Patent application number | Description | Published |
20090116113 | IMAGE SCREEN - An image screen includes a transparent substrate, a metal film, and an optical reflective stack layer. The metal film is disposed on a first surface of the transparent substrate, having a thickness and a set of material characteristic constants being predetermined. The optical reflective stack layer is disposed over the metal layer. The metal film and the optical reflective stack layer function together to selectively reflect a light with a portion of wavelength. In addition, according to the need, a diffusion micro-structure layer can be disposed on a second surface of the transparent substrate. Further for example, another reflective layer or optical absorbing layer can be further disposed on another surface of the optical reflective stack layer. The reflective layer can be, for example, a metal film. | 05-07-2009 |
20090168393 | Polarized light illumination device - A polarized light illumination device is described, which includes a light source, a polarizer, a reflector, and a polarized light converter. The light source generates light. The reflector is used for reflecting light generated by the light source towards the polarizer. The polarizer allows a first polarized light to pass through, and reflects a second polarized light. The polarized light converter reflects the light irradiated on the polarized light converter and performs a polarization conversion. A plane where the polarized light converter is located is substantially perpendicular to the polarizer. | 07-02-2009 |
20090296045 | ILLUMINATION SYSTEM - An illumination system includes at least one light source capable of generating light of at least three wavelength sections; at least three integrator modules for receiving the light of each wavelength section and performing a uniformization process on the light of each wavelength section; at least three first lens modules for receiving the after the uniformization process light and converging angles of the light into a predetermined range; a light coupling module for receiving the converged light and performing a light-coupling process on the light; and a polarization conversion module for receiving the coupled light and performing a polarization conversion process on the light. | 12-03-2009 |
20100165451 | OPTICAL DEFLECTOR AND OPTICAL DEFLECTING BOARD - An optical deflector includes a substrate, an electrode layer on the substrate, an insulating layer at a predetermined peripheral region on the electrode layer, exposing the central region of the electrode layer. First electrode sandwiched wall is on the insulating layer. Second electrode sandwiched wall is on the insulating layer corresponding to the first electrode sandwiched wall. A pair of insulating walls is between the first electrode sandwiched wall and the second electrode sandwiched wall in enclosing to form an inner space. An outer wall encloses the pair of insulating layers, the first and the second electrode sandwiched walls at outside. A cap layer covers on the outer wall. A first liquid is filled into the inner space in contact with the electrode layer. A second liquid is filled into the inner spacer without solving to each other and forms a liquid interface. | 07-01-2010 |
20120218225 | OPTICAL SCANNING TYPE TOUCH APPARATUS AND OPERATION METHOD THEREOF - An optical scanning-type touch apparatus and an operation method thereof are provided. The optical scanning-type touch apparatus includes a touch area, a light scanning module, an imaging module and a calculating unit. The light scanning module is disposed at one corner of the touch area to emit a scanning light for scanning the touch area. The imaging module is disposed at another corner of the touch area adjacent the light scanning module to obtain a first angle between the scattering light and a edge of the touch area, wherein the edge of the touch area is between the light scanning module and the imaging module. The calculating unit receives the first angle, a second angle and a distance between the light scanning module and the imaging module to calculate a position of the object on the touch area. | 08-30-2012 |
20120320585 | LIGHT ACTION ELEMENT MODULE, LIGHTING DEVICE, AND LIGHTING SYSTEM - A light action element module, a lighting device, and a lighting system are provided. The light action element module includes N×K light action elements, wherein adjacent light action elements are connected with each other. A detachable section is disposed between every two connecting light action elements. The light action elements are for separating into a plurality of combinations of the light action elements along at least a part of the detachable sections, or the light action elements are adapted to form a combination of the light action elements without separating, so as to produce different piecing-together manners, wherein N and K are positive integers, and N is greater than or equal to 2. | 12-20-2012 |
20130010472 | ILLUMINATION DEVICE AND ASSEMBLING METHOD THEREOF - An illumination device including a base, a heat dissipation member, at least one flexible printed circuit board (FPC), and a plurality of light-emitting elements is provided. The heat dissipation member disposed on the base has a central axis, a plurality of holding curvy surfaces and a plurality of heat dissipation channels extending along the central axis, wherein the holding curvy surfaces and the heat dissipation channels are staggered and arranged about the central axis, and each of the holding curvy surfaces radially extends along the central axis. The flexible printed circuit board is disposed on the holding curvy surfaces. The light-emitting elements are disposed on the flexible printed circuit board. An assembling method of the illumination device is also provided. | 01-10-2013 |
20130057679 | HEAD MOUNT PERSONAL COMPUTER AND INTERACTIVE SYSTEM USING THE SAME - A head mount personal computer (HMPC) and an interactive system using the same are provided. The provided HMPC includes a microprocessing unit, an output unit and an image capture unit with a distance detection function (ICWDD). The microprocessing unit is served as an operation core of the HMPC. The output unit is coupled to and controlled by the microprocessing unit, and configured to project an optical image onto a space. The ICWDD is coupled to and controlled by the microprocessing unit, and configured to capture operation gestures on the projected optical image from a user wearing the HMPC, such that the microprocessing unit correspondingly controls operations of the HMPC in response to the operation gestures on the projected optical image from the user. | 03-07-2013 |
20130107545 | BULB CAP AND LAMP WITH APPLICATION THEREOF | 05-02-2013 |
20130114252 | ILLUMINATION DEVICE, LIGHT SOURCE, AND LIGHT MODULE - An illumination device including a base, a light bar, and a cover is provided. The base has a cavity. The light bar is disposed at the bottom of the cavity and includes a plurality of dot light sources arranged along a first axial direction. The cover is assembled to the base for correspondingly covering the light bar and has a plurality of openings. The distribution density of the openings increases from a corresponding location of a dot light source towards two opposite ends along the first axial direction. A light source and a light module are also provided. Another illumination device including a base and a plurality of light sources is further provided. | 05-09-2013 |
20130119877 | LIGHT SOURCE APPARATUS AND DRIVING APPARATUS THEREOF - A light source driving apparatus including a voltage converting unit, a switching unit, a feedback unit and a control unit is provided. The voltage converting unit provides a driving current to drive a light source module. The switching unit is controlled to be conducted or not by a switch signal. The feedback unit detects a load status of the light source module, and provides a feedback signal accordingly. The control unit modulates pulse widths of the switch signal according to the feedback signal, a signal upper limitation, and a signal lower limitation, so as to control the switching unit to be conducted. The voltage converting unit includes an energy storage element. When the switching unit is conducted, the energy storage element stores a part of energy provided by the input power source. When the switching unit is not conducted, the energy storage element provides the driving current. | 05-16-2013 |
20140124373 | PARTICLE MANIPULATION SYSTEM AND PROJECTION DEVICE - A particle manipulation system and a projection device are provided. The projection device includes an image source and a projection lens. The image source provides an image beam. The projection lens is disposed on a light path of the image beam and includes a zoom lens set and a focusing lens set. The zoom lens set is disposed on the light path of the image beam from the image source and includes at least two lens groups disposed in sequence on the light path of the image beam. The focusing lens set is disposed on the light path of the image beam. The zoom lens set is disposed between the image source and the focusing lens set. A photoconductor chip is disposed on the light path of the image beam from the projection lens. | 05-08-2014 |
20140126039 | PROJECTION LENS, PROJECTION DEVICE AND OPTICALLY-INDUCED MICROPARTICLE DEVICE - A projection lens, a projection device and an optically-induced microparticle device are provided. The projection lens includes an aperture, a first and a second lens groups. The aperture, the first and the second lens groups are disposed on a projection path of an image. The aperture is between the first and the second lens groups. The first and the second lens groups are suitable for interchanging with each other to switch the magnification ratio. When in a first state, the first lens group is between the object and the aperture and the second lens group is between the aperture and a projection surface, herein the projection lens has a first magnification ratio. When in a second state, the first lens group is between the aperture and the projection surface, and the second lens group is between the object and the aperture, herein the projection lens has a second magnification ratio. | 05-08-2014 |
20140177063 | VIRTUAL IMAGE DISPLAY APPARATUS - A virtual image display apparatus configured to be in front of at least one eye of a user includes an image display unit, a first beam splitting unit, and a reflection-refraction unit. The image display unit provides an image beam. The first beam splitting unit disposed on transmission paths of the image beam and an object beam causes at least one portion of the object beam to propagate to the eye and causes at least one portion of the image beam to propagate to the reflection-refraction unit. The reflection-refraction unit includes a lens portion and a reflecting portion on a first curved surface of the lens portion. At least part of the image beam travels through the lens portion, is reflected by the reflecting portion, travels trough the lens portion again, and is propagated to the eye by the first beam splitting unit in sequence. | 06-26-2014 |
20150070773 | VIRTUAL IMAGE DISPLAY APPARATUS - A virtual image display apparatus, adapted for medical surgical applications, with which a surgical device is operated is provided. The virtual image display apparatus includes at least one virtual image display module which is disposed in front of at least one eye of a user. The virtual image display module includes an image display unit and a beam splitting unit. The image display unit provides an image beam, wherein the image beam includes at least one type of surgical information. The beam splitting unit is disposed on the transmission path of the image beam and an object beam from an environment object. The beam splitting unit causes at least part of the object beam to be transmitted to the eye, and causes at least part of the image beam to be transmitted to the eye to display a virtual image. | 03-12-2015 |