Patent application number | Description | Published |
20080252953 | Holographic Storage And Regeneration System Having Servo Mechanism - A holographic storage and regeneration system includes a holographic recording medium, a light source, a spatial light modulator, and a conjugate servo light guidance portion. The light source generates a signal light and a reference light. The spatial light modulator modulates the incident signal light and makes it incident onto the medium along the incident direction of the signal light. The guidance portion guides a reference light to incident onto the medium in one direction and reflects it in another direction. A reference light and a signal light interfere with each other to produce a holographic interference fringe. The reflected reference light is guided into a first image sensor to be used to analyze the incident angle of the reference light. When the reference light incidents onto the fringe of the medium through the guidance portion in a reverse direction relative to another direction, a conjugate regenerated light is generated. | 10-16-2008 |
20080277864 | PAPER FEEDING DEVICE - A paper feeding device includes a cover, a base, a pickup roller assembly and at least one paper blocking unit. The paper blocking unit is placed beside the pickup roller assembly, has a paper blocking element and a projection projecting from the upper portion of the side wall of the pickup roller assembly. The paper blocking element includes a connecting portion, a paper blocking arm, a pivot rotatablely connecting the cover. A connecting arm extends upwards from the end of the pivot, a blocking portion projects from the outer side of the connecting arm, a passage is formed between the blocking portion and the connecting arm. The projection can be downward against the blocking portion of the paper blocking element or pass through the passage of the paper blocking element to allow the paper to be fed in, so the cooperation is easy, the paper feeding device works smoothly. | 11-13-2008 |
20090040577 | System and method for holographic storage - A system and a method for holographic storage mainly involve forming a holographic interference pattern in a holographic recording medium. The holographic storage system utilizes a light source to emit a coherent beam. The coherent beam is irradiated to a first reflector to form a divergent beam. The divergent beam is then irradiated to a second reflector to form collimating beams (a signal beam and a reference beam). The signal beam goes through a spatial light modulator (SLM) and is modulated by the SLM. After that, the reference beam and the modulated signal beam are irradiated to a convergent unit, and are directed to the holographic recording medium for forming the holographic interference pattern. The holographic storage system that the light source is split into a signal beam and a reference beam by a set of reflectors according to the reflection principle without involving refraction may employ wavelength multiplexing. | 02-12-2009 |
20090040582 | System and method for holographic storage - A system and a method for holographic storage mainly involve forming a holographic interference pattern in a holographic recording medium. The holographic storage system utilizes a light source to emit a coherent beam. The coherent beam is irradiated to a first reflector to form a divergent beam. The divergent beam is then irradiated to a second reflector to form collimating beams (a signal beam and a reference beam). The signal beam goes through a spatial light modulator (SLM) and is modulated by the SLM. After that, the reference beam and the modulated signal beam are irradiated to a convergent unit, and are directed to the holographic recording medium for forming the holographic interference pattern. The holographic storage system that the light source is split into a signal beam and a reference beam by a set of reflectors according to the reflection principle without involving refraction may employ wavelength multiplexing. | 02-12-2009 |
20100330321 | COVER LAYER FOR PRINTED CIRCUIT BOARD - The present invention provides a cover layer for a printed circuit board. The cover layer includes a first polymer layer, a second polymer layer and a light-reflecting layer disposed between the first and second polymer layers and having a thickness being 0.5 to 10 micro meters. Due to the light-reflecting layer, the cover layer of the present invention has high reflection rate and great flexibility suitable for a flexible printed circuit board. | 12-30-2010 |
20110086192 | COVER LAYER FOR PRINTED CIRCUIT BOARD - The present invention provides a cover film for a printed circuit board. The cover film includes an adhesive layer; a core layer made of a polymer; and a composite material layer formed on the core layer, comprising epoxy resin, a black material selected from the group consisting of a black pigment, carbon powder, nano carbon tube and a combination thereof, and an additive selected from the group consisting of titanium dioxide, boron nitride, barium sulfate and a combination thereof, wherein the core layer is disposed between the adhesive layer and the composite material layer, and the adhesive layer and the composite material layer have the same thickness or have a thickness difference being no more than 15 micro meters. The cover film of the preset invention is capable of shielding circuit patterns and has great folding endurance, and is thus applicable to flexible printed circuit boards. | 04-14-2011 |
20110114371 | COMPOSITE DOUBLE-SIDED COPPER FOIL SUBSTRATES AND FLEXIBLE PRINTED CIRCUIT BOARD STRUCTURES USING THE SAME - A double-sided copper foil substrate, which comprises: a polymer layer; a first copper foil; an adhesive layer formed on the polymer layer such that the polymer layer is sandwiched between the adhesive layer and the first copper layer; and a second copper foil causing the adhesive layer to be sandwiched between the second copper foil and the polymer layer, wherein the polymer layer and the adhesive layer have a total thickness of from 12 to 25 μm. The present invention further provides a flexible printed circuit board structure utilizing the composite double-sided copper foil substrate of the present invention, wherein the second double-sided copper foil substrate has a trench for exposing a portion of the adhesive layer. The double-sided copper foil substrate of the present invention are lower in rebound and satisfying the demand for the greater number of bending and sliding cycles under a lower R angle, and particularly is suitable for thin and flexible electronic products. | 05-19-2011 |
Patent application number | Description | Published |
20090038976 | CONTAINER AND FOOLPROOF DEVICE THEREOF - A container comprises a first cover and a second cover, in which the first cover comprises an internal space. The container further comprises a plate disposed on the second cover. The second cover is provided with at least one first foolproof device, while the plate is provided with at least one second foolproof device. When the second foolproof device is engaged with the first foolproof device, the plate and the second cover are generally fixedly positioned with respect to each other. | 02-12-2009 |
20090038988 | CONTAINER AND LINER THEREOF - A container having a top cover and a bottom cover is provided, which includes a canopy disposed on the bottom cover to form therewith a space to accommodate an article. A plurality of locators is disposed on a surface of the bottom cover so that when the bottom cover is tightly combined with the top cover, the locators are clipped between the bottom cover and the top cover to orient the canopy in a fixed position. | 02-12-2009 |
20100038281 | Front Opening Unified Pod with latch component - A wafer container includes a container body, the internal of which is disposed with a plurality of slots for supporting wafers and an open front is formed on one sidewall of which for importing and exporting said plurality of wafers, and a door with an outer surface and an inner surface, which is joined with opening of the container body with its inner surface for protecting the plurality of wafers within the container, the characteristic in that: at least one latch component including a cam and a pair of moving bars is disposed between outer surface and inner surface of the door, wherein a pair of cam grooves are disposed on the cam for being connected with guide bar on one end of the pair of moving bars, and each moving bar includes a slide groove for being fixed in by roller disposed between outer surface and inner surface of the door, which in turn allows the rotation of the cam to cause to-and-fro movement of another end of the moving bars. | 02-18-2010 |
Patent application number | Description | Published |
20080241706 | HOLOGRAPHIC DATA STORAGE MEDIUM AND FABRICATION METHOD THEREOF - A holographic data storage medium and a fabrication method thereof are provided. First, a precursor solution including an ultraviolet curable adhesive composition including a monomer having at least one (meth)acryloyl group in the molecule and an oligomer having at least two (meth)acryloyl groups in the molecule, a photopolymerizable organic compound and a photoinitiator including 2, 4, 6 trimethyl benzoldiphenyl phosphine oxide is provided. Next, a first substrate and a second substrate are attached to one another such that a gap is formed between the first and second glass substrates. Next, the precursor solution is filled into the gap. Next, the precursor solution between the first and second substrates is irradiated with a light in an atmosphere of an inert gas to induce photo-polymerization reaction to form the recording layer. | 10-02-2008 |
20090088013 | MICRO USB RECEPTACLE - A mirco USB receptacle includes a housing surrounding an axis, a terminal seat extending into the housing along the axis, and an engaging unit. The engaging unit has a first engaging member provided on the terminal seat, and a resilient second engaging member provided on the housing and having an engaging hole for retaining the first engaging member therein and an inner surrounding surface that defines the engaging hole. The first engaging member is formed with a stop surface for abutting against the inner surrounding surface of the second engaging member to arrest separation of the terminal seat from the housing. | 04-02-2009 |
20090088025 | MICRO USB PLUG - A micro USB plug includes a terminal seat and a terminal unit including two first terminals, two second terminals, and a third terminal. Each of the first, second, and third terminals extends into the terminal seat and has an extending segment formed with a contact projection, an inspection segment connected to the extending segment and having an inspection surface that is flush with a reference surface of the terminal seat and an abutting surface that abuts against the terminal seat, and a soldering segment extending from the inspection segment. The contact projections and the inspection segments of the first and third terminals extend in a same direction. The contact projections and the inspection segments of the second terminals extend in opposite directions. A segment length of the soldering segments of the first terminals differs from that of the soldering segment of the third terminal. | 04-02-2009 |
20090161517 | Optical imaging device and optical sensor thereof - An optical imaging device and an optical sensor thereof are described. The optical sensor is used for sensing a signal light. The optical sensor includes a plurality of photosensitive pixels and at least one absorption wall. The absorption wall is disposed between the photosensitive pixels, and a top of the absorption wall is higher than photosensitive surfaces of the photosensitive pixels. Herein, the photosensitive pixels are used for receiving an incident signal light, and the absorption wall is used for absorbing non-parallel light components in the signal light. | 06-25-2009 |
20090237762 | HOLOGRAM MEDIA READING APPARATUS - A hologram media reading apparatus including a reference light source, a stop with gray level aperture, and an optical sensor is provided. The reference light source is disposed on one side of a hologram medium, and capable of emitting a reference light beam. The reference light beam is transmitted to the hologram medium. The stop with gray level aperture and the reference light source are disposed on the same side or opposite sides of the hologram medium. The stop with gray level aperture has a light transmissive region, an opaque region, and a transmittance gradually varying region. The opaque region surrounds the light transmissive region. The transmittance gradually varying region surrounds the light transmissive region. A part of the reference beam from the hologram medium passes through the stop with gray level aperture and is transmitted to the optical sensor. | 09-24-2009 |
20110294355 | Electrical Connector - In an electrical connector, a housing includes opposite front and rear end walls, and an insertion slot that is formed between opposite upper and lower inner wall surfaces extending in a front-rear direction and that opens at the front end wall. A terminal has a movable arm and a stationary arm that are disposed respectively on two sides of the insertion slot. The movable arm has a front barb-like contact portion proximate to the front end wall. The stationary arm is tapered forwardly, and has a front end distal from the front end wall, and an inclined contact face that is inclined rearwardly and gradually toward the insertion slot from its front end. The electrical connector has a miniaturized construction and reduces an insertion force for inserting a printed circuit board. | 12-01-2011 |
20130029515 | USB3.0 CONNECTOR AND METHOD OF MAKING THE SAME - A USB3.0 connector includes an insulative body, a plurality of first and second terminals, and an outer shell covering the insulative body. The insulative body includes a base that has a base upper wall, a base lower wall, and two base sidewalls. The base lower wall has a rear end notched in a frontward direction to form a plurality of alternating shallow and deep notches to position first and second legs of the first and second terminals, which are bent downwardly. The alternating shallow and deep notches space the first legs apart from the secondlegs, respectively. The number of component parts for assembly is therefore reduced. | 01-31-2013 |
20140245606 | USB3.0 CONNECTOR AND METHOD OF MAKING THE SAME - A USB3.0 connector includes an insulative body, a plurality of first and second terminals, and an outer shell covering the insulative body. The insulative body includes a base that has a base upper wall, a base lower wall, and two base sidewalls. The base lower wall has a rear end notched in a frontward direction to form a plurality of alternating shallow and deep notches to position first and second legs of the first and second terminals, which are bent downwardly. The alternating shallow and deep notches space the first legs apart from the second legs, respectively. The number of component parts for assembly is therefore reduced. | 09-04-2014 |