Patents Assigned to Sunext Technology Co., Ltd.
  • Patent number: 7957241
    Abstract: A device for detecting defect signals on an optical disc includes a finite state machine (FSM) to control a servo system of an optical disk drive. When the FSM is in a DETECT state and defect signals are greater than thresholds, a detection counter is set to a first predetermined value and the FSM enters an ARM state. In the ARM state, when the detection counter counts zero, the FSM enters a KICK state and the detection counter is set to a second predetermined value. In the KICK state, a flag signal XDFCT is asserted. When the detection counter in the KICK state counts to zero, the FSM enters a WAIT state and the detection counter is set to a third predetermined value. When the flag signal XDFCT is asserted, corresponding servo control signals for the servo system are clamped to a programmable constant voltage.
    Type: Grant
    Filed: February 1, 2010
    Date of Patent: June 7, 2011
    Assignee: Sunext Technology Co., Ltd.
    Inventor: Stefan Vaes
  • Publication number: 20110019518
    Abstract: A device for detecting defect signals on an optical disc includes a finite state machine (FSM) to control a servo system of an optical disk drive. When the FSM is in a DETECT state and defect signals are greater than thresholds, a detection counter is set to a first predetermined value and the FSM enters an ARM state. In the ARM state, when the detection counter counts zero, the FSM enters a KICK state and the detection counter is set to a second predetermined value. In the KICK state, a flag signal XDFCT is asserted. When the detection counter in the KICK state counts to zero, the FSM enters a WAIT state and the detection counter is set to a third predetermined value. When the flag signal XDFCT is asserted, corresponding servo control signals for the servo system are clamped to a programmable constant voltage.
    Type: Application
    Filed: February 1, 2010
    Publication date: January 27, 2011
    Applicant: Sunext Technology Co., Ltd.
    Inventor: Stefan Vaes
  • Patent number: 7800997
    Abstract: An optical drive servo control system comprises: an optical pickup, for accessing an optical disc and generating an optical signal; a spindle motor, for rotating the optical disc and outputting a FG signal and a spindle motor synchronous signal; a frequency-multiplied FG signal generator, for generating an actual frequency-multiplied FG signal after receiving the FG signal, the spindle motor synchronous signal, a reference clock signal, and a frequency-multiplier value; and, a servo control unit, for controlling the spindle motor and the optical pickup, and compensating a run-out error of the optical disc according to the actual frequency-multiplied FG signal; wherein the frequency-multiplied FG signal generator calculates an ideal frequency-multiplied FG signal according to the reference clock signal and the frequency-multiplier value, and a positioning error between the ideal frequency-multiplied FG signal and the actual frequency-multiplied FG signal is less than half of a period of the reference clock sig
    Type: Grant
    Filed: January 30, 2008
    Date of Patent: September 21, 2010
    Assignee: Sunext Technology Co., Ltd.
    Inventor: Chen Nan Lin
  • Patent number: 7764577
    Abstract: A method for pre-calibrating a balance gain of an analog front end in an optical disk drive to calibrate a variation of a focus balance. The method includes the steps of: adjusting the balance gain of the focus balance; moving a lens and getting an S curve; and comparing a positive half cycle of the S curve with a negative half cycle of the S curve. When the positive half cycle is equal to the negative half cycle, it represents that the balance gain of the focus balance is optimized and the procedure ends; or otherwise the above-mentioned steps are repeated to adjust the balance gain of the focus balance again. Because the balance gain is pre-calibrated, the optimal power calibration, the successful disk-reading possibility, the write-in quality and the stability of the disk judging mechanism can be enhanced and the consistency and the stability of the product can be improved.
    Type: Grant
    Filed: March 13, 2008
    Date of Patent: July 27, 2010
    Assignee: Sunext Technology Co., Ltd.
    Inventor: Der Jan Chen
  • Patent number: 7634714
    Abstract: A decoding system for eight-to-fourteen modulation or eight-to-sixteen modulation (EFM/ESM), which has an analog to digital converter (ADC), an adaptive equalizer and a Viterbi decoder. The ADC receives an analog signal with an EFM or ESM feature, and converts the analog signal into a digital signal with the EFM or ESM feature. The adaptive equalizer converts the EFM or ESM digital signal into a first signal with a minimum phase feature. The Viterbi decoder receives the first signal and generates a decoding signal in accordance with a Viterbi algorithm and a channel model, and the Viterbi decoder discards nonexistent paths in accordance with the EFM or ESM feature when computing branch metric of a branch or a node.
    Type: Grant
    Filed: March 28, 2006
    Date of Patent: December 15, 2009
    Assignee: Sunext Technology Co., Ltd.
    Inventor: Wen-Chang Lin
  • Patent number: 7616535
    Abstract: A method for determining a track searching direction is disclosed. The method takes advantage of the characteristic that the movement of the photo-diode with respect to the optical disk is not perpendicular to the track direction. Therefore, the phase difference between the front side and the rear side of the photo-diode could be used to define a seeking error signal. The seeking error signal is used, together with a tracking error (TE) signal and a radio frequency ripple (RFRP) signal, to determine the track searching direction. Because the seeking error signal has a better signal-to-noise ratio, the phase lead or lag can be determined more accurately. As a result, the accuracy of detecting the track searching direction on a blank disk is improved.
    Type: Grant
    Filed: April 16, 2007
    Date of Patent: November 10, 2009
    Assignee: Sunext Technology Co., Ltd.
    Inventor: Yushyang Huang
  • Patent number: 7587014
    Abstract: A digital frequency/phase recovery circuit includes a comparator with hysteresis, a counter, a frequency determiner, a multi-phase clock generator, a transition detector, a phase adjuster, and a multiplexer. The comparator with hysteresis receives the input signal and generates a comparison signal. The counter receives the comparison signal, calculates the pulse number of the comparison signal in one period, and outputs a pulse value. The frequency determiner receives the pulse value, calculates the frequency of the input signal, and generates a frequency value. The multi-phase clock generator receives the frequency value and generates multi-phase reference clocks according to the frequency value. The transition detector receives the comparison signal and generates a transition signal.
    Type: Grant
    Filed: December 28, 2005
    Date of Patent: September 8, 2009
    Assignee: Sunext Technology Co., Ltd.
    Inventor: Wen-Chang Lin
  • Publication number: 20080192593
    Abstract: An optical drive servo control system comprises: an optical pickup, for accessing an optical disc and generating an optical signal; a spindle motor, for rotating the optical disc and outputting a FG signal and a spindle motor synchronous signal; a frequency-multiplied FG signal generator, for generating an actual frequency-multiplied FG signal after receiving the FG signal, the spindle motor synchronous signal, a reference clock signal, and a frequency-multiplier value; and, a servo control unit, for controlling the spindle motor and the optical pickup, and compensating a run-out error of the optical disc according to the actual frequency-multiplied FG signal; wherein the frequency-multiplied FG signal generator calculates an ideal frequency-multiplied FG signal according to the reference clock signal and the frequency-multiplier value, and a positioning error between the ideal frequency-multiplied FG signal and the actual frequency-multiplied FG signal is less than half of a period of the reference clock sig
    Type: Application
    Filed: January 30, 2008
    Publication date: August 14, 2008
    Applicant: SUNEXT TECHNOLOGY CO., LTD.
    Inventor: CHEN NAN LIN
  • Publication number: 20080037389
    Abstract: A method for determining a track searching direction is disclosed. The method takes advantage of the characteristic that the movement of the photo-diode with respect to the optical disk is not perpendicular to the track direction. Therefore, the phase difference between the front side and the rear side of the photo-diode could be used to define a seeking error signal. The seeking error signal is used, together with a tracking error (TE) signal and a radio frequency ripple (RFRP) signal, to determine the track searching direction. Because the seeking error signal has a better signal-to-noise ratio, the phase lead or lag can be determined more accurately. As a result, the accuracy of detecting the track searching direction on a blank disk is improved.
    Type: Application
    Filed: April 16, 2007
    Publication date: February 14, 2008
    Applicant: SUNEXT TECHNOLOGY CO., LTD.
    Inventor: Yushyang Huang
  • Publication number: 20070103207
    Abstract: A source follower, which can increase the voltage swing of the input terminal and overcome the insufficient driving capability of the typical source follower, includes a first current source, a first transistor, a second current source, a second transistor, a third current source and a third transistor, and uses the counteraction of the gate-source voltages of the second and third transistors to increase the voltage swing of the input terminal to the first transistor. Accordingly, the circuit is not likely to have the saturation effect on its input terminal due to the increased voltage swing of the input voltage, thereby avoiding the distortion.
    Type: Application
    Filed: November 8, 2006
    Publication date: May 10, 2007
    Applicant: Sunext Technology Co., Ltd.
    Inventor: Yushyang Huang
  • Publication number: 20060242545
    Abstract: A decoding system for eight-to-fourteen modulation or eight-to-sixteen modulation (EFM/ESM), which has an analog to digital converter (ADC), an adaptive equalizer and a Viterbi decoder. The ADC receives an analog signal with an EFM or ESM feature, and converts the analog signal into a digital signal with the EFM or ESM feature. The adaptive equalizer converts the EFM or ESM digital signal into a first signal with a minimum phase feature. The Viterbi decoder receives the first signal and generates a decoding signal in accordance with a Viterbi algorithm and a channel model, and the Viterbi decoder discards nonexistent paths in accordance with the EFM or ESM feature when computing branch metric of a branch or a node.
    Type: Application
    Filed: March 28, 2006
    Publication date: October 26, 2006
    Applicant: Sunext Technology Co., Ltd.
    Inventor: Wen-Chang Lin