the lower of the two levels, the fifth comparator for comparing the output signals from the third and fourth comparators for generating an output signal of a lower of two levels, a pulse-width modulated signal conditioner for generating a pulse-width modulated signal in accordance with the output signal from the heel o a comparator and a low-pass filter for converting a pulse-width modulated signal into a voltage and for outputting a voltage higher than the control signal at the output.  16. A method for detecting data comprising operations (a) converting a received signal to digital data by a selective synchronizing signal, / in / decoding to the maximum likelihood of digital data, / e / measuring the phase difference between sample points of digital data and optimal points of detection of the received signal and generating a control signal for changing the phase of the selective clock signal in accordance with the measured phase difference.  17. The method according to p. 16, characterized in that it further comprises the operation / d / phase shift of the selective synchronization signal in accordance with the control signal.  18. The method according to p. 16, characterized in that the operation / s / contains suboperations / s 1 / calculating the absolute value of the difference between the level of digital data and each of a number of reference levels with respect to a given number of optimal detection points for measuring phase error and / s 2 / generating a control signal corresponding to a phase error.  19. The method according to p. 16, characterized in that the operation / s / contains suboperations / s 1 / comparing the first reference level, which represents the optimal detection point for the level of "+1", with the level of digital data for measuring the difference between them and output the output of the first signal, / s 2 / comparison of the second reference level, which represents the optimal detection point for level "0", with the level of digital data for measuring the difference between them and the output of the second signal, / s 3 / comparison of the third reference level, which represents optima the detection point for the level of “-1”, with the level of digital data for measuring the difference between them and outputting the third signal at the output, / s 4 / comparing the levels of the first and second signals to produce the output signal of the lower of the two levels as a fourth signal, / s 5 / comparing the levels of the third and fourth signals to produce the output signal of the lower of the two levels in the form of a phase error, / s 6 / converting the phase error into a signal with pulse-width modulation and / s 7 / converting the signal with pulse-width modulationinto voltage, which is a control signal.