JP4349969B2 - Laser diode protection circuit for optical disc recording / reproducing apparatus - Google Patents

Description

  The present invention relates to a laser diode protection circuit of an optical disc recording / reproducing apparatus configured to record a signal on a disc by laser light emitted from an optical pickup.

  An optical disk playback device that performs an operation of reading a signal recorded on a disk using an optical pickup is widely used. In addition to the playback function, a signal is recorded on the disk by a laser beam emitted from the optical pickup. An optical disc recording / reproducing apparatus configured so as to be capable of recording is commercially available.

  An optical pickup used in such an optical disc recording / reproducing apparatus is configured such that a driving current necessary for reproducing and recording operations is supplied to a laser diode that irradiates laser light. The drive current supplied to such a laser diode is larger during the recording operation than during the reproducing operation, and it is necessary to accurately maintain the laser output in order to perform an accurate recording operation.

A so-called APC circuit that provides a monitoring diode for monitoring the level of laser light emitted from the laser diode and automatically adjusts the level of the laser light to a desired level by using a monitor signal obtained from the monitoring diode Is incorporated in an optical disk recording / reproducing apparatus (for example, see Patent Document 1).
JP 2002-42362 A

  The automatic output adjustment circuit provides a monitor diode at a position to directly receive the laser light emitted from the laser diode, and automatically adjusts the light emission output of the laser diode using a monitor signal obtained from the monitor diode. It is configured as follows.

  In the optical pickup, a deflection optical system configured to block laser light reflected from the signal surface of the disk, that is, laser light called return light, by providing a member called a quarter-wave plate. Some have adopted a non-deflection optical system in which a quarter-wave plate is removed for cost reduction.

  In an optical pickup that employs a non-deflection optical system, the control operation of the automatic output adjustment circuit of the laser diode is adversely affected due to reasons such as the return light reflected from the disk surface being applied to the monitoring diode. Has the problem that the laser diode is destroyed.

  The present invention is intended to provide a laser diode protection circuit for an optical disc recording / reproducing apparatus capable of solving such a problem.

The present invention relates to an optical disk recording / reproducing apparatus configured to perform a signal recording operation on a disk using an optical pickup incorporating a monitoring diode for monitoring the level of laser light emitted from the laser diode. a laser diode protection circuit, a monitor signal obtained from the reproduced for automatic output adjusting circuit and the monitor diode automatically controlling light emission output of the reproduction level of the laser diode by using the monitor signal obtained from the monitor diode A built-in automatic output adjustment circuit for recording that automatically controls the light emission output at the recording level of the laser diode by using it, and recording on a rewritable disc
Reproduction level of the multi-pulse waveform for performing the operation, a laser drive circuit comprises a respective signal output terminals to output the drive signal of the recording level and erasing level, respectively output from the signal output terminal of the laser driver circuit A selection circuit for selecting each driving signal to be supplied to the laser diode, and for reproducing, recording and erasing the multi-pulse waveform between each signal output terminal of the laser driving circuit and the selection circuit. respectively connecting the limiter circuit to suppress the use level the level of the drive signals, respectively.

  The present invention incorporates an automatic output adjustment circuit that automatically controls the light emission output of a laser diode using a monitor signal obtained from the monitor diode, and supplies a drive signal of a different level to the laser diode. A limiter circuit that suppresses the level of the drive signal between an output terminal of the laser drive circuit and the selection circuit. Therefore, an excessive current does not flow through the laser diode, and the laser diode can be prevented from being destroyed.

  Further, according to the present invention, since the limiter circuit is configured by a shunt regulator, the configuration is simplified and the level for performing the protection operation can be easily set.

  The present invention is configured to protect the laser diode by limiting the output of the drive current supplied to the laser diode.

  FIG. 1 is a circuit diagram showing an embodiment of an optical disk recording / reproducing apparatus of the present invention, and FIG. 2 is a waveform diagram for explaining the operation of the present invention.

  First, the waveform of the drive current supplied to the laser diode LD will be described using the waveform diagram shown in FIG. FIG. 2A shows the waveform of the drive current supplied to the laser diode LD during the reproduction operation, which is set to be a signal of a constant output level, that is, a reproduction level VP.

  FIG. 2B shows the waveform of the drive current supplied to the laser diode LD when performing a recording operation on a disc that can be recorded only once, that is, a write-once disc. It is set to be a pulse signal composed of binary values of level VP1 and recording level VR1.

  FIG. 2C shows the waveform of the drive current supplied to the laser diode LD when performing a recording operation on a disc that can repeatedly perform a recording operation, that is, a rewritable disc. Further, the pulse signal is set to be a pulse signal composed of three values of an erasing level VE and a recording level VR2.

  In FIG. 1, reference numeral 1 denotes an optical pickup unit, which incorporates a laser diode LD and a monitoring diode MD that receives laser light emitted from the laser diode LD. Reference numeral 2 denotes a current amplifier provided in the optical pickup unit 1 and is connected so as to supply a driving current to the laser diode LD.

Reference numeral 3 denotes a first signal input terminal provided in the optical pickup unit 1, which is connected to the current amplifier 2 through a first input resistor 4 and a first electronic switch 5. Reference numeral 6 denotes a second signal input terminal provided in the optical pickup unit 1, which is connected to the current amplifier 2 through a second input resistor 7 and a second electronic switch 8. A third signal input terminal 9 is provided in the optical pickup unit 1 and is connected to the current amplifier 2 through a third input resistor 10 and a third electronic switch 11.

  Reference numeral 12 denotes a recording signal input terminal to which a recording signal is input. Reference numeral 13 denotes an encoder circuit for encoding the recording signal input from the recording signal input terminal 12. The recording signal is matched with the standard of the signal recorded on the disc. For example, when the disc is a disc called CD, the EFM modulation is performed. Such an encoding process is generally performed in an optical disk recording / reproducing apparatus, and a detailed description thereof will be omitted.

  A laser output switching control circuit 14 switches the laser output based on the recording signal output from the encoder circuit 13. The first electronic switch 5, the second electronic switch 8, and the like incorporated in the optical pickup unit 1 The third electronic switch 11 is configured to control the opening / closing operation.

  Reference numeral 15 denotes a laser drive circuit, a first signal output terminal 17 connected to a first signal input terminal 3 provided in the optical pickup unit 1 via a first adjustment resistor 16, a second adjustment use. The optical pickup unit 1 is connected to a second signal output terminal 19 connected to a second signal input terminal 6 provided in the optical pickup unit 1 via a resistor 18 and a third adjustment resistor 20. A third signal output terminal 21 connected to the provided third signal input terminal 9 is provided.

  A control circuit 22 controls operations of the laser output switching circuit 14 and the laser driving circuit 15 and is constituted by a microcomputer. Reference numeral 23 denotes a reproduction automatic output adjustment circuit incorporated in the laser drive circuit 15, and reference numeral 24 denotes a recording automatic output adjustment circuit incorporated in the laser drive circuit 15.

  Reference numeral 25 denotes a reproduction sampling circuit that enters an operation state during reproduction operation. The monitor signal obtained from the monitoring diode MD is sampled on the basis of the sampling signal output from the laser output switching control circuit 14 and is sampled. The signal is input to the laser driving circuit 15. Reference numeral 26 denotes a recording sampling circuit that is in an operating state during a recording operation. The monitoring signal obtained from the monitoring diode MD is sampled based on the sampling signal output from the laser output switching control circuit 14 and is sampled. The signal is input to the laser driving circuit 15.

  Reference numeral 27 denotes a first limiter circuit provided between the first signal output terminal 17 of the laser drive circuit 15 and the ground, and is constituted by a shunt regulator. Reference numeral 28 denotes a second limiter circuit provided between the second signal output terminal 19 of the laser driving circuit 15 and the ground, and is constituted by a shunt regulator. Reference numeral 29 denotes a third limiter circuit provided between the third signal output terminal 21 of the laser driving circuit 15 and the ground, and is constituted by a shunt regulator.

  In such a circuit configuration, the reproduction level VP is output to the first signal output terminal 17 provided in the laser drive circuit 15 when performing a reproducing operation, and the reproducing level when performing a recording operation on a write-once disc. When VP1 is output and a recording operation is performed on a rewritable disc, a signal of a reproduction level VP2 is output. Further, a recording level VR1 is output to the second signal output terminal 19 provided in the laser drive circuit 15 when performing a recording operation on a write-once disc, and an erasing operation is performed when performing a recording operation on a rewritable disc. A level VE signal is output. The third signal output terminal 21 provided in the laser drive circuit 15 is configured to output a recording level VR2 signal when performing a recording operation on the rewritable disc.

  In such a circuit configuration, the sampling operation by the reproduction sampling circuit 25 is performed when the optical disc recording / reproducing apparatus is in the reproduction operation state. The sampling operation is performed at a preset timing at the laser output switching control circuit. 14 is configured to be performed based on the sampling signal output from 14.

  The sampling operation by the recording sampling circuit 26 is performed on the basis of the sampling signal output from the laser output switching control circuit 14, and the recording operation to the write once disc and the recording operation to the rewritable disc are performed. The object to be sampled is different from the case of performing the above. That is, when performing a signal recording operation on a write-once disc, the recording operation is performed by supplying a pulse signal having the waveform shown in FIG. 2B to the laser diode LD. When the laser output switching control circuit 14 outputs a sampling signal during the period when the VR1 signal is output and performs a signal recording operation on the rewritable disc, the pulse signal having the waveform shown in FIG. Is supplied to the laser diode LD, the recording operation is performed, and the laser output switching control circuit 14 is configured to output the sampling signal during the period when the signal of the erasing level VE is output in the recording waveform. Yes. The reason why the sampling operation performed in the case of a rewritable disc is set in the period during which the signal of the erasing level VE is output is that, as shown in FIG. This is because it is difficult to accurately perform the sampling operation because the period during which the signal is output is short.

  As described above, the sampling operation of the reproduction sampling circuit 25 and the sampling operation of the recording sampling circuit 26 when using the write-once disc and the rewritable disc are performed. A generation operation of signals output to the 1 signal output terminal 17, the second signal output terminal 19, and the third signal output terminal 21 will be described.

  In the reproduction operation state, the reproduction level VP shown in FIG. 2A is output to the first signal output terminal 17. This reproduction level VP is set to a level set in advance by the control circuit 22. Yes. The monitor signal obtained from the monitor diode MD provided to receive the laser light emitted from the laser diode LD is used for reproduction based on the sampling signal output from the laser output switching control circuit 14. By the sampling operation of the sampling circuit 25, it is input to the automatic output adjustment circuit for reproduction 23 provided in the laser drive circuit 15. As a result, the first signal output is performed so that the laser output automatic adjustment operation by the reproduction automatic output adjustment circuit 23, that is, the level of the laser light emitted from the laser diode LD becomes an output suitable for performing the reproduction operation accurately. An operation for adjusting the level of the signal output from the terminal 17 is performed.

Next, the case of performing a recording operation on a write-once disc will be described. In such a case, the signal having the waveform shown in FIG. 2B is supplied to the laser diode LD, but the reproduction level VP1 is output to the first signal output terminal 17 provided in the laser driving circuit 15. The recording level VR1 is output to the second signal output terminal 19. The monitor signal obtained from the monitor diode MD provided to receive the laser light emitted from the laser diode LD is used for recording performed based on the sampling signal output from the laser output switching control circuit 14. By the sampling operation of the sampling circuit 26, it is inputted to the automatic recording output adjustment circuit 24 provided in the laser driving circuit 15. As a result, the automatic adjustment of the laser output by the automatic recording output adjustment circuit 24, that is, the second output so that the recording level of the laser light emitted from the laser diode LD becomes an output suitable for accurately performing the recording operation. An operation for adjusting the level of the signal output from the signal output terminal 19 is performed. In such a case, the reproduction level VP1 output from the first signal output terminal 17 is set based on the recording level VR1. A reproduction level VP1 based on the recording level VR1.
The setting operation is performed according to a relational expression set in advance, and the arithmetic processing operation is performed by the control circuit 22.

  Next, the case of performing a recording operation on a rewritable disc will be described. In such a case, the signal having the waveform shown in FIG. 2C is supplied to the laser diode LD, but the reproduction level VP2 is output to the first signal output terminal 17 provided in the laser drive circuit 15. Then, the erasing level VE is output to the second signal output terminal 19, and the recording level VR2 is output to the third signal output terminal 21. The monitor signal obtained from the monitor diode MD provided to receive the laser light emitted from the laser diode LD is used for recording performed based on the sampling signal output from the laser output switching control circuit 14. By the sampling operation of the sampling circuit 26, it is inputted to the automatic recording output adjustment circuit 24 provided in the laser driving circuit 15. Since the sampling operation in this case is performed on the erasing level VE, the laser output automatic adjustment operation by the automatic recording output adjustment circuit 24, that is, the erasing level VE of the laser light emitted from the laser diode LD is set. An operation of adjusting the level of the signal output from the second signal output terminal 19 is performed so that the output is suitable for accurately performing the recording operation. In such a case, the reproduction level VP2 output from the first signal output terminal 17 and the recording level VR2 output to the third signal output terminal 21 are set based on the erasing level VE. The setting operation of the reproduction level VP2 and the recording level VR2 based on the erasing level VE is performed according to a relational expression set in advance, and the arithmetic processing operation is performed by the control circuit 22.

  As described above, the signal output operation corresponding to each operation state at the first signal output terminal 17, the second signal output terminal 19, and the third signal output terminal 21 provided in the laser driving circuit 15 is performed. Next, the switching control operation of the first electronic switch 5, the second electronic switch 8, and the third electronic switch 11 by the laser output switching control circuit 14 will be described.

  First, a reproducing operation for reading a signal recorded on a disc will be described. In the reproduction operation state, a signal reading operation by an optical pickup is performed by supplying a drive signal having a waveform shown in FIG. 2A from the current amplifier 2 to the laser diode LD. That is, in the reproduction operation state, only the first electronic switch 5 is closed by the control signal output from the laser output switching control circuit 14.

  Therefore, in such a state, the signal of the reproduction level VP output to the first signal output terminal 17 of the laser drive circuit 15 is provided in the optical pickup unit 1 via the first adjustment resistor 16. Applied to the signal input terminal 3. The reproduction level VP signal input to the first signal input terminal 3 is input to the current amplifier 2 through the first input resistor 4 and the first electronic switch 5 and is amplified by the current amplifier 2. It is supplied to the laser diode LD.

  As a result of the drive current based on the reproduction level VP output from the laser drive circuit 15 being supplied to the laser diode LD in this way, a laser beam suitable for reading a signal recorded on the disk is obtained from the laser diode LD. Will be irradiated. In such a state, the monitor signal obtained from the monitor diode MD is sampled by the sampling operation by the reproduction sampling circuit 25 and then input to the reproduction automatic output adjustment circuit 23 provided in the laser driving circuit 15. Since the output adjustment operation is automatically performed, the light emission output of the laser diode LD can be held at a level suitable for the signal reading operation.

The driving operation of the laser diode LD during the reproducing operation is performed as described above. Next, the recording operation will be described. When performing a recording operation on a write-once disc, an operation of supplying a drive signal having a waveform shown in FIG. 2B to the laser diode LD is performed.

  As described above, when performing a recording operation on such a write-once disc, a signal of the reproduction level VP1 is output to the first signal output terminal 17 provided in the laser drive circuit 15, and the second signal output terminal. Reference numeral 19 denotes a state in which a recording level VR1 signal is output. In this state, when a recording signal is input to the encoder circuit 13 via the recording signal input terminal 12, an encoding process operation is performed by the encoder circuit 13, and the encoded signal is sent to the laser output switching control circuit 14. Entered.

  When a signal obtained by encoding the recording signal is input to the laser output switching control circuit 14, the first electronic switch 5 and the second electronic switch 8 are opened / closed corresponding to the input signal. In other words, the second electronic switch 8 is closed during the recording operation on the disc, and the first electronic switch 5 is closed during the reproduction period when the recording operation is not performed.

  During the period when the second electronic switch 8 is closed, the signal of the recording level VR1 output to the second signal output terminal 19 of the laser drive circuit 15 is passed through the second adjustment resistor 18 to the optical pickup unit 1. Is applied to the second signal input terminal 6 provided in. The recording level VR1 signal input to the second signal input terminal 6 is input to the current amplifier 2 through the second input resistor 7 and the second electronic switch 8 and is amplified by the current amplifier 2. It is supplied to the laser diode LD.

  Further, during the period when the first electronic switch 5 is closed, the signal of the reproduction level VP1 output to the first signal output terminal 17 of the laser driving circuit 15 is optically picked up via the first adjustment resistor 16. The signal is applied to the first signal input terminal 3 provided in the unit 1. The signal of the reproduction level VP1 input to the first signal input terminal 3 is input to the current amplifier 2 through the first input resistor 4 and the first electronic switch 5 and is amplified by the current amplifier 2. It is supplied to the laser diode LD.

  As a result of performing the opening / closing operation of the first electronic switch 5 and the second electronic switch 8 based on the encoded signal, the drive signal having the waveform shown in FIG. 2B is supplied to the laser diode LD. When such a drive signal is supplied to the laser diode LD, the laser diode LD irradiates a laser beam corresponding to the level, so that the signal can be recorded on the disk.

  When such a recording operation is performed, a signal during a period in which the recording level laser light is irradiated from the monitor signal obtained from the monitoring diode MD is sampled by the sampling operation by the recording sampling circuit 26. Since the output adjustment operation is automatically performed by being input to the recording automatic output adjustment circuit 24 provided in the laser drive circuit 15, the light emission output of the laser diode LD is recorded at a recording level and a reproduction level suitable for the signal recording operation. Can be held.

  As described above, the laser diode LD is driven when the recording operation is performed on the write-once disc. Next, the case where the recording operation is performed on the rewritable disc will be described.

When performing a recording operation on a rewritable disc, an operation of supplying a drive signal having a waveform shown in FIG. 2C to the laser diode LD is performed. As described above, when performing a recording operation on such a rewritable disc, a signal of the reproduction level VP2 is output to the first signal output terminal 17 provided in the laser drive circuit 15, and the second signal output terminal. A signal of the erasing level VE is output to 19 and a signal of the recording level VR2 is output to the third signal output terminal 21. In this state, when a recording signal is input to the encoder circuit 13 via the recording signal input terminal 12, an encoding process operation is performed by the encoder circuit 13, and the encoded signal is sent to the laser output switching control circuit 14. Entered.

  When a signal obtained by encoding the recording signal is input to the laser output switching control circuit 14, the opening / closing operation of the first electronic switch 5, the second electronic switch 8, and the third electronic switch 11 is performed in response to the input signal. Done. That is, the opening / closing operation of the second electronic switch 8 and the first electronic switch 5 is repeatedly performed during the recording operation to the disk, and the second electronic switch 8 is closed during the non-recording operation, that is, the erasing period. Will be.

  During the period when the second electronic switch 8 is closed, the signal of the erasing level VE output to the second signal output terminal 19 of the laser driving circuit 15 is passed through the second adjustment resistor 18 to the optical pickup unit 1. Is applied to the second signal input terminal 6 provided in. The signal of the erasing level VE input to the second signal input terminal 6 is input to the current amplifier 2 through the second input resistor 7 and the second electronic switch 8 and is amplified by the current amplifier 2. It is supplied to the laser diode LD.

  Further, during the period when the first electronic switch 5 is closed, the signal of the reproduction level VP2 output to the first signal output terminal 17 of the laser driving circuit 15 is optically picked up via the first adjustment resistor 16. The signal is applied to the first signal input terminal 3 provided in the unit 1. The signal of the reproduction level VP2 input to the first signal input terminal 3 is input to the current amplifier 2 through the first input resistor 4 and the first electronic switch 5 and is amplified by the current amplifier 2. It is supplied to the laser diode LD.

  During the period in which the third electronic switch 11 is closed, the recording level VR2 signal output to the third signal output terminal 21 of the laser driving circuit 15 is optically picked up via the third adjustment resistor 20. This is applied to the third signal input terminal 9 provided in the section 1. The recording level VR2 signal input to the third signal input terminal 9 is input to the current amplifier 2 through the third input resistor 10 and the third electronic switch 11, and is also amplified by the current amplifier 2. It is supplied to the laser diode LD.

  As a result of the opening / closing operations of the first electronic switch 5, the second electronic switch 8, and the third electronic switch 11 described above being performed based on the encoded signal, the drive signal having the waveform shown in FIG. To be supplied. When such a drive signal is supplied to the laser diode LD, the laser diode LD irradiates a laser beam corresponding to the level, so that the signal can be recorded on the disk.

  When such a recording operation is being performed, after a signal during a period in which the laser beam of the erasing level is irradiated from the monitor signal obtained from the monitoring diode MD is sampled by the sampling operation by the recording sampling circuit 26, Since the output adjustment operation is automatically performed by being input to the recording automatic output adjustment circuit 24 provided in the laser drive circuit 15, the light emission output of the laser diode LD is recorded at a recording level and reproduction level suitable for the signal recording operation. And can be held at the erase level.

  As described above, the operation of reproducing the signal recorded on the disc and the operation of driving the laser diode LD when performing the recording operation on the write-once disc and the rewritable disc are performed, but the return to the monitoring diode MD is performed. When the adverse effect due to noise such as light becomes large, the automatic adjustment operation by the reproduction automatic output adjustment circuit 23 and the recording automatic output adjustment circuit 24 incorporated in the laser drive circuit 15 becomes abnormal, and the first signal output terminal 17, An abnormal level signal is output to the two-signal output terminal 19 and the third signal output terminal 21.

  When such an abnormal level signal is output to the first signal output terminal 17, the second signal output terminal 19, and the third signal output terminal 21, the first limiter circuit 27 connected between each output terminal and the ground, The limiter operation for the signal level by the second limiter circuit 28 and the third limiter circuit 29 is performed. As a result, an excessive level signal is not input to the first signal input terminal 3, the second signal input terminal 6 and the third signal input terminal 9 provided in the optical pickup unit 1, and the laser diode LD. An excessive current is not supplied to the battery. Therefore, the laser diode LD can be prevented from being destroyed by an excessive current.

  In this embodiment, a first adjustment resistor 16 and a second adjustment connected in series to each of the first input resistor 4, the second input resistor 7 and the third input resistor 10 provided in the optical pickup unit 1. By selecting and setting the values of the resistor 18 and the third adjusting resistor 20, the maximum value of the drive current value supplied to the laser diode LD based on the voltage limited by the limiter circuit can be set to a value that is not destroyed. I can do it.

  In this embodiment, shunt regulators are used as the limiter circuits 27, 28, and 29, but other limiter elements can of course be used.

It is a circuit diagram which shows one Example of the optical disk recording / reproducing apparatus of this invention. It is a wave form diagram for demonstrating operation | movement of this invention.

Explanation of symbols

1 Optical pickup
2 Current amplifier
5 First electronic switch
8 Second electronic switch 11 Third electronic switch 13 Encoder circuit 14 Laser output switching control circuit 15 Laser drive circuit 22 Control circuit 23 Automatic output adjustment circuit for reproduction 24 Automatic output adjustment circuit for recording 25 Sampling circuit for reproduction 26 Recording sampling circuit 27 1st limiter circuit 28 2nd limiter circuit 29 3rd limiter circuit LD Laser diode MD Monitor diode

Claims (2)

Laser diode protection circuit of optical disk recording / reproducing apparatus configured to perform recording operation of signal on disk using optical pickup incorporating monitoring diode for monitoring level of laser light irradiated from laser diode A laser that uses a monitor signal obtained from the monitor diode and an automatic output adjustment circuit for reproduction that automatically controls the light emission output of the laser diode for reproduction using the monitor signal obtained from the monitor diode Incorporates an automatic recording output adjustment circuit that automatically controls the light emission output of the recording level of the diode, and reproduces, records and erases multi-pulse waveforms when performing recording operations on rewritable discs. Each signal output terminal that outputs a drive signal of a level for each A laser drive circuit for obtaining, become more and laser diode supplies the selection circuit selects the respective drive signals outputted from the signal output terminal of the laser driver circuit, the signal output terminal and the selection circuit of the laser driving circuit the multi-pulse waveform of the reproduction level, a laser diode protection circuit of the optical disk recording and reproducing apparatus, characterized in the limiter circuit to suppress each level of the recording level and the drive signals of the erasing level that was connected between the. 2. The laser diode protection circuit according to claim 1, wherein the limiter circuit is constituted by a shunt regulator.

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