Patent application number | Description | Published |
20110134733 | TILT ADJUSTMENT CONTROL METHOD OF NEAR-FIELD OPTICAL SYSTEM - A tilt adjustment control method for a near-field optical system is provided. The method includes the following steps. A gap between a lens and a disc is detected. A gain corresponding to the gap is provided. A tilt signal is detected. A tilt compensation value according to the tilt signal and the gain is obtained. A tilt adjustment control is performed on the lens according to the tilt compensation value. | 06-09-2011 |
20110141864 | TILT CONTROL METHOD OF NEAR-FIELD OPTICAL SYSTEM - A tilt control method for a near-field optical disc drive is provided. A gap between a lens and a disc is estimated. A tilt compensation for the lens is estimated according to a tilt signal when the lens is within a far-field region. A coarse tilt control is performed on the lens according to the tilt compensation when the lens is within the far-field region. | 06-16-2011 |
20130162598 | VIRTUAL PROJECTING INPUT SYSTEM AND INPUT DETECTING METHOD THEREOF - An input detecting method used for a virtual projecting input system includes: emitting an image light beam through a reflecting mirror, and the image light beam forming a projecting point on a projecting plane; enabling the reflecting mirror to swing, so as to enable the image light beam to swing, and the projecting point scanning back and forth on the projecting plane, and generating an input image; detecting a swing frequency of the reflecting mirror, and generating a frequency signal; judging whether an input action occurs, and if yes, generating a detecting signal; and analyzing a phase difference between the frequency signal and the detecting signal, and calculating an input position of the input action according to the phase difference. | 06-27-2013 |
20140002804 | Laser Scanning Projection System with Reduced Speckle Contrast and Speckle Contrast Reducing Method | 01-02-2014 |
20140016104 | PORTABLE ELECTRONIC DEVICE WITH MULTIPLE PROJECTING FUNCTIONS - A portable electronic device with multiple projecting functions is provided. The portable electronic device includes a main body, a projecting module, and a switching mechanism. The projecting module is disposed within the main body for generating an image beam. The switching mechanism is movably disposed on the main body. When the switching mechanism is located at a first position, the image beam is projected along a first projecting path, and the portable electronic device is in a first operating mode. When the switching mechanism is located at a second position, the image beam is projected along a second projecting path, and the portable electronic device is in a second operating mode. | 01-16-2014 |
20140036235 | LASER PROJECTION SYSTEM WITH SECURITY PROTECTION MECHANISM - A laser projection system comprising a laser light and a human body detection module is disclosed. The laser light source emits a laser light. The human body detection module detects a reflective light of the laser light irradiated on an object. The human body detection module determines whether the object is a human according to a relationship between several reflectivity indexes of the reflective light. If the relationship corresponds to predefined situation, the human body detection module reduces a laser output intensity of the laser light. | 02-06-2014 |
20140152963 | ALIGNING METHOD AND OPTICAL APPARATUS - An aligning method is provided. The aligning method includes: fixing a plurality of lenses and a beam combining unit in a fixing base; respectively disposing a plurality of light emitting units in a plurality of holders; leaning the holders on the fixing base, and respectively corresponding locations of the light emitting units to locations of the lenses; turning on the light emitting units, and enabling the light beams respectively emitted by the light emitting units to be combined by the beam combining unit after respectively passing through the lenses; and respectively adjusting positions of at least part of the light emitting units by using at least one jig to respectively hold the at least part of the light emitting units until an overlapping degree of the light beams combined by the beam combining unit matches a preset requirement. In addition, an optical apparatus is provided as well. | 06-05-2014 |
20140160448 | OPTICAL MODULE USED IN PROJECTION DEVICE - An optical module used in a projection device is provided. The optical module includes a base and a filter mirror. The base has an inclined leaning surface and a sidewall surface. The sidewall surface is located at a periphery of the base and forms a through hole along a direction. The inclined leaning surface is extended from the sidewall surface and an inclined angle is formed between the inclined leaning surface and the direction. The filter mirror is disposed on the inclined leaning surface. | 06-12-2014 |
20140218698 | PROJECTION APPARATUS - A projection apparatus including a light source module and a Micro-electro-mechanical-system (MEMS) mirror is provided. The light source module outputs a plurality of illumination beams having different transmission paths. The MEMS minor is disposed on the transmission paths of the illumination beams. Each illumination beam propagates to the MEMS mirror respectively, and the illumination beams are respectively reflected by the MEMS mirror to project on a plurality of positions within an imaging region, wherein the transmission paths of the illumination beams transmitted from the light source to the MEMS mirror are not intersected with the imaging region. | 08-07-2014 |