JPH087867B2 - Optical memory playback device - Google Patents

Description

The present invention relates to an optical storage / reproduction device in the field of optical storage, and more particularly to a magneto-optical storage / reproduction device.

[Conventional technology]

The optical head in the conventional magneto-optical recording / reproducing apparatus is the fifth one.
As shown in the figure, half-wave plate 506 and polarization beam splitter 507
The light is split into two by, and the focus error signal is obtained by the first detection optical system including the convex lens 508, the cylindrical lens 509, and the four-division photodiode 510.

Further, the magneto-optical reproduction signal is obtained by the difference signal between the signal from the second detection optical system including the condenser lens 511 and the photodiode 512 and the total signal from the first detection optical system.

Further, the prepit signal and the track error signal due to the woblig pit are obtained by the sum signal of the total sum signal of the first detection optical system and the signal from the second detection optical system.

FIG. 6 shows a conventional signal processing circuit. The output of each photodiode 601, 602 is a current −
Focus error signal 616, which is processed after voltage conversion,
It becomes the magneto-optical reproduction signal 614, the pre-pit signal and the track error signal 615.

[Problems to be solved by the invention]

However, the above-described conventional technique has a problem that five low-noise wideband preamplifiers are required and the processing circuit is complicated.

Further, there is a problem that the optical system is complicated and the optical head becomes large.

Further, since the magneto-optical signal reproducing system is asymmetric, there is a problem that the magneto-optical reproducing signal is easily deteriorated due to the imbalance of the phase characteristics of the processing circuit and it is difficult to increase the speed.

Therefore, the present invention solves such a problem, and an object of the present invention is to provide a compact and high-performance optical storage / reproducing apparatus with a minimum of preamplifiers, simple processing circuits and optical systems. It is in.

[Means for solving problems]

A first optical storage / reproduction device of the present invention is an optical storage / reproduction device that records, reproduces, or erases at least information on an optical storage medium, wherein reflected light from the optical storage medium is divided into at least two. It has a diffracting means for generating astigmatism and at least two photoelectric conversion elements for respectively receiving the divided lights, and the first photoelectric conversion element of the photoelectric conversion elements is one that is generated by astigmatism. A substantially strip shape having long sides in the direction of one focal line, the second photoelectric conversion element has a substantially strip shape having a long side in the direction of the other one focal line caused by astigmatism, and the first and second photoelectric conversion elements It is characterized by having a focusing servo means for performing focusing by the output of the conversion element.

A second optical storage / reproduction device of the present invention is an optical storage / reproduction device that records, reproduces, or erases at least information on a magneto-optical storage medium, wherein reflected light from the magneto-optical storage medium is at least two. Diffraction means for dividing and generating astigmatism, and at least two photoelectric conversion elements respectively receiving the divided light, the first photoelectric conversion element of the photoelectric conversion element is due to astigmatism A substantially strip shape having long sides in the direction of one focal line generated, the second photoelectric conversion element is a substantially strip shape having long sides in the direction of the other one focal line caused by astigmatism, the first and second Focusing servo means for focusing by the output of the photoelectric conversion element of, having an analyzer in front of the first and the second photoelectric conversion element, the first and the second photoelectric conversion element And having a magneto-optical signal reproducing means for reproducing the magneto-optical reproduction signal from the high-frequency component of the difference signal output.

[Action]

FIG. 1 shows the first and second photoelectric conversion elements in the optical head of the optical storage / reproducing apparatus of the present invention.

FIG. 1B shows a state in which the optical storage medium is in focus, and the strip-shaped first photoelectric conversion element 101 and the second photoelectric conversion element 102 are installed at an angle of 90 degrees. The light split into two by the diffractive means is divided into substantially circular spots 103 and 104.
Then, the light is condensed on each photoelectric conversion element. At this time, the difference signal between both photoelectric conversion elements is zero.

In FIG. 1A, focal lines 105 and 106 are generated on the surface of the photoelectric conversion element when the optical storage medium and the objective lens are far from each other. The direction is equal to the long side direction of the first photoelectric conversion element 101. Therefore, the output of the first photoelectric conversion element 101 is larger than the output of the second photoelectric conversion element 102.

FIG. 1C shows a state where the optical storage medium and the objective lens are close to each other, and the directions of the focal lines 107 and 108 are equal to the long side direction of the second photoelectric conversion element 102. Therefore, the output of the first photoelectric conversion element 101 is smaller than the output of the second photoelectric conversion element 102.

By subtracting the output of the second photoelectric conversion element 102 from the output of the first photoelectric conversion element 101, the second
A focus error signal as shown in the figure is obtained. A magneto-optical signal is detected by installing a polarizing plate on the upper surface of the photoelectric conversion element. The present inventor has recently filed a patent application for a method of detecting this magneto-optical signal as an “optical head”.

〔Example〕

 FIG. 3 shows an embodiment of the present invention.

The light flux emitted from the semiconductor laser 301 and collimated by the collimator lens 302 passes through the beam splitter 303 and is condensed by the objective lens 304 to form a light spot on the magneto-optical storage medium 305. The light reflected by the magneto-optical storage medium 305 is again reflected by the objective lens 304 and the beam splitter 30.
Through 3 to the holographic element 306. The holographic element 306 is a phase-type diffraction grating that generates ± first-order diffracted light, and is an unequal pitch grating with a grating spacing that is narrower toward the periphery. This causes a convex lens action only in the one-dimensional direction to generate astigmatism.

The light divided into two by the holographic element 306 is condensed by the condenser lens 307 and detected by the polarizing plates 309 and 310, and the first photoelectric conversion element as shown in FIG.
An electric signal is generated by 311 and the second photoelectric conversion element 312.

FIG. 4 shows a signal processing circuit. First photoelectric conversion element 40
The outputs from the first and second photoelectric conversion elements 402 are current-voltage converted by the low noise wideband preamplifiers 403 and 404.

Subtractor 405, low-pass filter from the obtained electric signal
A focus error signal 409 is obtained by 407.

In addition, the magneto-optical reproduction signal 410 is obtained by the subtractor 405 and the high pass filter 408.

Further, the adder 406 obtains the prepit signal and the track error signal 411 due to the wobbling pit.

The objective lens actuator is driven by the servo signal obtained as described above, and an optical storage / reproducing device is configured.

The holographic element 306 may be a non-uniform pitch grating in which the lattice spacing is wider toward the periphery, and may have a concave lens action only in the one-dimensional direction.

Further, by setting the long-side direction of the first and second photoelectric conversion elements 101, 102 to ± 45 degrees with respect to the track direction of the optical storage medium, the symmetry becomes more complete, and good magneto-optical signal reproduction can be performed. .

〔The invention's effect〕

As described above, according to the present invention, all necessary signals can be obtained with the minimum of two preamplifiers and the simple processing circuit.

Further, since the signal detection system is only required to be provided in one place, a small optical head can be used, which allows the entire optical storage / reproducing apparatus to be made compact.

Furthermore, the magneto-optical signal detection system, including the circuit, can be made completely symmetric, which enables good signal reproduction even for high-speed signals of 10 MHz or higher.

As described above, the present invention exerts a remarkable effect in downsizing and high performance of the optical storage / reproducing device.

[Brief description of drawings]

FIGS. 1A to 1C are explanatory views of the first and second photoelectric conversion elements in the optical storage / reproduction device of the present invention. FIG. 2 is a focus error signal diagram in the present invention. FIG. 3 is a configuration diagram of an optical head in an embodiment of the present invention. FIG. 4 is a configuration diagram of a signal processing circuit in the embodiment of the present invention. FIG. 5 is a configuration diagram of an optical head in a conventional example. FIG. 6 is a block diagram of a signal processing circuit in a conventional example. 101,311,401 …… First photoelectric conversion element 102,312,402 …… Second photoelectric conversion element 103,104 …… Circular light spot 105,106 …… Focal line 107,108 …… Focal line 301,501 …… Semiconductor laser 302,502 …… Collimator lens 303,503 …… Beam splitter 304,504 …… Objective lens 305,505 …… Optomagnetic storage medium 306 …… Holographic element 307,508 …… Convex lens 309,310 …… Polarizing plate 403,404,603,604,605,606,607 …… Preamplifier 405,611,613 …… Subtractor 406,608,609,610,612 …… Adder 407 …… Low pass filter 408 …… High pass Filter 409,616 …… Focus error signal 410,614 …… Magneto-optical reproduction signal 411,615 …… Pre-pit signal and track error signal 506 …… 1/2 Wave plate 507 …… Polarizing beam splitter 509 …… Cylindrical lens 510,602 …… Four-division photodiode 511 …… Condenser lens 512,601 …… Photodiode

Claims (4)

[Claims] 1. An optical storage / reproduction device for recording, reproducing or erasing at least information on an optical storage medium, wherein the reflected light from the optical storage medium is divided into at least two to generate astigmatism. Means and at least two photoelectric conversion elements that respectively receive the divided light, and the first photoelectric conversion element of the photoelectric conversion elements is long in the direction of one focal line caused by astigmatism. The second photoelectric conversion element has a side, and the second photoelectric conversion element has a substantially belt shape having a long side in the direction of the other focal line caused by astigmatism, and focusing is performed by the outputs of the first and second photoelectric conversion elements. An optical storage / reproducing apparatus having a focusing servo means for performing the following. 2. An optical storage / reproduction device for recording, reproducing or erasing at least information on a magneto-optical storage medium, wherein reflected light from the magneto-optical storage medium is divided into at least two to generate astigmatism. And at least two photoelectric conversion elements that respectively receive the divided light, wherein the first photoelectric conversion element of the photoelectric conversion elements is the direction of one focal line caused by astigmatism. A substantially strip shape having a long side in, the second photoelectric conversion element is a substantially strip shape having a long side in the direction of the other one focal line caused by astigmatism, and by the output of the first and second photoelectric conversion elements Focusing servo means for performing focusing, having an analyzer in front of the first and second photoelectric conversion elements, high difference signal output of the first and second photoelectric conversion elements Lap Optical storage reproduction apparatus characterized by having a magneto-optical signal reproducing means for reproducing the magneto-optical reproduction signal from the component. 3. The diffractive means for dividing the reflected light from the optical storage medium or the magneto-optical storage medium into at least two of a positive first-order diffracted light and a negative first-order diffracted light. The optical storage / playback device according to claim 1 or 2. 4. The width of the short side of the first and second photoelectric conversion elements is made substantially equal to the diameter of a spot on the photoelectric conversion element. An optical storage / playback device according to the item.