JP2000276755A5 - - Google Patents

Description

In the aperture 6, a dielectric film is vapor-deposited on a transparent plate-shaped member to form a circular opening in the center. In the aperture 6, a dielectric film is formed in a portion surrounding the opening, and the dielectric film selectively blocks light having a wavelength of 780 [nm], which is the wavelength of a laser beam for a compact disk, and also a laser for DVD. A filter that transmits light having a wavelength of 650 [nm], which is the wavelength of the beam, is configured. Thus aperture 6, the laser beam compact disc, the beam diameter determined Ri by the opening while transmitting shapes the beam shape, for the DVD laser beam, without changing the any beam shape It is designed to be transparent.

Receiving surface 25B and 26B of the compact disc are each formed in a substantially rectangular shape arranged in the circumferential tangential direction of the compact disk, formed is divided in the radial direction of the compact disk by dividing lines extending in the circumferential tangential direction Will be done. The light receiving surfaces 25B and 26B are configured to receive light by dividing the beam spot formed on each light receiving surface into four in the radial direction of the compact disc in the state of just tracking. Is designed to be output respectively. In the following, the small light receiving surfaces thus divided are indicated by reference numerals m and p on the outside of the front side and reference numerals n and o on the inside of the front side. The outside of the rear side is indicated by reference numerals q and t, and the inside of the rear side is indicated by reference numerals r and s.

On the other hand , the light receiving surfaces 25A and 26A for the DVD are similarly arranged in the circumferential tangential direction of the optical disc 2A and formed in a substantially rectangular shape, respectively, and the light receiving surface 26A on the rear side is the rear light receiving surface for the compact disc. It is created in the same way as 26B.

On the other hand, in the light receiving surface 25A on the front side, in addition to the configuration of the light receiving surface 25B on the front side for a compact disc, the light receiving surface is further divided into two in the circumferential tangential direction of the optical disc. As a result, the semiconductor substrate 17 can generate a tracking error signal by the so-called DPD method. In the following, the small light receiving surfaces for DVDs divided in this way are indicated by reference numerals a and d on the outside and slope side of the front side, and by reference numerals b and c on the inside and slope side of the front side. .. The outside of the front side and the side farther from the slope are indicated by the symbols e and h, and the inside of the front side and the side farther from the slope are indicated by the symbols f and g. The outside of the rear side is indicated by reference numerals i and l, and the inside of the rear side is indicated by reference numerals j and k.

FIG. 5 is a plan view showing the optical pickup 3 as viewed from the optical discs 2A and 2B. The optical pickup 3 is configured such that an objective lens 7, an optical integration element 4, and the like are arranged on an aluminum die-cast base 40, and the base 40 is driven by a thread mechanism so that the optical discs 2A and 2B can move in the radial direction. To. Therefore, the base 40 has through holes 40A and 40B formed on the side surface for inserting the guide rod, and on the lower surface side of the side facing the side surface forming the through holes 40A and 40B, on the rotation shaft of the thread motor. A mechanism that meshes with the held screw is formed. Note optical pickup 3 is adapted to hold the objective lens 7 by the actuator 41 of the voice coil motor arrangement.

The holder 42A is formed in a disk shape, and a through hole is formed in the center. The holder 42A holds the optical integration element 4 so as to receive the laser beam emitted from the optical integration element 4 through the through hole and guide the laser beam toward the 42B side. Holder 42A is formed in a circular arc cross sectional shape corresponding to the wall shape of the receiving outer wall 4 2B. As a result, as shown by the arrows B and C, the holder 42A rotates the optical integrated element 4 which integrally holds the light emitting element and the light receiving element around the virtual light emitting point of the optical integrated element 4. The inclination of the optical integration element 4 is adjusted so that the so-called tilt adjustment can be performed.

Thereby the holder 42A and the receiving 42B are around the virtual emission point of the laser beam emitted from the optical integrated device 4, a light emitting element and a light receiving element adapted to form a so-called spherical seat for adjusting the inclination together There is.

In the operation of this series of optical pickups, when the optical disk loaded in the optical disk device 1 is a DVD 2A, in the optical disk device 1, the optical integrated element 4 is arranged side by side in the radial direction of the optical disks 2A and 2B. A laser beam is selectively emitted from the semiconductor laser diode chip 15A for DVD among the chips 15A and 15B (FIG. 3), and this laser beam is reflected by the beam splitter which is the slope of the prism 14 to the objective lens 7. It is emitted toward. Further, the return light incident from the objective lens 7 is incident on the inside of the prism 14 from this slope, is repeatedly reflected on the lower surface and the upper surface of the prism 14, and is guided to the light receiving surfaces 25A and 26A from the lower surface side. Thus in the optical disk device 1, DVD laser beam from the optical integrated device 4 is irradiated to the DVD 2 A, the return light is received by the optical integrated device 4. Further, this light receiving result is processed to generate a tracking error signal TE by the DPD method and a focus error signal FE by the astigmatism method.

(2) Second Embodiment FIG. 6 is a schematic diagram showing an optical pickup applied to the optical disk device according to the second embodiment of the present invention. In this optical pickup 53, it is applied in place of the above-mentioned optical pickup 3. Note that, in FIG. 6 , the same configuration as described above with respect to FIG. 2 is shown with corresponding reference numerals, and duplicated description will be omitted.