KR19990054699A - Focus Offset Corrector - Google Patents

Abstract

The present invention relates to an apparatus for correcting a focus offset of a focus error signal in an optical disc player, and receives a signal output from an optical pickup under the control of a microcomputer and a microcomputer that controls the focus servo controller. And a focus servo controller for determining a position of the objective lens of the objective lens and outputting a correction signal for the objective lens position to control the focus servo of the optical pickup.

Description

Focus Offset Corrector

The present invention relates to a device for correcting a focus offset for a signal output from an optical pick up of an optical disc player. More particularly, the present invention relates to a position of an objective lens with respect to a focusing area. The present invention relates to a device for correcting a focus offset.

When the focus servo controller receives a command for focus offset correction from the microcomputer controlling the driving of the servo controller in the optical disc player, the laser diode in the optical pickup is turned on. In addition, the focus servo controller averages the focus error signal generated when the stabilization time set for stabilization due to the objective lens vibration in the optical pickup elapses for a predetermined time, and measures the average value as a focus offset value for correcting the focus offset. Correct the offset. Then, the microcomputer receives a sense output signal indicating the operating state of the focus servo controller according to the offset correction command from the focus servo controller. An operation of the focus servo controller for correcting a focus offset will be described in more detail with reference to FIG. 1.

1 is a schematic block diagram of a portion of an optical disc player including a device for correcting a conventional focus offset. When the microcomputer 16 outputs a command signal for focus offset correction to the focus servo controller 10, the laser diode in the optical pickup 11 is turned on. Then, the light emitted from the laser diode is scanned onto the disk, and the light reflected from the disk is detected by a four-segment photodiode in the optical pickup 11 and converted into an electrical signal, followed by a focus error amplifier (FE amplifier) 12 ) Is entered. The FE amplifier 12 generates an error signal FES of the focus servo by using a signal input from the quad split photodiode and outputs the error signal FES to the offset measuring unit 13 and the focus servo calculation unit 14. The offset measuring unit 13 averages the input FES during the measurement time set by the microcomputer 16, and measures the average value FESA as a focus offset value for correcting the focus offset and outputs the result to the focus servo calculation unit 14. . At this time, the offset measuring unit 13 measures the focus offset value after a set time for stabilizing the objective lens in the optical pickup 11 under the control of the microcomputer 16. The focus servo operator 14 subtracts the FESA input from the offset measuring unit 13 from all the FES input from the FE amplifier 12 and drives the focus unit as a control signal for driving the focus actuator in the optical pickup 11. 15) The driver 15 amplifies the control signal received from the focus servo operator 14 to drive the focus actuator. The focus actuator is driven in accordance with the control signal of the driving unit 15, so that the focus offset is corrected. FIG. 2 is a diagram showing an output signal of the sense input to the microcomputer 16 at the initial position of the objective lens and a waveform of the FES. The objective lens is initially within the focusing region and is the resulting FES waveform. Then, the focus servo controller 10 executes the command of the microcomputer 16 in the output signal section of the low level L of the sense, and the focus servo controller 10 outputs the microcomputer (in the output signal section of the high level H). It means waiting for the command of 16).

The focus servo controller for correcting the focus offset by measuring a value for correcting the focus offset as described above does not consider the initial position of the objective lens when measuring the focus offset value. At this time, if the objective lens is initially located in the focusing area, a signal of unstable and random waveform is detected in the photodiode in the optical pickup 11. Thus, the FES generated from the output signal of the photodiode is also unstable and randomly generated. The focus offset value measured from the FES is not accurately measured even if the measurement time is long enough.

Accordingly, in order to solve this problem, the present invention is to provide an apparatus for correcting a focus offset by accurately checking an initial position of an objective lens and then measuring a focus offset value.

1 is a view schematically showing a part of an optical disc player including a conventional focus offset correction device;

2 is a view showing an output signal of a sense and a waveform of an FES at an initial position of an objective lens;

3 is a view schematically showing a part of an optical disc player including a focus offset correction apparatus to which the present invention is applied;

4 is a view showing the operation sequence of the microcomputer to which the present invention is applied;

5 is a view showing a waveform of a signal generated in a plurality of functional units of the focus offset correction apparatus to which the present invention is applied.

<Description of main parts of drawing>

11: optical pickup 20: focus servo control unit

21: FE amplifier 22: S amplifier

23: offset measurement unit 24: focus servo calculation unit

25: focusing signal generator 26: driver

27: micom

A feature of the present invention for achieving the above object is in the apparatus for correcting the focus offset (focus offset) for the focus error signal in the optical disc player, the optical disc player by controlling the microcomputer and the microcomputer to control the focus servo control unit Focus offset correction device including a focus servo control unit that receives the signal output from the pickup to determine the position of the objective lens in the optical pickup and outputs a correction signal for the objective lens position to control the focus servo of the optical pickup if it is in the focusing area. Is in.

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

3 is a block diagram schematically illustrating a part of an optical disc player including a focus offset correction apparatus to which the present invention is applied. The optical disc player includes all the components of the conventional optical disc player shown in FIG. 1, and an S amplifier (Sum) which receives and adds four signals output from the four-segment photodiode in the optical pickup 11 to the focus servo controller 20. The focusing signal generator 25 which receives the output signals of the amp 22 and the S amplifier 22, determines the position of the focusing region with respect to the objective lens, generates the corresponding signal, and outputs the corresponding signal to the focus servo operator 24. It further includes. The focus servo control unit configured as described above operates under the control of the microcomputer 27. The operation of the optical disc player to which the present invention is applied will now be described with reference to FIG. 4. 4 is a flowchart illustrating an operation of the microcomputer 27 for controlling the focus servo controller 20.

The microcomputer 27 outputs a command signal for correcting the focus offset to the focus servo controller 20 and checks an on / off state of the laser diode in the optical pickup 11 (step 401). As a result, if the laser diode is in the off state, step 401 is repeatedly performed. If the laser diode is in the off state, the next step is performed. Therefore, the light emitted from the laser diode is scanned onto the disk, and the light reflected from the disk is detected by the four-segment photodiode in the optical pickup 11 and converted into an electrical signal, and then the FE amplifier of the focus servo controller 20 21 and S amplifier 22 are input. The FE amplifier 21 generates an FES as a signal received from a quadrature photodiode and outputs the FES to the offset measuring unit 23 and the focus servo calculator 24. The S amplifier 22 sums all four input signals and outputs the summed signals to the focusing signal generator 25. The focusing signal generator 25 compares the magnitude S1 of the input sum signal with the magnitude S2 of a value preset by the microcomputer 27. Therefore, if S1 is larger than S2, the objective lens is in the focusing area, and the focusing signal generator 25 outputs a high level signal to the focus servo calculation unit 24. At this time, the focus servo operator 24 does not perform an operation on a signal received from the FE amplifier and the offset measurer 23. If S1 is smaller than S2, the objective lens is not in the focusing area, and the focusing signal generator 25 outputs a low level signal to the focus servo calculation unit 24. At this time, the focus servo operator 24 drives a control signal for driving the focus actuator in the optical pickup 11 according to a signal input from the focusing signal generator 25 under the control of the microcomputer 27. The microcomputer 27 determines the output signal level of the focusing signal generator 25 (step 402). When the focusing signal generator 25 outputs a high level signal, the microcomputer 27 determines a direction for searching the focusing area by the focus servo operator 24 and outputs a search execution command (403). step). Then, the focus servo operator 24 outputs an up / down control signal for driving the focus actuator in the optical pickup 11 to the driver 26 according to the received command. The driver 26 amplifies the input control signal to drive the focus actuator. Thus, the objective lens in the optical pickup 11 moves in the up / down direction according to the focus actuator.

After performing step 403, the microcomputer 27 repeats from step 402. Thus, the search for the focusing area is performed only when the focusing signal generator 25 outputs a high level signal, that is, when the objective lens is in the focusing area. When the focusing signal generator 25 outputs a low level signal as a result of repeating the operation in step 402, the microcomputer 27 searches for the focus servo operator 24 because the objective lens is out of the focusing area. A stop command of execution is output (step 404). Then, no signal is output from the focus servo calculating section 24 to the driving section 26, and the focus actuator in the optical pickup 11 also stops driving. The objective lens also stops. In this way, the search performance of the focusing area is finished, and the objective lens is in the stable focusing area. Then, the microcomputer 27 waits for a time (stabilization time) for stabilization of the objective lens in order to prevent the minute vibration caused by the stop of the objective lens from flowing into the FES as noise and measuring an incorrect focus offset value. Command and a command to measure the focus offset value after the stabilization time has elapsed are output to the focus servo controller 20 (steps 405 and 406). Thus, the focus servo controller 20 stops performing the stabilization time input from the microcomputer 27 and performs an operation for measuring the focus offset value after the stabilization time has elapsed. That is, four output signals are output to the FE amplifier 21 from the four-part photodiode in the optical pickup 11. The FE amplifier 21 generates a FES by using a signal input from a 4-split photodiode and outputs the FES to the offset measuring unit 23 and the focus servo calculating unit 24. The offset measuring unit 23 averages the input FES during the measurement time set by the microcomputer 27, measures the average value FESA as a value for correcting the focus offset, and outputs the measured FES to the focus servo calculator 24. The focus servo operator 24 subtracts the FESA input from the offset measuring unit 23 from all the FES input from the FE amplifier 21 and drives the control unit 26 as a control signal for driving the focus actuator in the optical pickup 11. Will output The driver 26 amplifies a control signal input from the focus servo operator 24 to drive the focus actuator. The focus actuator is driven in accordance with the control signal of the driver 26, so that the focus offset is corrected. The above-described measurement of the FESA is performed at the beginning of the entire system operation of the optical disc player, and focus offset correction in the focus servo controller 20 is then performed using the FESA measured initially.

5 is a diagram illustrating waveforms of signals generated from a plurality of functional units while determining a focusing area of an objective lens. 5A shows the waveform of the output signal of the focus signal generator 25, and FIG. 5B shows the output signal of the FE amplifier 21. In FIG. 5A, the focus signal generator 25 has a high level signal. Is a waveform that is unstable at the time of outputting, and is a stable constant waveform after the focus signal generator 25 outputs a low level signal. 5C shows an output signal of the focus servo operator 24, which is a waveform of an up / down signal in the focus search direction, and FIG. 5D shows an output signal of a sense indicating an operating state of the focus servo controller 20. As shown in FIG. The focus servo controller 20 executes the command of the microcomputer 27 in the low level output signal section, and the focus servo controller 20 is waiting for the command of the microcomputer 27 in the high level output signal section. .

As described above, the focus offset apparatus according to the present invention measures the value for correcting the more accurate focus offset by checking the state of the focusing area of the objective lens before measuring the value for correcting the focus offset. There is an advantage to calibrating.

Claims (9)

An apparatus for correcting a focus offset for a focus error signal in an optical disc player, A microcomputer that controls the focus servo controller; And Under the control of the microcomputer, the signal output from the optical pickup of the optical disc player is input, the position of the focusing region of the objective lens in the optical pickup is determined, and if it is within the focusing region, a correction signal for the objective lens position is output to the optical pickup. Focus offset correction apparatus including a focus servo control unit for controlling the focus servo of the pickup. According to claim 1, wherein the focus servo control unit A first amplifier receiving an output signal of the photodiode in the optical pickup and generating and outputting a focus error signal; A second amplifier receiving the output signal of the photodiode in the optical pickup and adding all the output signals; A focusing signal generator for receiving a sum signal added from the second amplifier and generating and outputting a signal corresponding to a focusing area position of an objective lens in the optical pickup; An offset measuring unit which receives a focus error signal from the first amplifier and averages the focus error signal received for a predetermined time set by the microcomputer and measures the average value as a focus offset value for correcting a focus offset; A focus servo calculation unit configured to output a control signal for driving the focus actuator according to a signal received from the first amplifier, the offset measuring unit, and the second amplifier under the control of the microcomputer; And And a driving unit which receives the control signal of the focus servo calculating unit and drives the focus actuator. The method of claim 2, wherein the focusing signal generator outputs a high level signal when the sum signal received from the second amplifier is greater than the value set by the microcomputer, and when the sum signal is low, And a focus offset correction device for outputting a level signal. 4. The method of claim 3, wherein the focusing signal generator outputs the high level signal and the magnitude of the sum signal received from the second amplifier until the low level signal is output by the control of the microcomputer. Focus offset correction apparatus, characterized in that for comparing the size of the value set by the microcomputer. 4. The method of claim 3, wherein the output of the high level from the second amplifier is a case where the objective lens is within a focusing area, and when the low level is output, the objective lens is out of a focusing area. Focus offset correction device. The method of claim 2 or 3, wherein the focus servo operator generates an up / down signal for driving the focus actuator and outputs the signal to the driver when the focus servo operator receives a high level signal from the focusing signal generator. When a signal having a level is input, after the stabilization time set by the microcomputer has elapsed, a signal offset from the first amplifier and the offset measuring unit is subtracted and a signal for the result is output to the driving unit. Device. The apparatus of claim 6, wherein the signal received from the offset measuring unit is a focus offset value for correcting a focus offset measured after the stabilization time has elapsed. The apparatus of claim 7, wherein the focus servo calculation unit corrects a focus offset by subtracting an output signal of the first amplifier which is input again to a focus offset value measured after the stabilization time has elapsed. . 10. The method of claim 6 or 7, wherein the stabilization time is the noise that can be caused by the minute vibration caused by the stop motion of the objective lens when the focus actuator stops driving during the focus offset measurement Focus offset correction apparatus, characterized in that the set time to exclude the inflow.