1. Field of the Invention
The present invention relates to an optical pickup and, more particularly, relates to a micro-optical pickup utilizing a dynamic micro-machined optical device.
2. Description of the Prior Art
Microelectromechanical System (MEMS) technology is a micro system fabrication technology of integrating the optics, the machinery, the electron, the material and so on. MEMS is extensively applied in many fields, including the optical electricity, the information, the communication and the biomedicine. MEMS microminiaturizes the products to enhance the performance, quality and reliability, to raise up the additional value and to lower down the fabrication cost simultaneously. The micro-optical system integrates micro-optical devices on a single chip, and light can freely propagate in this micro system, so that technology can be extensively applied in various optoelectronic applications. For an example of the optical storage, the micro-optical pickup reduces the weight, minifies the scale and accelerates the reading speed to promote the system very much.
Please refer to
The principle of micro-optical pickup 100 is illustrated as follows: when writing, a light emitted by the semiconductor laser, such as laser diode 140, passes through the beam splitter 110 and is focused to the surface of a disk 191 after passing a Fresnel focus lens 120 and being reflected by a 45-degree inclined reflective mirror 130 to write data on the disk 191; when reading, the light path is the same as in writing, then the light is reflected by the disk 191, and, after passing the Fresnel focus lens 120, the beam splitter 110 and being reflected by the 135 degree inclined reflective mirror 150, the light reaches the sensor 190 on the silicon substrate 192 and is converted into an electric signal.
As abovementioned, whenever writing or reading, only a single light beam is used by the micro-optical pickup 100, and therefore it is hard to speed up the reading. Besides, the light energy is lower in reading and higher in writing, so an additional circuit is needed to adjust light-energy of the laser diode 140, and that will cost more and reduce the performance.
In a prior art, a multi-beam liquid crystal diffraction optical device was integrated to a conventional optical pickup to have the effect of writing in single beam and reading in multiple beams. However, the size of the device is getting bigger and the manufacturing process can not be integrated into the semiconductor manufacturing process due to material problems, so it can not be realized in fabricating the micro-optical pickup.
The advantages of the present invention will become apparent from the following description taken in conjunction with the accompanying drawings wherein are set forth, by way of illustration and example, certain embodiments of the present invention.
In order to solve the foregoing problems, the objective of the present invention is to provide a micro-optical pickup fabricating actuator, a dynamic grating, a beam splitter, a Fresnel focus lens, a 45 degree inclined reflective mirror, an object lens, an elliptical Fresnel focus lens, a 135 degree inclined reflective mirror, three dimension micro-optical device etc by MEMS technology.
One objective of the present invention is to provide a micro-optical pickup fabricating an actuator by MEMS technology to drive a dynamic grating as the single-beam and multi-beam switch. The actuator may be the cantilever beam electrostatic actuator, the scratch drive actuator, the magnetic actuator or the electro-magnetic actuator.
One objective of present invention is to provide a micro-optical pickup which in whole writing motion, the micro-optical pickup is set high energy single-beam and in whole reading motion, the micro-optical pickup is set multi-beam state with low energy.
Therefore, the micro-optical pickup of present invention has the merits of light weight, small size, simple structure, conforming system efficiency and low cost to effectively raise the speed of the optical pickup.
To achieve the objective mentioned above, one embodiment of the present invention is to provide a micro-optical pickup, including: a silicon substrate; a laser diode set on silicon substrate to emit a light source; a cantilever beam electrostatic actuator; a dynamic grating driven by a cantilever beam electrostatic actuator; a beam splitter; a Fresnel focus lens; a 45 degree inclined reflective mirror; an object lens; an elliptical Fresnel focus lens; a 135 degree inclined reflective mirror; and a light sensor array; wherein a cantilever beam electrostatic actuator, a dynamic grating, beam splitter, a Fresnel focus lens, a 45 degree inclined reflective mirror, an object lens, an elliptical Fresnel focus lens and a 135 degree inclined reflective mirror are fabricated by MEMS technology.
When the micro-optical pickup proceeding a writing motion, the dynamic grating is lifted off an optical axis, the laser diode emitting a laser light directly passing through the beam splitter and focused by the Fresnel focus lens, then, the 45 degree inclined reflective mirror reflecting the laser light, passing through the object lens and focused on the surface of a disk, and an information is written into the surface of the disk;
When the micro-optical pickup proceeding a reading motion, the dynamic grating is driven to approach the optical axis by the cantilever beam electrostatic actuator, the laser diode emitting the laser light spitted into multi-beams by the dynamic grating, passing the beam splitter and focused by the Fresnel focus lens, the 45 degree inclined reflective mirror reflecting the laser light, passing through the object lens and focused on the surface of the disk, the multi-beam reflected by the surface of the disk, then, passing through the object lens, the 45 degree inclined reflective mirror, the Fresnel focus lens and the beam splitter, focused by the elliptical Fresnel focus lens, finally reflected by the 135 degree inclined reflective mirror to the light sensor array, the signal light with an information data in the disk converted into an electric signal output.
Another embodiment of present invention is to provide a micro-optical pickup, including: a silicon substrate; a laser diode set on the silicon substrate to emit a light source; a scratch drive actuator; a dynamic grating driven by a scratch drive actuator; a beam splitter; a Fresnel focus lens; a 45 degree inclined reflective mirror; an object lens; an elliptical Fresnel focus lens; a 135 degree inclined reflective mirror; and a light sensor array, wherein a scratch drive actuator, a dynamic grating, beam splitter, a Fresnel focus lens, a 45 degree inclined reflective mirror, an object lens, an elliptical Fresnel focus lens and a 135 degree inclined reflective mirror are fabricated by MEMS technology.
When the micro-optical pickup proceeding a writing motion, the dynamic grating is lifted off an optical axis, the laser diode emitting a laser light directly passing through the beam splitter and focused by the Fresnel focus lens then, the 45 degree inclined reflective mirror reflecting the laser light, passing through the object lens and focused on the surface of a disk, and an information is wrote into the surface of the disk;
When the micro-optical pickup proceeding a reading motion, the dynamic grating is driven to approach the optical axis by the scratch drive actuator, the laser diode emitting the laser light spitted into multi-beams by the dynamic grating, passing through the beam splitter and focused by the Fresnel focus lens, the 45 degree inclined reflective mirror reflecting the laser light, passing the object lens and focused on the surface of the disk, the multi-beam reflected by the surface of the disk, then, passing through the object lens, the 45 degree inclined reflective mirror, the Fresnel focus lens and the beam splitter, focused by the elliptical Fresnel focus lens, finally reflected by the 135 degree inclined reflective mirror to the light sensor array, the signal light with an information data in the disk converted into an electric signal output.
Another embodiment of present invention is to provide a micro-optical pickup, including: a silicon substrate; a laser diode set on the silicon substrate to emit a light source; a magnetic actuator or an electromagnetic actuator; a dynamic grating driven by the magnetic actuator or the electromagnetic actuator; a beam splitter; a Fresnel focus lens; a 45 degree inclined reflective mirror; an object lens; an elliptical Fresnel focus lens; a 135 degree inclined reflective mirror; and a light sensor array, wherein the magnetic actuator or the electromagnetic actuator, the dynamic grating, the beam splitter, the Fresnel focus lens, the 45 degree inclined reflective mirror, the object lens, the elliptical Fresnel focus lens and the 135 degree inclined reflective mirror are fabricated by MEMS technology.
When the micro-optical pickup proceeding a writing motion, the dynamic grating is lifted off an optical axis, the laser diode emitting a laser light directly passing through the beam splitter and focused by the Fresnel focus lens then, the 45 degree inclined reflective mirror reflecting the laser light, passing through the object lens and focused on the surface of a disk, and an information is written into the surface of the disk;
When the micro-optical pickup proceeding a reading motion, the dynamic grating is driven to approach the optical axis by the magnetic actuator or the electromagnetic actuator, the laser diode emitting the laser light spitted into multi-beams by the dynamic grating, passing the beam splitter and focused by the Fresnel focus lens, the 45 degree inclined reflective mirror reflecting the laser light, passing the object lens and focused on the surface of the disk, the multi-beam reflected by the surface of the disk then pass the object lens, the 45 degree inclined reflective mirror, the Fresnel focus lens and the beam splitter, focused by the elliptical Fresnel focus lens, finally reflected by the 135 degree inclined reflective mirror to the light sensor array, the signal light with an information data in the disk converted into an electric signal output.
The foregoing aspects and many of the accompanying advantages of this invention will become more readily appreciated as the same becomes better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
The detailed explanation of the present invention is described as following. The described preferred embodiments are presented for purposes of illustrations and description, and they are not intended to limit the scope of the present invention.
The following illustrates three better embodiments according to the present invention.
In one embodiment, the wavelength of the laser light emitted by the diode 140 ranges from 350 nm to 800 nm, the cantilever beam electrostatic actuator 293 is made of polysilicon and metal film, the dynamic grating 220 is made of periodic structure of silicon nitride and the light sensor array 290 is adhered on the surface of the silicon substrate 292 with a metallic or a high polymer adhesive.
The operation of the micro-optical pickup 200 i s briefly illustrated as follows:
In writing, shown in
In reading, shown in
A second embodiment according to the present invention, shown in
In this embodiment, for the writing motion, the dynamic grating 220 is pulled off the optical axis of the laser light by the scratch drive actuator 393, and, for the reading motion, the dynamic grating 220 is pulled on (inserted into) the optical axis of the laser light. And, the scratch drive actuator 393, is also made of polysilicon and metallic film by MEMS technology.
A third embodiment is show in
In this embodiment, the magnetic actuator or the electro-magnetic actuator 493 can move the dynamic grating 420 on or off the optical axis of the laser light to switch single/multi laser light to do the writing or reading motion.
Therefore the micro-optical pickup of the present invention has the following advantages. (1) The microminiturized components by MEMS technology, such as the actuator, the dynamic grating, the beam splitter, the Fresnel focus lens, the 45 degree inclined reflective mirror, the object lens, the elliptical Fresnel focus lens and the 135 degree inclined reflective mirror, three dimension optical devices etc. (2) The actuator drives the dynamic grating to switch the laser light of the laser diode into a single beam or a multiple beams, wherein the single beam has higher energy for writing and multiple beams have lower energy for reading, respectively. (3) The size, cost and weight are reduced, the structure is simplified and the efficiency is increased.
While the invention is susceptible to various modifications and alternative forms, a specific example thereof has-been shown in the drawings and is herein described in detail. It should be understood, however, that the invention is not to be limited to the particular form disclosed, but to the contrary, the invention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the appended claims.
Number | Date | Country | Kind |
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96150813 | Dec 2007 | TW | national |