Dynamic information storage or retrieval – With servo positioning of transducer assembly over track... – Optical servo system
Reexamination Certificate
1998-10-23
2001-06-05
Edun, Muhammad (Department: 2651)
Dynamic information storage or retrieval
With servo positioning of transducer assembly over track...
Optical servo system
C369S044120, C369S103000, C369S112100
Reexamination Certificate
active
06243334
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an information reading and writing device, for reading and writing an optical signal, which comprises a reading or writing head of an optical disk device or optical magnetic disk device used as a storage device of a computer.
In accordance with the development of a high performance computer, it becomes necessary to incorporate a storage device of large capacity into the computer. As the storage device to be incorporated into the computer, attention is given to a hard disk device and an optical disk device. Especially, the latter is advantageous in that the disk medium can be easily attached to and detached from the computer, that is, the disk medium can be easily replaced and further the capacity of the disk medium is large and the device is compact and the weight is small. For the above reasons, the optical disk device has become important.
2. Description of the Related Art
It is necessary to further reduce the price of an optical disk device or optical magnetic disk device. As a component to reduce the price, there is a strong demand for reducing the price of an optical head portion. Therefore, it has been conventionally necessary to provide a system in which the number of parts of an optical head can be decreased and the size and weight of the optical head can be reduced and also the labor to adjust the optical head can be reduced. On the other hand, in a disk medium in which both reading and writing of data can be conducted, there is a strong demand for increasing the luminous energy of laser beams, and also there is a strong demand for increasing the quantity of light for servo detection or transmission of an information signal.
For the above reasons, reduction of the number of parts, reduction of labor for adjustment and reduction of the size and weight are strongly required by integrating a large number of optical elements such as a polarization separating element of a polarization beam splitter or Wollaston prism, a beam splitter and a mirror into one package.
FIG. 1
is a view showing a signal detection optical system used for a conventional optical head of an optical magnetic disk. A laser beam emitted from a semiconductor laser
1
, which is a light source, is made to be parallel by a collimator lens
2
. After a portion of the parallel beam has been transmitted through a beam formation prism
3
, it is directed to an optical magnetic disk, which is a storage medium, by a polarization beam splitter
4
and condensed onto an optical magnetic disk
6
by an objective lens
5
.
When written data exists on the optical magnetic disk
6
, an angle of polarization of light is rotated by the Kerr effect. That is, when written data exists on the optical magnetic disk
6
, a laser beam of P-polarization light component used for detection is rotated by an angle of &thgr;k by the Kerr effect. Therefore, a small quantity of S-polarization light component is generated. Polarization light components (S-component and P-component) of the beam which has returned from the optical magnetic disk
6
are reflected on the polarization beam splitter
4
. A beam of light, which have been reflected on the polarization beam splitter
4
, are reflected on the polarization beam splitter
7
. Then, the beam of light passes through a ½ wave plate
8
and condenser lens
9
. After that, the beam of light is separated into an S-polarization light component and a P-polarization light component by the polarization light beam splitter
10
.
The S-polarization light component and the P-polarization light component are respectively incident on the light detectors
11
,
12
. When a difference in the intensity of these two signals are found, it is possible to detect a signal.
On the other hand, polarization light components of the beam which has returned from the optical magnetic disk
6
is reflected on the polarization beam splitter
4
. A portion of the beam of light, which has been reflected on the polarization beam splitter
4
, is reflected on the polarization beam splitter
7
and transmitted through the condenser lens
13
. Then, the beam of light is incident on the beam splitter
14
. After that, a focus is detected by the push-pull method in which the knife edge
15
and the optical detector
16
are used, and the track is detected by an optical detector
17
.
As described above, in a conventional signal detection optical system of the optical head for the optical magnetic disk shown in
FIG. 1
, it is necessary to provide a large number of optical elements such as a polarization separating element of a polarization beam splitter or others. When these optical elements are incorporated, a large amount of labor is required for adjusting these optical elements.
There is proposed a technique in which the number of optical elements such as a beam splitter and others can be reduced by using a hologram element having a plurality of hologram regions in an optical head for an optical magnetic disk.
For example, Japanese Unexamined Patent Publication No. 3-150744 discloses a technique in which a hologram element which has two hologram regions arranged symmetrically with respect to a dividing line perpendicular to the track direction of a storage medium is used and a recording signal is detected by a difference between beams of diffracted light sent from these two hologram regions.
As described above, in the conventional optical head of the optical magnetic disk device, it is necessary to provide a large number of optical elements, and also a large amount of time is required for adjusting the optical elements.
SUMMARY OF THE INVENTION
In the present invention, the number of parts and the number of mandays required for adjustment are reduced and also the size and weight of the device are reduced when a hologram is incorporated into a package of a semiconductor laser together with the semiconductor laser without using a large number of optical elements such as a polarization splitting element (polarization beam splitter, Wollaston prism and so forth), a beam splitter and a mirror.
The present invention provides an optical signal information reading and writing device comprising: a semiconductor laser used as a light source; an image formation lens for condensing a beam of light sent from the semiconductor laser so as to form an image on an optical disk medium; a hologram arranged on an optical path between the semiconductor laser and the image formation lens, having respective hologram regions which function as diffraction optical elements for detecting a tracking error signal and a focus detection error signal; and optical detection elements for detecting the tracking error signal and the focus detection error signal by detecting a beam of light diffracted in the respective hologram regions; wherein two optical detecting elements for detecting a focus error are arranged so that both optical detecting elements can have two-divided regions, beams of light diffracted by the two hologram regions for detecting the focus error are convergent beams, which are most converged in the optical axis direction on the respective splitting line of the optical detecting element for detecting the focus error under the condition that the optical disk is in focus, and beams of light on the two optical detecting elements for detecting the focus are arranged in a condition of point symmetry with respect to a central axis of the hologram.
According to the present invention, beams of light are arranged in a condition of point symmetry with respect to the central axis of the hologram. Therefore, even if a tolerance of thickness is allowed on the base plate of the hologram, the focus set can be adjusted when the hologram is adjusted by rotation.
A diffraction direction of beams of light diffracted in the two hologram regions for detecting the focus error contains two components of a direction connecting the two hologram regions and a direction perpendicular to the direction connecting the two hologram regions, and the beams of light on th
Hasegawa Shin-ya
Yoshikawa Hiroyasu
Armstrong Westerman Hattori McLeland & Naughton LLP
Edun Muhammad
Fujitsu Limited
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