JP3974009B2 - Optical pickup device and optical recording / reproducing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical pickup device, an optical recording / reproducing device, and an inspection device, and more specifically, for example, an optical pickup device used for recording or reproducing information by irradiating an optical recording medium with light, The present invention relates to an optical recording / reproducing apparatus and an inspection apparatus for inspecting the optical pickup apparatus.
[0002]
[Prior art]
The optical recording / reproducing apparatus includes an optical pickup device, and reproduces information by irradiating an optical recording medium with light and reading reflected light. In addition, information is recorded on the optical recording medium by irradiating the desired position on the optical recording medium with light.
[0003]
Here, for example, in a CD (Compact Disc) player as an optical recording / reproducing apparatus, in order to reproduce a CD as an optical recording medium, it is necessary to very finely adjust the light irradiation position on the CD. . That is, it is necessary to adjust so that light is irradiated to the track on the CD on which pits for information recording are formed. For this reason, a tracking servo for adjusting the lateral shift between the track on the CD and the light irradiation position, a focusing servo for adjusting the light irradiation position (focus position) in the CD thickness direction to the pit, and the like are performed.
[0004]
Since these servo operations are performed by feedback control, in order to perform the servo operation, it is necessary to set a predetermined gain value according to the light irradiation intensity or the like. After the gain value is set, a servo operation is performed to change the control amount so that the measured value matches the target value by feedback control, and information is recorded or reproduced.
[0005]
Here, the conventional CD player sets a predetermined gain value each time the CD is exchanged, for example, in order to accurately reproduce the CD.
[0006]
For example, as servo gain adjustment, every time a CD is replaced, the effects of servo gain changes due to various variations such as error signal detection sensitivity of the optical pickup, actuator drive sensitivity, disk reflectivity, track pitch, etc. Correction is performed by inspecting the inspection item, and the gain value is set. After that, servo operation was performed. Also, defocusing and the like are adjusted every time the disk is replaced, similar to the servo gain adjustment.
[0007]
Japanese published patent publication "Japanese Patent Laid-Open No. 5-217315" discloses a configuration for automatically adjusting the gain of the focus / tracking servo loop of the optical disc apparatus with the loop closed.
[0008]
In addition, in Japanese published patent publication “Japanese Patent Laid-Open No. 2-265005”, by determining and displaying the quality of the set values of the focus servo loop gain and tracking servo loop gain set in the gain test mode, A configuration for improving productivity is disclosed.
[0009]
In Japanese published patent publication “JP 63-106003 A”, a difference between positive and negative peak values (pp value) of a predetermined error signal obtained in an open state of a servo loop is detected. A configuration is disclosed in which a stable servo operation is always obtained by setting a gain constant based on the detected value and controlling the gain of the variable gain amplifier in accordance with the gain constant.
[0010]
[Patent Document 1]
JP-A-5-217315
[0011]
[Patent Document 2]
Japanese Patent Laid-Open No. 2-265025
[0012]
[Patent Document 3]
JP 63-106003 A
[0013]
[Problems to be solved by the invention]
However, the above conventional technique has a problem that the start-up time until the reproduction or recording of the optical recording medium cannot be shortened.
[0014]
That is, in the above conventional technique, the above-described various inspection items are performed every time the optical recording medium is replaced. The inspection items include those relating to the characteristics of the optical pickup device of the optical recording / reproducing apparatus, in addition to those relating to characteristics different for each optical recording medium.
[0015]
As described above, since the characteristics that do not change due to the replacement of the optical disk are also inspected and adjusted, extra time is required to start up the apparatus, and the startup time cannot be shortened.
[0016]
The present invention has been made in view of the above problems, and an object of the present invention is to provide an optical pickup device, an optical recording / reproducing device, and an inspection capable of shortening the start-up time required for adjustment for reproduction or recording of the optical recording medium. To provide an apparatus.
[0017]
[Means for Solving the Problems]
In order to solve the above problems, an optical pickup device according to the present invention detects irradiation light that irradiates an optical recording medium with light from a light source, and light reflected by the optical recording medium. Detecting means for outputting a detection signal and moving means for moving the irradiating means and the detecting means, and operating the irradiating means and the moving means in accordance with at least a servo parameter set using the detection signal. In the optical pickup device that performs a servo operation of irradiating light to a desired position of the optical recording medium, the operation characteristics of the irradiation unit, the detection unit, and the moving unit in the servo operation are stored. It is characterized by comprising storage means.
[0018]
The optical pickup device is used, for example, in an optical recording / reproducing device that performs reproduction or recording of an optical recording medium. When the optical pickup device is provided in an optical recording / reproducing device, in order to read or record with high accuracy according to variations in the optical pickup device main body or the optical recording medium, adjustment according to the variation factor is performed. Based on the set servo parameter, a servo operation is performed in accordance with control from the optical recording / reproducing apparatus. The optical recording / reproducing apparatus reads or records on an optical recording medium by causing the optical pickup apparatus to perform a servo operation. For this reason, in the optical recording / reproducing apparatus, in order to read the optical recording medium or perform recording on the optical recording medium, a start-up time for performing the above adjustment is required.
[0019]
More specifically, the optical recording / reproducing apparatus sets the servo parameter using the detection signal as the variation element and the operation characteristic stored in the storage unit. Then, driving is performed according to the servo parameters, and the optical pickup device performs a servo operation.
[0020]
Here, in the servo operation, the operating characteristics of the irradiating means, the detecting means, and the moving means are, for example, operating characteristics relating to the blinking time for driving the light source in the irradiating means and the light source output (laser output variation), and Characteristics of detectors that receive the return light (variation of mounting position and sensitivity), operating characteristics due to the placement of actuators in the moving means for moving the irradiating means or the objective lens as the detecting means (variation of arrangement) The operating characteristics of the moving means as the voltage applying means for driving the actuator are included. These operating characteristics are operating characteristics caused by variations peculiar to the optical pickup device, and can be used to set servo parameters.
[0021]
Here, the servo parameter is a parameter (gain) that characterizes this change when the element (each means) is driven and changed to a desired target value in the servo operation. Is something. During the servo operation, the element is driven according to the servo parameter to change it to a desired target value.
[0022]
Here, the optical pickup device has a storage means for storing operation characteristics. This storage means is, for example, a nonvolatile storage means. Therefore, for example, when the optical recording / reproducing apparatus includes the optical pickup device, the stored operation characteristics can be read out at a desired timing. As a result, the data specific to the optical pickup device can be obtained accurately and the servo parameters can be set. In addition, since the servo parameters are set using the operation characteristics stored in the storage means, the servo parameters can be easily set.
[0023]
Further, when the optical pickup device is provided in the optical recording / reproducing device, the servo parameters can be easily set. Therefore, the start-up time for reproducing the optical recording medium or recording on the optical recording medium in the optical recording / reproducing device. Can be shortened.
[0024]
Note that the operating characteristics of the optical pickup device described above with respect to variations in the optical pickup device may be stored in the storage means during production of the optical pickup device or the optical recording / reproducing device. Alternatively, the configuration may be such that what is measured and stored during the servo operation is used next time. That is, the optical recording / reproducing apparatus may function as an inspection apparatus that measures the operating characteristics of the optical pickup device and stores the measured operating characteristics in the storage means.
[0025]
The adjustment in the optical pickup device can also be expressed as follows. First, among the variation elements, those related to the optical pickup device include, for example, variations in actuators for movement, variations in the mounting position of the detection means, variations in sensitivity of the detection means, variations in laser output, and the like. These are stored in the storage means. On the other hand, among the variation factors, there is variation in the reflectance of the optical recording medium, which relates to the performance of the optical recording medium itself. For this, reading is performed using a detection signal for each optical recording medium during recording or reproduction. As described above, if the servo parameters are set using the operation characteristics and the detection signal stored in the storage unit, the adjustment can be performed with high accuracy in a short time.
[0026]
The optical pickup device includes a light source, an objective lens that focuses the beam emitted from the light source on a recording medium, an actuator that moves the objective lens to perform focus control and tracking control, and drives the actuator. An optical pick-up apparatus comprising a voltage applying means, a light receiving means for receiving a return light from the recording medium, and a means for controlling a blinking time and a light source output of the light source, comprising a storage means, the storage means Data corresponding to the relationship between the output voltage of the voltage applying means for driving the actuator and the amount of movement of the objective lens by the actuator, data relating to the deviation of the light receiving means from the installation position and the normal position, the light receiving means Data on the photoelectric conversion sensitivity of the device, time management data for blinking the light source Data, an optical pickup device having stored data related to the output for lighting of the light source, and can be expressed.
[0027]
In order to solve the above-described problems, an optical pickup device according to the present invention includes a temperature measurement unit for measuring temperature in the above-described configuration, and the storage unit stores a predetermined temperature related to the operating characteristics. It is characterized by being.
[0028]
Here, the predetermined temperature related to the operation characteristics stored in the storage means is, for example, the temperature when the operation characteristics of each means (irradiation means, detection means, moving means) provided in the optical pickup device are measured. For example, it may be a predetermined reference temperature in specification for proper operation of the optical recording / reproducing apparatus.
[0029]
When the optical pickup device is provided in the optical recording / reproducing device, the optical recording / reproducing device sets the servo parameter using the temperature measured by the temperature measuring means and the predetermined temperature stored in the memory means. . More specifically, first, for example, the servo parameter is calculated using the operation characteristic stored in the storage unit and the detection signal measured at a predetermined temperature stored in the storage unit. An appropriate servo parameter is set by converting the temperature according to the temperature measured by the temperature measuring means. For example, for variations in the mounting position of the detection means, the temperature deformation of each member of the detection means is calculated, and the change in the servo parameter is calculated. The same applies to other items.
[0030]
Therefore, for example, depending on the operating characteristics measured at the time of production of the optical pickup device and the temperature at the time of measurement, the temperature measurement means measures the temperature and converts the temperature using the temperature. Even if there is, it can be used with correction. Therefore, when the optical pickup device is provided in an optical recording / reproducing device, the accuracy of setting servo parameters can be increased.
[0031]
In order to solve the above problems, an optical pickup device according to the present invention is characterized in that, in the above configuration, the storage means stores production date and time of the optical pickup device body, a lot number, and data on the light source. It is said.
[0032]
Here, the data relating to the light source includes, for example, data relating to the lifetime of the light source.
[0033]
According to this configuration, for example, at the time of failure or repair of the optical recording / reproducing device, the production date / time of the optical pickup device, measurement data, lot number, or data on the light source can be used to quickly analyze the cause of failure or deal with repair. Correspondence becomes possible.
[0034]
In order to solve the above-described problems, an optical recording / reproducing apparatus according to the present invention includes any one of the above-described optical pickup apparatuses and a control unit that controls the optical recording / reproducing apparatus main body. The servo operation of the optical pickup device is controlled by using the operation characteristic stored in the means and the detection signal of the detection means.
[0035]
When reproducing or recording an optical recording medium, the optical recording / reproducing apparatus reads out the operating characteristics from the storage means of the optical pickup device, and uses the operating characteristics and the detection signal to perform servo control. Set the servo parameters.
[0036]
More specifically, with regard to variations in the optical pickup device, for example, operation characteristics (inspection item data) at the time of production of the optical pickup device are read from a storage unit mounted on the optical pickup device. As for the variation (reflectance) of the optical recording medium, the amplitude of the error signal in the optical recording / reproducing apparatus can be obtained as a detection signal. Therefore, the adjustment can be simplified and the adjustment can be performed with high accuracy in a short time.
[0037]
Note that the optical recording / reproducing apparatus is an optical recording / reproducing apparatus in which any of the optical pickup devices described above is mounted, adjustment items are omitted based on data from the storage means, and an optical recording medium is recorded / reproduced. It can also be expressed as
[0038]
In order to solve the above-described problems, an optical recording / reproducing apparatus according to the present invention includes any one of the above-described optical pickup apparatuses and a control unit that controls the optical recording / reproducing apparatus body. The operation characteristic stored in the means is taken into the main body storage means of the optical recording / reproducing apparatus main body, and the control means uses the operation characteristic stored in the main body storage means and the detection signal of the detection means. The servo operation of the optical pickup device is controlled.
[0039]
The optical recording / reproducing apparatus reads out the operating characteristics from the storage means mounted on the optical pickup device and takes it in the main body storage means on the optical recording / reproducing apparatus main body side. When the optical recording / reproducing apparatus performs reproduction or recording of the optical recording medium, it reads out the operation characteristics from the main body storage means, and uses these operation characteristics and the detection signal to determine the servo parameters for servo control. Set up.
[0040]
For this reason, the optical recording / reproducing apparatus does not read the operating characteristics (inspection item data) stored in the storage means of the optical pickup apparatus every time the apparatus is started or the optical recording medium is replaced. The adjustment is made based on the data stored in the main body storage means of the main body of the optical recording / reproducing apparatus. As a result, the startup time can be further shortened.
[0041]
In order to solve the above problems, an optical recording / reproducing apparatus according to the present invention includes, in the above configuration, replacement detection means for detecting replacement of the optical pickup apparatus, and the control means detects replacement by the replacement detection means. Accordingly, the operation characteristic stored in the storage means of the optical pickup device is fetched into the main body storage means of the optical recording / reproducing apparatus main body.
[0042]
Here, the optical recording / reproducing apparatus needs to rewrite the contents stored in the main body storage means when the optical pickup apparatus is replaced for repair or the like. This is because if such rewriting is not performed, an inappropriate servo parameter is set, and an appropriate servo operation may not be performed.
[0043]
According to the above configuration, when the optical pickup device is replaced, the replacement detection unit detects the replacement, and in response thereto, the control unit displays the operation characteristics stored in the storage unit of the optical pickup device. Into. Therefore, even when the optical pickup device is replaced, it is possible to obtain operation characteristics peculiar to the optical pickup device, set an appropriate servo parameter, and perform an appropriate servo operation.
[0044]
The replacement detection means can be realized by, for example, a method of reading the lot number of the optical pickup device and detecting the presence / absence of this lot number change.
[0045]
In order to solve the above problems, an inspection apparatus according to the present invention detects irradiation light that irradiates light from a light source onto an optical recording medium and light reflected by the optical recording medium that is irradiated by the irradiation means. In an inspection apparatus for inspecting an optical pickup device including a detection means for outputting a detection signal, and a moving means for moving the irradiation means and the detection means, the optical pickup device is controlled to control the optical recording medium. The optical pickup apparatus includes a control unit that performs a servo operation for irradiating light to a desired position, and a measurement unit that measures operating characteristics of the irradiation unit, the detection unit, and the moving unit in the servo operation. In the servo operation, there is provided a storage means for storing the operation characteristics of the irradiation means, the detection means, and the moving means. It said control means has a measured operating characteristic of said measuring means is characterized in that is stored in the storage means.
[0046]
The inspection device measures the operating characteristics of the optical pickup device, and when the optical pickup device is provided with storage means, stores the measured operating characteristics in the storage means.
[0047]
Therefore, if this inspection apparatus inspects the optical pickup apparatus according to the present invention, the operation characteristics can be stored in the optical pickup apparatus. If this optical pickup apparatus is provided in the optical recording / reproducing apparatus according to the present invention, the start-up time of the apparatus during reproduction or recording of the optical recording / reproducing apparatus can be shortened.
[0048]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS.
[0049]
As shown in FIG. 1, an optical recording / reproducing apparatus 1 of this embodiment includes an optical pickup (optical pickup apparatus) 2, a system controller (control means, main body storage means, exchange detection means) 3, and an RF (high frequency) processing circuit 4. ADC (Analog Digital Converter) 5, signal processing circuit 6, digital servo processing circuit (control means) 7, PWM (Pulse Width Modulation) signal generation circuit (control means) 8, PWM driver (control means) 9, spindle motor driver (Control means) 10, a thread motor (moving means) 11, and a spindle motor (moving means) 12 are provided.
[0050]
The optical pickup 2 includes an LD (Laser Diode) (irradiation unit) 13, an LD driver (irradiation unit) 14, an objective lens 15, a photodetector (detection unit) 16, an objective lens driving actuator (moving unit) 17, and a memory (memory). Means) 18 and a temperature measuring device (temperature measuring means) 19.
[0051]
The optical pickup 2 is for reproducing or recording information by irradiating an optical disc (optical recording medium) D with pulsed light. Since a signal with a very narrow pitch is output as pulsed light, high-density recording / reproduction is possible. The optical pickup 2 is moved by a thread motor 11 or the like to perform focusing servo and tracking servo. During this servo operation, the optical pickup 2 is moved by an intermediate transmission means (not shown) that converts, for example, the rotational drive of the sled motor 11 into linear drive.
[0052]
The LD 13 is used for irradiating the optical disc D with pulsed light under pulse emission control by the LD driver 14. The LD driver 14 performs pulse generation at the time of pulse emission of the LD 13 and control of laser power in accordance with signals from the system controller 3 and the signal processing circuit 6.
[0053]
The objective lens 15 is for condensing the light from the LD 13 onto the optical disc D or for guiding the light from the optical disc D to the photodetector 16. The objective lens 15 is driven by an objective lens driving actuator 17.
[0054]
The photodetector 16 includes a first photodetector (detection means) 16a and a second photodetector (detection means) 16b. The first photodetector 16 a is for obtaining an RF signal from light incident on the photodetector 16 via the objective lens 15. The detection signal by the first photodetector 16a is composed of two signals with opposite phases. The second photodetector 16b is for obtaining a tracking error signal and a focus error signal from the light incident on the photodetector 16 through the objective lens 15. The first photodetector 16 a and the second photodetector 16 b output detection signals obtained by receiving light to the RF processing circuit 4.
[0055]
The objective lens drive actuator 17 drives the objective lens 15 according to the drive signal from the PWM driver 9. Servo operation is also performed by this driving.
[0056]
The memory 18 is a non-volatile memory. Data is read from and written to the memory 18 from the system controller 3. Further, the system controller 3 according to the present embodiment detects replacement of the optical pickup 2 in accordance with data stored in the memory 18.
[0057]
The memory 18 of this embodiment stores the operating characteristics of the optical pickup 2. For example, after the optical pickup 2 is manufactured at a factory, the operation characteristics are inspected with respect to a predetermined inspection item, and the obtained operation characteristics are stored. The inspection of the operating characteristics will be described later.
[0058]
When the optical recording / reproducing apparatus 1 records or reproduces the optical disc D, the system controller 3 reads data stored in the memory 18. The system controller 3 calculates data related to the digital servo processing circuit 7 based on this data as adjustment for servo operation, and sets a predetermined gain value (servo parameter), for example.
[0059]
The temperature measuring device 19 is a device for measuring temperature provided in the optical pickup 2. The temperature measuring device 19 measures the temperature of the optical pickup 2, for example. The measurement result by the temperature measuring device 19 is read into the system controller 3.
[0060]
As described above, the system controller 3 of the present embodiment sets the predetermined gain value as described above by using the measurement result by the temperature measuring device 19 in addition to the data stored in the memory 18.
[0061]
For example, the temperature may be measured using the temperature measuring device 19, and the setting of the gain value may be changed according to the measured temperature.
[0062]
Further, the system controller 3 of the present embodiment may be configured to capture the contents stored in the memory 18 into the system controller 3 as a main body storage unit. This capture can be performed at a desired timing. For example, it may be when the memory 18 of the optical pickup 2 and the system controller 3 are connected, or for example, when the optical recording / reproducing apparatus 1 is turned on.
[0063]
Further, the system controller 3 of the present embodiment is configured to detect the replacement of the optical pickup 2 and to capture the contents stored in the memory 18 into the system controller 3 as the main body storage means in response to this detection. Also good. In the present embodiment, the system controller 3 uses the memory 18 to detect replacement of the optical pickup 2.
[0064]
Here, the system controller 3 is for controlling the optical recording / reproducing apparatus 1. The system controller 3 transmits and receives control signals and the like between the signal processing circuit 6 and the digital servo processing circuit 7, and controls the signal processing circuit 6 and the digital servo processing circuit 7 as necessary. In addition, a control signal is transmitted to control the LD driver 14.
[0065]
The RF processing circuit 4 performs IV conversion of the signal sent from the optical pickup 2 from a current signal to a voltage signal, and outputs it to the signal processing circuit 6 and the ADC 5.
[0066]
In particular, the detection signal from the first photodetector 16a is calculated by the RF processing circuit 4 as a difference signal between the two signals (substantial sum signal) and subjected to AGC (Automatic Gain Control) processing to obtain a signal processing circuit. 6 is output. On the other hand, the signal from the second photodetector 16 b is converted into error signals for tracking and focusing by the RF processing circuit 4 and output to the ADC 5.
[0067]
The ADC 5 converts each error signal from the RF processing circuit 4 from an analog signal to a digital signal (AD conversion) and outputs it to the digital servo processing circuit 7.
[0068]
The signal processing circuit 6 performs error correction, deinterleaving, NRZI conversion, Viterbi decoding, and the like on the signal from the RF processing circuit 4. The signal processing circuit 6 transmits and receives control signals and the like to and from the system controller 3 and outputs control signals to the LD driver 14.
[0069]
The digital servo processing circuit 7 generates a final error signal from the digital signal input from the ADC 5. More specifically, a spin error signal is generated based on a digital signal from the ADC 5, that is, based on a synchronization signal obtained from an RF signal. The error signal is equalized by a phase compensation circuit (not shown) and output to the system controller 3 and the PWM signal generation circuit 8. The digital servo processing circuit 7 is mainly composed of a DSP (digital signal processor).
[0070]
The PWM signal generation circuit 8 generates a PWM signal for performing focusing and tracking, and outputs the PWM signal to the PWM driver 9 and the spindle motor driver 10.
[0071]
The PWM driver 9 outputs the PWM signal from the PWM signal generation circuit 8 to the sled motor 11 and the objective lens driving actuator 17 at a predetermined timing.
[0072]
As described above, the PWM driver 9 performs focus control and tracking control of the objective lens driving actuator 17. That is, the objective lens drive signal, which is a PWM signal, is converted from an analog signal to a digital signal by the ADC 5 based on the signal from the RF processing circuit 4 and further converted by the digital servo processing circuit 7 to generate a PWM signal. This is supplied to the objective lens driving actuator 17 provided in the optical pickup 2 via the circuit 8 and the PWM driver 9.
[0073]
Further, the PWM driver 9 outputs the PWM signal from the PWM signal generation circuit 8 to the sled motor 11 to perform focus control and tracking control of the optical pickup 2.
[0074]
The spindle motor driver 10 outputs the PWM signal from the PWM signal generation circuit 8 to the spindle motor 12 to control the rotation of the spindle motor 12. The spindle motor 12 rotates the optical disc D.
[0075]
Here, the optical disc D of the present embodiment is a phase change optical disc capable of recording or reproducing information. The optical recording medium according to the present invention is not limited to this configuration, and may be, for example, a read-only optical disk or a magneto-optical disk.
[0076]
This phase change type optical disk D utilizes the characteristic that a multi-element material reversibly changes between crystalline and amorphous. At the time of recording, laser light is pulse-irradiated to rapidly heat the desired position of the recording film to the melting point or more, and it becomes amorphous by a rapid cooling process.
[0077]
At the time of erasing, the desired position of the recording film is set to a temperature not lower than the crystallization temperature and not higher than the melting point by laser light, and gradually heated and cooled to return the amorphous portion to the crystalline state.
[0078]
The optical disc D has different reflectivities between the crystalline phase (high reflectivity) and the amorphous phase (low reflectivity). Therefore, the optical recording / reproducing apparatus 1 performs reproduction by detecting the change in the amount of reflected light.
[0079]
When the optical recording / reproducing apparatus 1 configured as described above reproduces information recorded on the optical disc D, the optical disc D is subjected to feedback control while performing a feedback control after setting a predetermined gain value, for example, through an adjustment process described later. Is read. That is, in the optical recording / reproducing apparatus 1, an adjustment process for adjusting the light irradiation position and the like is required from the start of the apparatus to the start of reading of information on the optical disc D. Similarly, when recording on the optical disc D, an adjustment process is required.
[0080]
Here, the adjustment process up to the start of reading of the optical disc D in the optical recording / reproducing apparatus 1 will be described with reference to FIG. In FIG. 2, the parentheses given after the description of each step indicate the approximate time required for the operation. For example, the operation of S1 requires approximately 3000 ms.
[0081]
In step S1, the optical disc D is inserted into the optical recording / reproducing apparatus 1. In S2, the temperature measuring device 19 measures the temperature of the optical recording / reproducing apparatus 1. In S3, circuit offset adjustment in the optical recording / reproducing apparatus 1 is performed.
[0082]
In S <b> 4, data (operation characteristics) related to the optical pickup 2 is read from the memory 18. This data is data that is inspected and recorded at the time of production of the optical pickup 2, and more specifically, temperature data at the time of inspection and data of each inspection item of the optical pickup 2. The inspection at the time of production and data recording will be described later. This reading is performed by the system controller 3 in a short time (about 5 ms).
[0083]
The inspection items of the optical pickup 2 may include the following items, for example. Data corresponding to the relationship between the output voltage of the PWM driver 9 serving as a voltage applying means for driving the objective lens driving actuator 17 and the amount of movement of the objective lens 15 by the objective lens driving actuator 17 may be used. Data regarding the installation position of the photodetector 16 and the deviation from the normal position may be used. Moreover, the data regarding the photoelectric conversion sensitivity of the photodetector 16 may be sufficient. Further, it may be time management data for causing the LD 13 to emit light and blink. Moreover, the data regarding the output at the time of making LD13 light-emit and light up may be sufficient. In the present embodiment, all of these exemplified data are inspected as inspection items and recorded in the memory 18. However, the present invention is not limited to this, and if some of these data are recorded in the memory 18, the time required for the adjustment process can be saved accordingly.
[0084]
In S5, the temperature when the optical pickup 2 is inspected and data is recorded in the memory 18 is compared with the temperature measured in S2, and the data of each inspection item is converted. More specifically, for example, the temperature deformation of each member of the optical pickup 2 is calculated, and in accordance with this, the deviation of the installation position of the photodetector 16 is calculated, and the installation position of the photodetector 16 and the regular position are calculated. Correct the deviation from the position. The same applies to other items.
[0085]
In S6 to S8, the converted focus balance, tracking balance, and actuator sensitivity data are set based on the data converted in S5. For example, the deviation of the photoelectric conversion sensitivity of the light detector 16 according to the temperature change is calculated from the correction table according to the specifications of the first light detector 16a and the second light detector 16b, and the data is corrected. Thus, since the temperature change of the output signal from the photodetector 16 can be known, it is possible to correct the focus balance, tracking balance, and actuator sensitivity data. The same applies to other items.
[0086]
In S9, the spindle motor 12 is activated to rotate the optical disc D. In S10, the LD 13 of the optical pickup 2 is turned on when the rotation of the optical disk D reaches the specified rotation speed.
[0087]
In S11, a focus search is performed. At the time of focus search, light emitted from the LD 13 is reflected from the optical disc D, and a focus error signal is generated based on the reflected light. In S12, the amplitude of the focus error signal is measured. In S13, the focus gain is set. If the focus gain is set in this way, focusing servo can be performed using this gain value.
[0088]
Then, in S14, the focus servo is turned on at the next focus error appearance timing. In S15, the amplitude of the tracking error signal is measured. In S16, the tracking gain is set and the adjustment is completed.
[0089]
As described above, the optical recording / reproducing apparatus 1 according to the present invention performs the adjustment process using the inspection data (operation characteristics) of the optical pickup 2 that has been inspected and recorded in advance. Can be shortened.
[0090]
Here, in general, how short the apparatus startup flow time is in an optical recording / reproducing apparatus seems to be one of the important factors in judging the usability of the apparatus. In the startup flow time, the adjustment process as described above requires the longest time. As described above, the optical recording / reproducing apparatus 1 of the present embodiment can shorten the time required for this adjustment process, and thus is easy to use for the user.
[0091]
Thereafter, the optical recording / reproducing apparatus 1 reads the optical disc D as follows. Signals emitted from the optical pickup 2 and read by the first photodetector 16a and the second photodetector 16b are input to the RF processing circuit 4, respectively. The RF processing circuit 4 outputs the signal from the first photodetector 16a to the signal processing circuit 6 and the signal from the second photodetector 16b to the ADC 5 as an error signal.
[0092]
The signal processing circuit 6 converts the RF signal from the RF processing circuit 4 as described above and outputs it to the system controller 3, and outputs the generated control signal to the LD driver 14 of the optical pickup device 2. Note that the information recorded on the optical disc D included in the RF signal is output from the system controller 3 to an external device such as a speaker.
[0093]
On the other hand, the ADC 5 outputs an error signal to the digital servo processing circuit 7. This signal is output to the PWM driver 9 and the spindle motor driver 10 via the PWM signal generation circuit 8, respectively, and the sled motor 11, the spindle motor 12, and the objective lens driving actuator 17 are driven to perform a servo operation.
[0094]
Further, recording on the optical disc D by the optical recording / reproducing apparatus 1 is performed after adjustment similar to the reproduction. If the data read from the memory 18 is used as described above, the adjustment process can be shortened.
[0095]
Next, processing for inspecting the optical pickup 2 and storing the operation characteristics of the optical pickup 2 in the memory 18 will be described.
[0096]
As shown in FIG. 3, an inspection apparatus 20 for inspecting the optical pickup 2 includes a control circuit (control means) 21, a control unit (control means) 22, a jitter meter (measurement means) 23, and a storage oscilloscope (measurement means) 24. A monitor 25, a power meter (measuring means) 26, a motor driver 27, an automatic Z-axis stage 28, an automatic X-axis stage 29, a spin motor 30, an automatic gonio stage 31, and a pickup receiving jig 32.
[0097]
In this inspection apparatus 20, the optical pickup 2 is detachable. The inspection apparatus 20 is inspected with the optical pickup 2 attached thereto, and after the inspection is completed, the obtained inspection data is written into the memory 18 of the optical pickup 2.
[0098]
The control circuit 21 of the inspection apparatus 20 includes an IV converter, an AD (Analog Digital) converter, an error generation unit, and an arithmetic unit (not shown). This IV converter corresponds to the RF processing circuit 4 of the optical recording / reproducing apparatus 1. The AD converter corresponds to the ADC 5. The error generation unit corresponds to the digital servo processing circuit 7.
[0099]
The control circuit 21 performs IV conversion of an optical signal input from the photodetector 16 of the optical pickup 2 from a current signal to a voltage signal using an IV converter. The signal received by the first photodetector 16a of the optical pickup 2 is IV-converted by the IV converter, and is subjected to arithmetic processing by the arithmetic unit, and is output to the jitter meter 23 as an RF signal. The signal received by the second photodetector 16b of the optical pickup 2 is IV converted by the IV converter, then AD converted by the AD converter, and further converted into a focus error signal and tracking error signal by the error generation unit. And output to the storage oscilloscope 24.
[0100]
The jitter meter 23 performs jitter measurement on the input signal and outputs the result to the control unit 22. The monitor 25 displays a measurement value obtained by jitter measurement.
[0101]
The storage oscilloscope 24 measures the amplitude of each error signal and outputs it to the control unit 22. On the monitor 25, the amplitude of the obtained error signal is also displayed.
[0102]
During operation of the optical pickup 2, the power meter 26 measures the laser power of the optical pickup 2 and outputs the result to the control unit 22.
[0103]
On the other hand, the control unit 22 drives an automatic Z-axis stage 28, an automatic X-axis stage 29, and an automatic goniostage 31 using a motor driver 27.
[0104]
The automatic Z-axis stage 28 and the automatic X-axis stage 29 are arranged in accordance with instructions from the motor driver 27 and the control unit 22 with the stage S on which the optical disk D is mounted and the spin motor 30 for rotating the optical disk D being fixed. Control is performed in the Z-axis direction and the X-axis direction, respectively.
[0105]
The automatic gonio stage 31 controls the pickup receiving jig 32 to which the optical pickup 2 is fixed in the biaxial direction by the motor driver 27 and the control unit 22.
[0106]
The characteristics of the optical pickup 2 are inspected while performing the above control. The optical disk D used for the inspection is not particularly limited, and any optical disk D can be used.
[0107]
Here, the following inspection items are measured. For example, items such as an in-focus amount, focus balance, tracking balance, focus error amplitude, tracking error amplitude, RF amplitude, jitter, and actuator sensitivity. In addition, this inspection item is not restricted to this, For example, you may have another inspection item. Or the inspection item should just contain at least 1 or more of the above-mentioned inspection items.
[0108]
Then, the control unit 22 generates data to be written in the memory 18 in the optical pickup 2 from the signal obtained by the above-described inspection, and writes the data in the memory 18. The data of these inspection items corresponds to the data of each inspection item stored in the memory 18 of the optical pickup 2 described above. That is, data corresponding to the relationship between the output voltage of the PWM driver 9 and the amount of movement of the objective lens 15, data relating to the displacement of the installation position of the photodetector 16, data relating to the photoelectric conversion sensitivity of the photodetector 16, and pulse emission of the LD 13 Time management data for generating the data, data on the light emission output of the LD 13, and the like are generated and written into the memory 18.
[0109]
Further, the control unit 22 writes temperature data measured using the temperature measuring device 19 in the optical pickup 2 into the memory 18 in the optical pickup 2.
[0110]
As described above, by using the inspection apparatus 20 of the present embodiment, the data of each inspection item can be stored in the memory 18 of the optical pickup 2. Therefore, as described above, it is possible to provide the optical recording / reproducing apparatus 1 in which the adjustment is simplified and the startup time of the apparatus is shortened.
[0111]
The control unit 22 may further write data relating to the production date / time, lot number, and light source of the optical pickup 2 in the memory 18 in the optical pickup 2. As described above, if more detailed data of the optical pickup 2 is stored in the memory 18, for example, when the optical recording / reproducing apparatus 1 fails, the cause can be investigated and the repair time can be shortened. Moreover, when performing the above-mentioned adjustment process, it can also adjust more accurately using this detailed data.
[0112]
Conventionally, an inspection device for confirming the quality of the optical pickup device and performing inspection for shipping determination has been used. However, in such a conventional inspection apparatus, since the optical pickup apparatus is not provided with a storage unit, the measured data is not written in the storage unit. For this reason, the data measured by the inspection device have not been used. Conventionally, for example, in order to correct the influence of the servo gain change due to various variation factors such as the error signal detection sensitivity of the optical pickup device, the drive sensitivity of the actuator, the reflectance of the optical disk D, the track pitch, etc. In the apparatus, servo gain adjustment was performed every time. Also, defocusing and the like are adjusted every time the optical disk D is replaced, as in the servo gain adjustment. Note that the defocus adjustment means that the focus error signal is handled in consideration of the apparent laser power fluctuation in accordance with the deviation from the focus. In the past, since the adjustment was performed every time as described above, the start-up time could not be shortened.
[0113]
Further, the optical pickup 2 according to the present invention may be configured to include a memory 18 in the LD driver 14. In this case, in addition to the operating characteristics, the memory 18 stores data for setting the laser blinking time and the laser power. That is, the memory 18 may be used as a digital circuit provided in the LD driver 14 for setting the blinking time of the laser (LD 13) and the laser power. With this configuration, the number of parts can be reduced and the apparatus can be downsized.
[0114]
Further, the optical recording / reproducing apparatus 1 may be configured to read data stored in the memory 18 of the optical pickup 2 into a storage unit (not shown) in the system controller 3.
[0115]
That is, the optical recording / reproducing apparatus 1 reads the data stored in the memory 18 into a storage means (not shown) in the system controller 3, and the data read from the storage means when reproducing or recording the optical disc D. For example, the adjustment may be performed by setting a predetermined gain value.
[0116]
According to this configuration, since it is not necessary to read data to the optical pickup 2, the startup time can be further shortened.
[0117]
Further, as described above, the optical recording / reproducing apparatus 1 functions as an exchange detection unit for detecting the exchange of the optical pickup 2 by the system controller 3, and for each exchange, the data in the memory 18 of the optical pickup 2 is stored in the above-described manner. It is also possible to adopt a configuration for taking in the storage means. In this way, even when the optical pickup 2 is replaced, it can be adjusted reliably.
[0118]
In this embodiment, the optical recording / reproducing apparatus 1 is described as an optical recording / reproducing apparatus for reproducing information recorded on the optical disc D or recording information on the optical disc D. However, the present invention is not limited to this. It is not a thing. The optical recording / reproducing apparatus according to the present invention may be capable of reproducing only an optical recording medium. Further, the optical recording / reproducing apparatus according to the present invention may be capable of recording only on an optical recording medium.
[0119]
For example, when the optical disc D is a read-only optical disc, the optical pickup device according to the present invention and the optical recording / reproduction device according to the present invention may be capable of only reproduction.
[0120]
When the optical disk D is a magneto-optical disk, the optical recording / reproducing apparatus according to the present invention is further provided with a magnetic head. In this case, at the time of recording on the optical disk D, a laser beam is pulse-irradiated at a desired position of the recording film uniformly magnetized in advance to locally increase the temperature of the recording film. When the temperature of the recording film rises to near the Curie temperature, the holding force of the recording film decreases, and by applying a magnetic field to the recording film using a magnetic head, the position of the recording film is magnetized in the magnetic field direction. On the other hand, at the time of erasing, opposite to the magnetic field at the time of recording, an erasing magnetic field is applied using a magnetic head, and laser light is continuously irradiated. Further, at the time of reproduction, recorded information is read using the Kerr effect in which the deflecting surface of the reflected light is slightly rotated according to the direction of magnetization.
[0121]
Here, the startup operation of the conventional optical recording / reproducing apparatus will be described with reference to FIG. In FIG. 4, parentheses after the description of each step indicate the approximate time required for the operation. For example, the operation of S21 requires approximately 3000 ms.
[0122]
In S21, the optical disc is inserted into the conventional optical recording / reproducing apparatus. In S22, the temperature in the apparatus is measured. In S23, circuit offset adjustment in the apparatus is performed. In S24, the spindle motor is activated to rotate the optical disk.
[0123]
Thereafter, in S25, when the specified rotational speed is reached, the laser of the optical pickup device is turned on. At S26, a focus search is performed. A focus error signal is generated based on the reflected light from the optical disc during the focus search. In S27, the amplitude of the focus error signal is measured. In S28, the focus gain is temporarily set.
[0124]
In S29, the focus servo is turned on at the next appearance timing of the focus error. In S30, after the focus servo is turned on, a closed loop adjustment of the focus servo is performed in order to correct the sensitivity variation of the actuator.
[0125]
When the focus servo adjustment is completed, the amplitude of the tracking error signal is measured in S31. In S32, a tracking gain is temporarily set. In S33, the tracking balance is adjusted. When the above adjustment is completed, the tracking servo is turned on in S34. Next, a closed loop adjustment of the tracking servo is performed in S35. Finally, in S36, the focus balance is adjusted to maximize the RF signal while monitoring the RF signal.
[0126]
As described above, in the conventional optical recording / reproducing apparatus, for example, the step of performing the closed loop adjustment in S30 after the temporary setting of the gain in S28 is necessary. Further, for example, a step of performing the closed loop adjustment in S35 after the temporary setting of the gain in S32 is necessary. Further, after that, a step of adjusting the focus balance in S36 is necessary. However, such a closed loop adjustment and focus balance adjustment require a relatively long time. For this reason, there is a problem that the time required to start up the apparatus cannot be shortened.
[0127]
Thus, according to the conventional optical recording / reproducing apparatus, when the optical disk is replaced, for example, only an optical disk having a slightly different warp shape is replaced, and there is no change on the optical recording / reproducing apparatus side. Nevertheless, the change on the optical recording / reproducing apparatus side was also measured and adjusted. In other words, conventionally, in order to adjust the optical recording / reproducing apparatus, the adjustment is performed in such a manner that the dispersion of the optical disc, the dispersion of the optical pickup apparatus, and the dispersion of the circuit system in the apparatus are collectively handled. For this reason, a long adjustment time is required. In addition, the adjustment at the time of exchanging the optical disk has been adjusted in a form that is handled collectively as described above, although it is only necessary to adjust the variation of the optical disk. For this reason, extra adjustments have been made.
[0128]
On the other hand, according to the optical pickup device according to the present invention and the optical recording / reproducing device according to the present invention, as described above, the adjustment is simplified, the start-up time of the device is shortened, and the adjustment is performed with higher accuracy. Can do.
[0129]
In other words, in order to shorten the adjustment time, the optical pickup device is adjusted using inspection data measured at the time of production, and for example, variations in circuit systems of the optical recording / reproducing device are adjusted at the time of production on the device side. . Then, when exchanging the optical disc, only variations due to the reflectivity, track pitch, etc. of the optical disc are adjusted. Thereby, the adjustment time can be shortened.
[0130]
For example, when focusing on the servo gain, the optical recording / reproducing apparatus 1 is configured such that the sensitivity of the actuator (the objective lens driving actuator 17, the thread motor 11, etc.) of the optical pickup apparatus 2, the light receiving element (the first photodetector 16a, the second optical detection). The sensitivity of the device 16b) is stored in the memory 18. Therefore, when the optical disc D is inserted into the optical recording / reproducing apparatus 1, if the amount of reflected light from the optical disc D is measured (S12, S15), an appropriate servo gain (servo parameter) is immediately calculated and set (S13, S15). S16) is completed.
[0131]
Further, for example, with respect to adjustment of sensitivity variation of the light receiving elements of the focus system and tracking system, and adjustment of balance deviation between the light receiving elements caused by displacement of the light receiving elements, which is adjustment depending on the optical pickup 2, an optical recording / reproducing apparatus 1 is performed using data stored in the memory 18.
[0132]
On the other hand, in the conventional optical recording / reproducing apparatus, it is required that the RF signal amplitude, the jitter, etc. are the best for adjusting the sensitivity variation of the light receiving elements and the balance deviation between the light receiving elements (S36).
[0133]
However, since the adjustment as described above often depends on the optical pickup device, it is preferable to use the inspection item data of the optical pickup device as in the present invention.
[0134]
The above-described adjustment method of the optical recording / reproducing apparatus 1 is an adjustment method for ensuring the accuracy of response of a reading apparatus that performs reading by detecting a response to a detection external field applied to a detection medium, It can also be expressed as a method of adjusting a reading apparatus, which includes a step of reading operation setting data from a medium and a step of adjusting according to the operation setting data.
[0135]
In the above-described embodiment, only the servo operation by feedback control has been described as the detection operation in the optical recording / reproducing apparatus 1. However, the present invention is not limited to this, and other detection operations may be performed. . Moreover, although the case where the gain value is set using the operation characteristics has been described, the present invention is not limited to this.
[0136]
As described above, according to the present invention, in an optical pickup device important for recording and reproducing an optical disc, a storage element (storage means) is arranged in the optical pickup device, and items inspected when the optical pickup is produced are stored. By using the item data, for example, automatic adjustment for adjusting variation in actuator sensitivity and variation in light receiving elements is omitted. As a result, the optical recording / reproducing apparatus can be started up in a short time.
[0137]
In addition, with respect to the variation depending on the temperature, by providing a temperature measuring means in the optical pickup device, the inspection item data can be converted and used by using the temperature data. Therefore, it is possible to further shorten the time required for adjustment by the optical recording / reproducing apparatus.
[0138]
In addition, since data relating to the production date / time, lot number, and light source of the optical pickup device main body is stored in the memory serving as the storage element as data at the time of production of the optical pickup, when the optical recording / reproducing device fails or is repaired In addition, data at the time of production of the optical pickup can be read out. Therefore, it is possible to diagnose and repair the cause of the failure with reference to the data.
[0139]
The present invention is not limited to the above-described embodiments, and embodiments obtained by appropriately combining technical means disclosed in the embodiments are also included in the technical scope of the present invention.
[0140]
The specific embodiments described above merely clarify the technical contents of the present invention, and the present invention is not limited to such specific examples and should not be interpreted in a narrow sense. Various modifications can be made within the range shown in the above-mentioned range, and modified forms are also included in the technical scope of the present invention.
[0141]
【The invention's effect】
As described above, the optical pickup device according to the present invention is configured to include the storage unit for storing the operation characteristics of the irradiation unit, the detection unit, and the movement unit in the servo operation.
[0142]
Therefore, there is an effect that the stored operation characteristics can be read from the storage means of the optical pickup device. In addition, there is an effect that data peculiar to the optical pickup device can be obtained accurately. In addition, since the servo parameters are set using the operation characteristics stored in the storage means, there is an effect that the setting of the servo parameters becomes easy.
[0143]
Further, when the optical pickup device is provided in the optical recording / reproducing device, the servo parameters can be easily set. Therefore, the start-up time for reproducing the optical recording medium or recording on the optical recording medium in the optical recording / reproducing device. The effect that can be shortened.
[0144]
As described above, the optical pickup device according to the present invention includes temperature measuring means for measuring temperature in the above-described configuration, and the storage means stores a predetermined temperature related to the operating characteristics. It is a configuration.
[0145]
Therefore, depending on the operating characteristics measured at the time of production of the optical pickup device and the temperature at the time of measurement, for example, temperature conversion is performed using the temperature measured by the temperature measuring means, and the servo parameters are set. Therefore, even if the data depends on temperature, it can be used with correction, and the effect can be achieved that the data can be adjusted with higher accuracy.
[0146]
As described above, the optical pickup device according to the present invention has a configuration in which the storage means stores the production date and time of the optical pickup device main body, the lot number, and data relating to the light source.
[0147]
Therefore, at the time of failure or repair of the optical recording / reproducing device, the production date / time, measurement data, lot number, or data on the light source of the optical pickup device can be utilized, and it becomes possible to quickly deal with failure cause analysis and repair response. There is an effect.
[0148]
As described above, the optical recording / reproducing apparatus according to the present invention includes any one of the above-described optical pickup apparatuses and control means for controlling the optical recording / reproducing apparatus body, and the control means stores the storage means in the storage means. In this configuration, the servo operation of the optical pickup device is controlled by using the operation characteristic and the detection signal of the detection means.
[0149]
Therefore, the operation characteristics (inspection item data) at the time of production of the optical pickup device are read from the storage means mounted on the optical pickup device, and the variation (reflectance) of the optical recording medium is an error in the optical recording / reproducing device. Since the amplitude of the signal can be obtained as a detection signal, it is possible to simplify the adjustment and to achieve an adjustment with high accuracy in a short time.
[0150]
As described above, the optical recording / reproducing apparatus according to the present invention includes any one of the above-described optical pickup apparatuses and control means for controlling the optical recording / reproducing apparatus main body, and the control means is stored in the storage means. The operation characteristic stored in the main body storage means of the optical recording / reproducing apparatus main body, and the control means uses the operation characteristic stored in the main body storage means and the detection signal of the detection means to This is a configuration for controlling the servo operation of the pickup device.
[0151]
Therefore, it is not necessary to read the operating characteristics stored in the storage means of the optical pickup device every time the apparatus is started up or each time the optical recording medium is replaced. Since the adjustment is performed based on the data, it is possible to further shorten the start-up time.
[0152]
As described above, the optical recording / reproducing apparatus according to the present invention includes, in the above-described configuration, replacement detection means for detecting replacement of the optical pickup apparatus, and the control means responds to detection of replacement by the replacement detection means. The operation characteristics stored in the storage means of the optical pickup device are taken into the main body storage means of the optical recording / reproducing apparatus main body.
[0153]
Therefore, when the optical pickup device is replaced, the replacement detection unit detects the replacement, and accordingly, the control unit captures the operating characteristics stored in the storage unit of the optical pickup device into the main body storage unit. Even when the optical pickup device is replaced, it is possible to obtain an operation characteristic peculiar to the optical pickup device, set an appropriate servo parameter, and perform an appropriate servo operation. .
[0154]
As described above, the inspection apparatus according to the present invention controls the optical pickup device to perform a servo operation for irradiating light to a desired position on the optical recording medium, and the irradiation means and detection in the servo operation. Measuring means for measuring the operating characteristics of the means and the moving means, and the optical pickup device has storage means for storing the operating characteristics of the irradiation means, the detecting means and the moving means in the servo operation. When provided, the control means stores the operating characteristics measured by the measurement means in the storage means.
[0155]
Therefore, if this inspection device inspects the optical pickup device according to the present invention, the operation characteristics can be stored in the optical pickup device, and if this optical pickup device is provided in the optical recording / reproducing device according to the present invention. The optical recording / reproducing apparatus has an effect that the start-up time of the apparatus during reproduction or recording can be shortened.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of an optical recording / reproducing apparatus according to the present invention provided with an optical pickup apparatus according to the present invention.
FIG. 2 is a flowchart illustrating an adjustment operation for reproducing or recording an optical recording medium in the optical recording / reproducing apparatus.
FIG. 3 is a block diagram showing a schematic configuration of an inspection apparatus according to the present invention.
FIG. 4 is a flowchart illustrating an adjustment operation for reproducing or recording an optical recording medium in a conventional optical recording / reproducing apparatus.
[Explanation of symbols]
1 Optical recording / reproducing device
2 Optical pickup (optical pickup device)
3 System controller (control means, main body storage means, exchange detection means)
7 Digital servo processing circuit (control means)
8 PWM signal generation circuit (control means)
9 PWM driver (control means)
10 Spindle motor driver (control means)
11 Thread motor (moving means)
12 Spindle motor (moving means)
13 LD (Laser Diode) (irradiation means)
14 LD driver (irradiation means)
16 Photodetector (detection means)
16a First photodetector (detection means)
16b Second photodetector (detection means)
17 Objective lens drive actuator (moving means)
18 Memory (memory means)
19 Temperature measuring device (temperature measuring means)
20 Inspection equipment
21 Control circuit (control means)
22 Control unit (control means)
23 Jitter meter (measuring means)
24 Storage oscilloscope (measuring means)
25 Monitor
26 Power meter (measuring means)
D Optical disc (optical recording medium)

Claims (6)

Irradiating means comprises a laser driver for pulsed light emission control of the laser diode and the laser diode is irradiated to the optical recording medium as a pulse light light from the light source, the light reflected by the optical recording medium of the pulse light the irradiation means irradiates A detection unit that detects and outputs a detection signal; and an irradiation unit and a movement unit that moves the detection unit, and the irradiation unit and the movement unit according to at least a servo parameter that is set using the detection signal. In an optical pickup device that performs a servo operation of irradiating light to a desired position of the optical recording medium by operating
In the servo operation, the irradiating means, storing means as a digital circuit operating characteristics stored in said detection means and the moving means are provided in the laser driver,
The storage means further stores at least one of data for setting the blinking time of the laser diode and data for setting the laser power of the laser diode. Pickup device. A temperature measuring means for measuring the temperature,
2. The optical pickup device according to claim 1, wherein the storage means stores a predetermined temperature related to the operating characteristic.   The optical pickup device according to claim 1 or 2, wherein the storage means stores production date and time of the optical pickup device body, a lot number, and data relating to the light source. An optical pickup device according to any one of claims 1 to 3,
Control means for controlling the optical recording / reproducing apparatus main body,
An optical recording / reproducing apparatus, wherein the control means controls the servo operation of the optical pickup device using the operation characteristics stored in the storage means and the detection signal of the detection means. An optical pickup device according to any one of claims 1 to 3,
Control means for controlling the optical recording / reproducing apparatus main body,
The control means captures the operating characteristics stored in the storage means into the main body storage means of the optical recording / reproducing apparatus body,
The control means controls the servo operation of the optical pickup device using the operation characteristics stored in the main body storage means and the detection signal of the detection means. Comprising an exchange detection means for detecting exchange of the optical pickup device;
The control means fetches the operation characteristics stored in the storage means of the optical pickup device into the main body storage means of the optical recording / reproducing apparatus body in response to detection of replacement by the replacement detection means. The optical recording / reproducing apparatus according to claim 4 or 5.

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