Patent application number | Description | Published |
20120018830 | Packaging device of image sensor - A packaging device of an image sensor includes a supporting seat and the image sensor. The supporting seat is a hollow frame having a predetermined thickness, a first surface, a second surface, and an inner edge receding from the second surface toward the first surface to form a recessed step. Plural contacts in the recessed step and in the outer periphery of the supporting seat are electrically connected by plural electrical connection structures. The image sensor has an active surface set on the recessed step by a flip-chip packaging technique. The image sensor also has plural conductive ends electrically connected to the contacts in the recessed step. An insulating material covers an inactive surface of the image sensor and fills the gap between the recessed step of the supporting seat and the image sensor to provide dust-proofness, shock resistance, and prevention against static electricity and leakage of light. | 01-26-2012 |
20120026611 | Electromagnetic lens driving device - An electromagnetic lens driving device includes a casing, a lens module, a positioning structure, and an electromagnetic driving module. The lens module is provided in a receiving space defined in the casing. The positioning structure, which is connected between the lens module and the casing, is configured to limit the lens module within the receiving space and generate a frictional force. The electromagnetic driving module is provided in the receiving space and corresponds in position to the lens module. When supplied with electricity, the electromagnetic driving module generates a magnetic force that drives the lens module to move along a central axis. Once the electricity is cut off, the lens module is fixed in position and prevented from moving freely by the frictional force of the positioning structure; hence, the electromagnetic lens driving features economical use of electricity. | 02-02-2012 |
20120128339 | ANTI-SHAKE DEVICE AND OPTICAL SYSTEM HAVING THE SAME - An anti-shake device for use in an optical system comprises a biaxial rotating element and a electromagnetic driving module. The biaxial rotating element is made by grooving a thin resilient plate to form a special multiple-frame structure. The biaxial rotating element, when driven by the electromagnetic driving module, makes limited pivotal movement about two axes so as to provide shake compensation. The electromagnetic driving module, composed of a plurality of permanent magnets and a plurality of coils, is supported and positioned by an inner support frame and an outer support frame, both of which have uniquely designed structures. The resultant anti-shake device is structurally simple, easy to assemble, compact in size, and relatively low-cost. | 05-24-2012 |
20120182436 | Anti-shake device for a lens module - An anti-shake device furnished between a lens module and an image sensor. An optical path is defined along the lens module and image sensor. The anti-shake device comprises a base plate, at least one piezoelectric member and a circuit member. The base plate is located in the optical path and has a surface facing the lens module, wherein a first axial direction and a second axial direction are defined on the surface. The piezoelectric member is located on the base plate and contacts with the lens module. The circuit member located on the base plate comprises a control module for controlling the piezoelectric member to drive the lens module moving alone the first and second axial directions in order to adjust the deviation caused by shaking. | 07-19-2012 |
20120218650 | Electromagnetic driving device - An electromagnetic driving device which is defined with an axis and comprises: a casing, a driven unit and an electromagnetic driving module. The casing has an inner compartment. The driven unit is received in the compartment and is guided by a guiding mechanism such that the driven unit is movable alone the axis inside the casing. The electromagnetic driving module comprises: a plurality of permanent magnets inside the casing, at least one magnetic member fixed to an outer surface of the driven unit, and a coil located between the magnetic member and permanent magnets. When no electric power is provided to the coil, the magnetic forcing between the permanent magnets and magnetic member will result in a friction force to the guiding mechanism, so as to keep the driven unit at its current position inside the compartment. | 08-30-2012 |
20130064535 | Tilt preventing structure for electromagnetic driving device - A tilt preventing structure for electromagnetic driving device comprises: a casing, a driven object (such as lens module), a guiding mechanism and an electromagnetic driving module. The driven object is received within the casing and is movable alone an axle direction. The guiding mechanism is furnished inside the casing and is sleeved with the driven object, so as to guide the driven object to move along the axle direction. The electromagnetic driving module comprises a plurality of magnetic elements mounted on the driven object. The guiding mechanism is made of magnetically susceptible material and is nearby one of the magnetic elements. By means of the magnetic pulling force generated by the nearby magnetic elements, the guiding mechanism is pulled by the force and leans against the driven object, so as to minimize the tilts when the driven object is moving relative to the guiding mechanism. | 03-14-2013 |
20130120855 | Piezoelectric driving module for lens - A piezoelectric driving module for lens, which defines a photographic optical axis and includes a housing, a driven object (e.g., a lens module), a piezo member, and a rubbing element. The piezo member and the rubbing element are provided in the housing and located on two lateral sides of the driven object respectively. The piezo member drives the driven object by friction so that the driven object can be moved along the photographic optical axis until focused. Meanwhile, a predetermined frictional force is generated between the rubbing element and the driven object to reduce a gravity-induced speed difference between forward and backward movements of the driven object along the photographic optical axis. | 05-16-2013 |
20140327965 | Tri-Axis Close Loop Feedback Controlling Module for Electromagnetic Lens Driving Device - The tri-axis close-loop feedback controlling module for electromagnetic lens driving device comprises a 6-pin Hall element. Two pins of the Hall element are coupled to an auto-focus module for providing a current to drive the auto-focus module to conduct auto-focusing operations along the Z-axis; while other four pins of the Hall element are coupled to a control unit. The control unit detects the X-Y axial positions of the auto-focus module relative to an OIS module and generates a control signal which is then sent to the Hall element. Therefore, the Hall element not only can provide its own feedback controlling function according to the Z-axial position of lens, but also can drive the auto-focus module based on the control signal corresponding to the X-Y axial positions of the auto-focus module, so as to achieve the goal of tri-axis close-loop feedback controlling for the electromagnetic lens driving device. | 11-06-2014 |
20150331251 | TRI-AXIS CLOSED-LOOP ANTI-SHAKE STRUCTURE - Provided is a lens driving device which includes: a lens holder including a coil; a frame for receiving the lens holder; a driving circuit board disposed below the frame; a plurality of first conductive elastic bodies disposed in a manner to keep the lens holder moving in a Z-axis direction; and a plurality of second conductive elastic bodies disposed in a manner to keep the frame moving in a direction perpendicular to the Z-axis direction. The lens driving device further comprises a plurality of electrical contact-oriented Z-axis position sensor. The Z-axis position sensor senses the motion of the lens holder in the Z-axis direction. An electronic circuit between a portion of the plurality of electrical contacts and the coil of the lens holder comprises a Molded Interconnect Device and a portion of the first conductive elastic bodies. The Molded Interconnect Device is disposed on the frame. | 11-19-2015 |
Patent application number | Description | Published |
20140144323 | Silica-like Membrane for Separating Gas and the method for forming the same - The present invention discloses a silica-like membrane for separating gas, which is modified from poly(dimethylsiloxane) (PDMS) membrane by an atmospheric pressure high temperature plasma torch (APHTPT). Furthermore, the present invention of the separating gas silica-like membrane with an inorganic/organic interface structure which has both the gas flux of the organic membrane and also the gas selectivity of the inorganic membrane. | 05-29-2014 |
20150118468 | Semicrystalline Polymer/ Graphene oxide composite Film And Method For Fabricating The Same - The present invention discloses a semicrystalline polymer/graphene oxide composite film, comprising: a first semicrystalline-typed polymer, distributed in structural space of the composite film and having a porous structure; and graphene oxide, having a layered structure and distributed in the composite film wherein gas passage exist between adjacent layered structures, the first semicrystalline-typed polymer existing between part of adjacent layered structures forms into a second semicrystalline-typed polymer by further heat treatment after the first semicrystalline-typed polymer and graphene oxide are blended uniformly to be distributed in the composite film so as to fill and seal a portion of the porous structure to block gas from flowing to extend path length(s) of gas passage; wherein graphene oxide existing between the first semicrystalline-typed polymers induces formation of the second semicrystalline-typed polymer. | 04-30-2015 |
20150132504 | Method for Fabricating Carbon Molecular Sieve Membrane - This invention is about a method for fabricating carbon molecular sieve membrane. The above method comprises a step of deposition, and a step of carbonization to obtain a high performance and high selectivity carbon molecular sieve membrane. According to this invention, an ultra-thin and defects free carbon molecular sieve membrane can be obtained. More preferably, the method for fabricating carbon molecular sieve membrane of this invention is easy operating, economic, and environmental friendly. | 05-14-2015 |
20160046523 | Moisture Barrier Composite Film And Its Preparation Method - The invention provides a moisture barrier composite film, formed by having a mixture of thermally reduced graphene and cyclic olefin copolymer be formed into a film and forming a hydrophilic surface layer on surfaces of the moisture barrier composite film by a hydrophilic agent; wherein a ratio of carbon atoms to oxygen atoms in thermally reduced graphene is more than 30 and the hydrophilic surface layer has a density of 0.01˜1.0 mg/cm | 02-18-2016 |
20160046773 | Transparent Gas Barrier Composite Film And Its Preparation Method - The invention provides a transparent gas barrier composite film and its preparation method. The transparent gas barrier composite film is formed by having polyvinyl alcohol, graphene oxide and a crosslinking agent undergo blending, crosslinking, film casting and isothermal crystallization processes where a weight ratio of graphene oxide to polyvinyl alcohol is 0.1 wt %, graphene oxide induces crystallization of polyvinyl alcohol to form a hybrid structure compose of polyvinyl alcohol crystals, graphene oxide and the crosslinking agent, crystallinity of polyvinyl alcohol is more than 30%, transmittance of the composite film is more than 85%, and the oxygen transmission rate of the composite film is less than 0.005 cc/m | 02-18-2016 |
20160090500 | Method for fabricating a semicrystalline polymer / graphene oxide composite film - The present invention discloses a semicrystalline polymer/graphene oxide composite film, comprising: a first semicrystalline-typed polymer, distributed in structural space of the composite film and having a porous structure; and graphene oxide, having a layered structure and distributed in the composite film wherein gas passage exist between adjacent layered structures, the first semicrystalline-typed polymer existing between part of adjacent layered structures forms into a second semicrystalline-typed polymer by further heat treatment after the first semicrystalline-typed polymer and graphene oxide are blended uniformly to be distributed in the composite film so as to fill and seal a portion of the porous structure to block gas from flowing to extend path length(s) of gas passage; wherein graphene oxide existing between the first semicrystalline-typed polymers induces formation of the second semicrystalline-typed polymer. | 03-31-2016 |
Patent application number | Description | Published |
20100091230 | LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A liquid crystal display (LCD) panel and a manufacturing method thereof are provided. The manufacturing method includes providing a panel including a first substrate having scan lines, data lines, an active device electrically connecting the scan and data lines, and a pixel electrode electrically connecting the active device, a second substrate having an opposite electrode, and a liquid crystal (LC) layer disposed between the first and the second substrates and having a monomer material. A first curing voltage and a second curing voltage are applied to the scan and data lines, respectively. The second curing voltage is thus transmitted to the pixel electrode. The first curing voltage is higher than an absolute value of the second curing voltage. The monomer material is polymerized to form a first polymer stabilized alignment (PSA) layer between the LC layer and the first substrate and a second PSA layer between the LC layer and the second substrate. The electrical field is then removed. | 04-15-2010 |
20100201927 | DISPLAY PANEL, ELECTRO-OPTICAL APPARATUS, AND METHODS FOR MANUFACTURING THE SAME - A display panel includes a first substrate, a second substrate, signal lines, sub-pixels, and at least one thickness adjusting layer. The second substrate is disposed above the first substrate and has a transparent electrode layer thereon. The signal lines are disposed on the first substrate. The sub-pixels are arranged between the first and second substrates. The sub-pixels are electrically connected with the signal lines, and parts of them have at least one transparent area and at least one reflective area. The transparent area has a transparent electrode therein, and the reflective area has a reflective electrode therein, respectively. The thickness adjusting layer is disposed above the reflective electrode and located at the reflective area of the part of the sub-pixels. | 08-12-2010 |
20100315566 | THREE-DIMENSIONAL DISPLAY AND THREE DIMENSIONAL DISPLAY SYSTEM - A three-dimensional display including a display and a micro-lens is provided. The display has a plurality of pixel units thereon, and each pixel unit has a pixel pitch i. The micro-lens is disposed at a side of the display, the micro-lens has a plurality of lens units thereon, and each lens unit has a lens pitch l. A right eye viewing zone and a left eye viewing zone are formed if an image displayed from the display passes though the micro-lens, wherein a distance between the center of the right eye viewing zone and the center of the left eye viewing zone is w | 12-16-2010 |
20130010220 | LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A liquid crystal display panel including a first substrate, a second substrate, a liquid crystal layer, a scan line, a data line intersects the scan line, an active device, a pixel electrode, an insulating layer covering the pixel electrode, an auxiliary electrode, a shielding electrode, and a first polymer stabilized alignment (PSA) layer is provided. | 01-10-2013 |
20130215365 | DISPLAY APPARATUS AND DISPLAY METHOD - A display apparatus switchable between a first mode and a second mode is provided. The display apparatus includes a transparent light emitting layer, a light modification layer and a first polarization layer. The transparent light emitting layer is configured to display image in the first mode and be disabled in the second mode. The light modification layer is disposed under the transparent light emitting layer. The first polarization layer between the transparent light emitting layer and the light modification layer is configured to polarize an incident light which transmits through the transparent light emitting layer. When the display apparatus is operated in the first mode, the light modification layer is configured to absorb the incident light, and when the display apparatus is operated in the second mode, the light modification layer is configured to reflect the incident light. Another display apparatus and a display method are also provided. | 08-22-2013 |
20130300717 | TOUCH DISPLAY DEVICE - A touch display device including a display module and a touch module is provided. The touch module is disposed above the display module and includes a transparent cover, a touch electrode layer and a phase retardation protection layer. The display module is configured to provide an image light. The touch-sensing layer is disposed on the transparent cover and between the display module and the transparent cover. The phase retardation protection layer covers the touch-sensing layer. A polarization direction of the image light provided by the display module is changed after passing through the phase retardation protection layer. A touch display device including a phase retardation planarization layer is also provided. | 11-14-2013 |
20140092625 | DISPLAY MODULE AND HANDHELD ELECTRONIC DEVICE - A display module is provided. The display module includes a frame, a light guide plate, a light source device, a display panel and an optical film. The light guide plate is accommodated within the frame. The light guide plate has a recess. The light source device is disposed between the frame and the light guide plate. The display panel is disposed on the recess and attached to the light guide plate to seal the recess. The optical film is located within the recess. A handheld electronic device having said display module is also provided. | 04-03-2014 |
20140104185 | TOUCH DISPLAY DEVICE AND HANDHELD ELECTRONIC DEVICE - A touch display device includes a display panel and a touch panel. The touch panel includes a first flexible substrate and a sensing circuit. The first flexible substrate includes a body disposed on the display panel and an extension portion located outside the display panel, in which the extension portion is connected to the body and adapted to bend relatively to the body. The sensing circuit includes a plurality of first connection lines disposed on the first flexible substrate. In addition, the disclosure also discloses a handheld electronic device with the above-mentioned touch display device. | 04-17-2014 |
20140111910 | HANDHELD ELECTRONIC DEVICE AND METHOD FOR ASSEMBLING DISPLAY PANEL THEREOF - A handheld electronic device includes a body, a transparent cover, and a display panel. The body has a display opening. The transparent cover is disposed on the display opening. The transparent cover includes a first surface facing outside of the body and a second surface opposite to the first surface, and the second surface includes a curved surface. A curvature radius of the first surface is different from a curvature radius of the second surface. The display panel bends along the second surface and is attached to the second surface. Moreover, a method for assembling the display panel of the handheld electronic device is provided. | 04-24-2014 |
20140160099 | DISPLAY METHOD FOR SUNLIGHT READABLE AND ELECTRONIC DEVICE USING THE SAME - A display method for sunlight readable is provided, which is applicable to an electronic device having a display panel. The display method includes the following steps. An ambient light sensor value and image content are obtained. Next, a liquid crystal (LC) driving voltage is altered based on the ambient light sensor value and the image content, wherein the LC driving voltage is increasingly proportional to the ambient light sensor value and exceeds a normal operation driving voltage when the ambient light sensor value exceeds a high luminance value. Then, the display panel is drived under the LC driving voltage. Finally, a sunlight readable image is displayed on the display panel. | 06-12-2014 |
20140168947 | DISPLAY MODULE AND ELECTRONIC DEVICE - A display module includes a display panel, a first polarized plate, a second polarized plate, a backlight module, a frame and an adhesive tape. The display panel has a first surface and a second surface opposite to the first surface. The first polarized plate is disposed on the first surface, in which the first end of the first polarized plate extends beyond the display panel. The second polarized plate is disposed on the second surface. The backlight module is disposed under the second polarized plate. The frame surrounds the display panel and carries the backlight module. The adhesive tape is adhered to the first end of the first polarized plate and a side surface of the frame. In addition, an electronic device with the above-mentioned display module is also disclosed. | 06-19-2014 |
20140174902 | TOUCH PANEL - A touch panel including a substrate, a plurality of first electrode lines, and a plurality of second electrode lines is provided. The first electrode lines are arranged on the substrate in parallel and extended along a first axial direction. Each first electrode line includes multiple first electrode pads and multiple first bridge portions serially connecting the first electrode pads. Each first electrode pad includes a first central portion and two first side portions connected to the first central portion. The second electrode lines are arranged on the substrate in parallel and extended along a second axial direction perpendicular to the first axial direction. Each second electrode line includes multiple second electrode pads alternatively disposed with the first electrode lines and multiple second bridge portions serially connecting the second electrode pads. Each second electrode pad includes a second central portion and two second side portions connected to the second central portion. | 06-26-2014 |
20140239801 | DISPLAY MODULE AND FABRICATING METHOD THEREOF - A display module and a fabricating method of the display module are provided. The display module includes a transparent cover, a first protection film, and an organic light-emitting display (OLED) device. The OLED device is disposed between the transparent cover and the first protection film. An area of the OLED device is smaller than an area of the transparent cover and an area of the first protection film. | 08-28-2014 |
20140293143 | TOUCH PANEL AND ELECTRONIC DEVICE - A touch panel and an electronic device are provided. The electronic device includes a body, a display panel and a touch panel. The display panel is disposed between the body and the touch panel, and the touch panel is adhered to the display panel. The touch panel includes a first substrate, an insulating layer and a touch sensing layer. The insulating layer and the touch sensing layer are disposed on the first substrate. The touch panel having the insulating layer has a waterproof function, and is capable of replacing a waterproof film probably required in the electronic device, so as to decrease a whole thickness of the electronic device. | 10-02-2014 |
20140332830 | LIGHT SOURCE MODULE AND ELECTRONIC DEVICE - A light source module and an electronic device are provided. The light source module includes a light guiding plate, at least one light-emitting element and a quantum dot element. The light guiding plate has a light incident surface and a light emitting surface. The at least one light-emitting element is disposed on the light incident surface to provide a first light beam, and includes yttrium aluminum garnet (YAG). The quantum dot element is disposed on the light emitting surface of the light guiding plate, and is configured to transfer part of the first light into a first monochromatic light. White light can be obtained by mixing by the first light and the first monochromatic light. | 11-13-2014 |
20150015769 | HANDHELD ELECTRONIC APPARATUS AND IMAGE CAPTURING APPARATUS AND FOCUSING METHOD THEREOF - A handheld electronic apparatus, an image capturing apparatus and focusing method thereof are provided. The image capturing apparatus includes a main image capturer, an auxiliary image capturer and a controller. The main image capturer performs an image capturing operation on a target object according to a detection focusing distance. The auxiliary image capturer is disposed adjacent to the main image capturer. The auxiliary image capturer performs a plurality of focusing operations on the target object according to a plurality of focusing distances, and generates a plurality of image contrast values. The controller controls the main image capturer and the auxiliary image capturer. The controller selects one of the focusing distances to be the detection focusing distance according to the image contrast values. | 01-15-2015 |
20150015800 | TOUCH PANEL - A touch panel is provided, including a substrate, a touch sensing array, a first electrostatic protection circuit, a first insulating layer and a plurality of first connecting lines. The substrate has an active region and a peripheral region surrounding the active region. The touch sensing array is disposed on the substrate and located in the active region. The first electrostatic protection circuit is disposed on the substrate and located in the peripheral region. The first insulating layer is disposed on the substrate and located in the peripheral region, wherein the first insulating layer covers the first electrostatic protection circuit. The plurality of first connecting lines is disposed on the first insulating layer and coupled to the touch sensing array respectively. | 01-15-2015 |
20150022716 | IMAGE PROCESSING DEVICE AND METHOD FOR CONTROLLING THE SAME - An image processing apparatus includes a camera module, first and second pixel extraction interfaces, an image processing module, and a focus controller. The camera module includes a lens, a sensor aligned with the lens along a direction, and a focus actuator connected to the lens. The first and the second pixel extraction interfaces are connected to the sensor to acquire a first image at a first frame rate and a second image at a second frame rate, respectively; the second frame rate is greater than the first frame rate. The image processing module determines depth information according to the second image, receives the first image and outputs a corresponding image file. The focus controller is connected between the image processing module and the focus actuator to drive the focus actuator according to the depth information and to adjust a relative distance between the sensor and the lens. | 01-22-2015 |
20150022728 | TOUCH PANEL - A touch panel including a substrate, a touch sensing array, connecting lines, extending portions, a first electrostatic discharge protection circuit, and a second electrostatic discharge protection circuit is provided. The substrate has an active region and a periphery region. The touch sensing array is disposed in the active region. The connecting lines and extending portions are disposed in the periphery region. An end of each of the connecting lines is respectively connected to the touch sensing array by the corresponding extending portion. The first electrostatic discharge protection circuit is disposed in the periphery region and located between the outermost connecting line and the edge of the corresponding substrate. The second electrostatic discharge protection circuit is disposed in the periphery region and located between the innermost connecting line and the touch sensing array. The second electrostatic discharge protection circuit overlaps with the extending portions on the substrate. | 01-22-2015 |
20150062185 | ELECTRONIC APPARATUS AND METHOD FOR CONTROLLING BRIGHTNESS FOR A DISPLAY - An electronic apparatus including a display, a light sensor and a controller is provided. The display displays an image. The light sensor measures the ambient brightness received by the display. The controller is coupled to the display and the light sensor. The hardware brightness range of the display is divided into a plurality of segments, wherein the first segment includes the hardware lowest brightness of the display and the last segment includes the hardware highest brightness of the display. The controller limits the display brightness of the display to one of the segments according to the ambient brightness. The controller allows the user of the electronic apparatus to set the display brightness only when the display brightness is limited to the first segment. | 03-05-2015 |
20150309596 | STYLUS AND ELECTRONIC DEVICE - A stylus and an electronic device are provided, wherein the electronic device includes a body and a stylus. The body has a capacitive touch panel. The stylus includes a handle, a head, an elastic member and an electret. The handle has a main body and a chamber disposed within the main body. The main body has a holding portion and a first end. The holding portion is electrically connected with the first end. The head is assembled to the first end so as to be capable of sliding into the chamber, and the head is a rigid body. The elastic member is disposed in the chamber and located between chamber walls of the chamber and the head. The electret is assembled to the head and located within the chamber. | 10-29-2015 |
20160006290 | Near Field Communication and Wireless Charging Device and Switching Method Using The Same - A near field communication and wireless charging device includes a coil, a tuning module, a near field communication module, a wireless charging module, and a power storage device. The coil is configured to receive electromagnetic waves. The tuning module is electrically connected to the coil. The near field communication module includes an attenuator and a near field communication control circuit. The attenuator is configured to attenuate the energy of electromagnetic waves transmitted from the tuning module. The near field communication control circuit is electrically connected to the attenuator. The power storage device is electrically connected to the wireless charging module. Electromagnetic waves are magnetically coupling to the coil, and the coil transmits signals of the electromagnetic waves to the near field communication module through the tuning module, or transmits the energy of the electromagnetic waves to the power storage device through the tuning module and the wireless charging module. | 01-07-2016 |
Patent application number | Description | Published |
20110298348 | HANDHELD DEVICE HAVING LINKAGE SUPPORTER - A linkage mechanism is configured between two relatively slidable first housing and second housing of a handheld device. The linkage mechanism can be actuated by a first actuator of the first housing when the second housing slides out at an opening status relative to the first housing. The linkage mechanism is actuated to rotate and then to drive a second actuator to slide on the second housing and the second actuator forces a supporter, which pivots to the second housing, to open at a predetermined angle relative to the second housing. The handheld device is made steady on a plane through the support provided by the opened supporter. When the handheld device slides in at a closing status, a restoring spring configured between the supporter and the second housing automatically folds the supporter. | 12-08-2011 |
20120034506 | REVERSE USE BATTERY PACK DESIGN - A battery pack of a handheld device has two coupling sections configured at a side surface in the face of a battery slot of the handheld device, where the coupling sections correspond to a coupling structure of the battery slot. As the battery pack is installed in the battery slot, the coupling sections engage with the coupling structure respectively for keeping the battery pack from detaching out of the battery slot. The battery pack may also have an upturned position to be installed in a second type of battery slot of another handheld device, where the coupling sections also correspond to and engage with a coupling structure of the second battery slot and keep the battery pack from detaching out of the second battery slot. | 02-09-2012 |
20130229362 | TOUCH PANEL STRUCTURE AND TOUCH DISPLAY PANEL STRUCTURE HAVING ANTENNA PATTERN AND RELATED COMMUNICATIONS DEVICE HAVING SUCH TOUCH PANEL STRUCTURE - For a communication device having a touch module or a touch display module, a near field communicable NFC antenna pattern is disposed on a component above a touch sensor unit of the touch module or the touch display module, which places the NFC antenna pattern away from the shielding easily generated from the metallic frame or metallic housing of the communication device. The NFC antenna pattern may be printed on a bottom side, a top side, or in the interior of a cover lens of the touch module or the touch display module, or on a surface of a deco film outside the cover lens. A ferrite sheet may also be disposed between the NFC antenna pattern and the touch sensor unit for further preventing electromagnetic interference from the touch sensor unit or other internal components. | 09-05-2013 |
20130271384 | TOUCH PANEL AND HANDHELD ELECTRONIC DEVICE - A touch panel including a first transparent flexible substrate, a plurality of first connection lines, a plurality of second connection lines, a first sensing layer, and a second sensing layer is provided. The first transparent flexible substrate has a first side and a second side and includes a first carrying portion and a first leading portion. The first connection lines and the second connection lines are respectively disposed at the first side and the second side and are extended from the first carrying portion to the first leading portion. The first sensing layer and the second sensing layer have plural transparent electrode patterns and are respectively disposed at the first side and the second side of the first carrying portion. The transparent electrode patterns are respectively connected with the first connection lines and the second connection lines. A handheld electronic device with a touch input function is also provided. | 10-17-2013 |
20130271896 | DISPLAY UNIT, ELECTRONIC DEVICE AND ASSEMBLING METHOD FOR ELECTRONIC DEVICE - A display unit and an electronic device and an assembling method are provided, wherein the electronic device includes a case and a display unit. The case includes a holding compartment. The display unit is accommodated in the holding compartment, and includes a display module, a transparent cover layer and a transparent adhesive tape. The transparent adhesive tape is configured between the display module and the transparent adhesive tape, and the transparent adhesive tape is adhered to the transparent cover layer. The transparent adhesive tape includes a flange portion extending beyond the display module, and the flange portion can be bent to secure the display unit to the case. | 10-17-2013 |
20130279089 | COVER, ELECTRONIC DEVICE AND MANUFACTURING METHOD FOR COVER - A cover, an electronic device and a method for manufacturing the cover are provided. The electronic device includes a body and a cover. The cover is disposed on the body, and includes a substrate, an adhesive layer and a color layer. The substrate has a thinning region. The color layer is disposed in the thinning region and is located between the substrate and the adhesive layer. | 10-24-2013 |
20140306585 | MOLDED CASING, MOLD ASSEMBLY AND FORMING METHOD - A molded casing suitable for a handheld electronic device is provided. The handheld electronic device includes a body and the molded casing, and at least one part of the body is covered with the molded casing. The molded casing is in a uniform thickness and has a continuous mosaic surface. The mosaic surface is composed of a plurality of non-coplanar polygons, wherein an intersection line is formed between any two adjacent polygons. An end of any one of the intersection lines is connected to an end of another intersection line or an edge of the mosaic surface, and an equivalence radius of a vertex angle at each intersection line is less than or equal to 0.1 millimeter. A mold assembly and a forming method for fabricating the molded case are also provided. | 10-16-2014 |
20150064528 | BATTERY STRUCTURE, ELECTRONIC DEVICE AND MANUFACTURING METHOD OF BATTERY STRUCTURE - A battery structure including a first battery unit, a second battery unit, a separation membrane and a packing is provided. The first and the second battery units respectively include at least one anode, at least one cathode and a dielectric layer located between the at least one anode and the at least one cathode close to each other. The at least one anode and the at least one cathode are alternately stacked with each other. The second battery unit is stacked on the first battery unit. A dimension of the first battery unit is smaller than that of the second battery unit. The separation membrane is disposed between the first and the second battery units. The packing covers the first and the second battery units and the separation membrane. An electronic device including the battery structure, and a manufacturing method of the battery structure, are further provided. | 03-05-2015 |
20150228944 | FIXING TUBE AND ELECTRONIC APPARATUS - A fixing tube suitable for accommodating a battery and fixing the battery in a body of an electronic apparatus. The fixing tube includes a tube body. The tube body has an accommodating space, and the tube body is made of a breakable material. The battery is suitable for being accommodated in the accommodating space, and the tube body is suitable for being adhered to the body, so as to fix the battery in the body. An electronic apparatus including the fixing tube is also provided. | 08-13-2015 |
20150364862 | CONDUCTIVE STRUCTURE AND ELECTRONIC ASSEMBLY - A conductive structure, including a holder, a first magnetic element, and a conductive terminal, is provided. The holder has a receiving space. The first magnetic element is disposed in the holder. The conductive terminal is disposed in the receiving space corresponding to the first magnetic element. The conductive terminal is attracted to the first magnetic element and is hidden in the receiving space of the holder. When the conductive terminal is moved close to a conductive contact provided with a second magnetic element, the conductive terminal is attracted to the second magnetic element and moves from the receiving space to be in contact with and electrically connected with the conductive contact. An electronic assembly, including a housing and the conductive structure, is also provided. | 12-17-2015 |
Patent application number | Description | Published |
20120161148 | NITRIDE SEMICONDUCTOR SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - A nitride semiconductor substrate and a method for manufacturing the same are provided. The nitride semiconductor substrate includes a base material, a patterned nitride semiconductor, a protection layer, and a nitride semiconductor layer. The patterned nitride semiconductor layer is located on the base material and includes a plurality of nanorod structures and a plurality of block patterns, and an upper surface of the nanorod structures is substantially coplanar with an upper surface of the block patterns. The protection layer covers a side wall of the nanorod structure sand a side wall of the block patterns. The nitride semiconductor layer is located on the patterned nitride semiconductor layer, and a plurality of nanopores are located between the nitride semiconductor layer and the patterned nitride semiconductor layer. | 06-28-2012 |
20140054593 | NITRIDE SEMICONDUCTOR STRUCTURE - A nitride semiconductor structure is provided. The nitride semiconductor structure at least includes a silicon substrate, a AlN layer, a AlGaN layer and a GaN layer formed on the AlGaN layer. The silicon substrate has a surface tilted at 002-27-2014 | |
20140097442 | NITRIDE SEMICONDUCTOR DEVICE - A nitride semiconductor device includes a silicon substrate, a nucleation layer, a first buffer layer, a first type nitride semiconductor layer, a light-emitting layer and a second type nitride semiconductor layer is provided. The nucleation layer is disposed on the silicon substrate. The first buffer layer is disposed on the nucleation layer. The first buffer layer includes a dopant and Gallium, and an atomic radius of the dopant is larger than an atomic radius of Gallium. The first type nitride semiconductor layer is disposed over the first buffer layer. The light-emitting layer is disposed on the first type nitride semiconductor layer. The second type nitride semiconductor layer is disposed on the light-emitting layer. | 04-10-2014 |
20140097443 | NITRIDE SEMICONDUCTOR DEVICE - A nitride semiconductor device includes a silicon substrate, a nucleation layer, a buffer layer, a first type nitride semiconductor stacked layer, a light-emitting layer and a second type nitride semiconductor layer. The nucleation layer is disposed on the silicon substrate. The buffer layer is disposed on the nucleation layer. The first type nitride semiconductor stacked layer is disposed on the buffer layer. The first type nitride semiconductor stacked layer being a plurality of lattice mismatch stacked layers includes a plurality of first nitride semiconductor layers and a plurality of second nitride semiconductor layers. The first nitride semiconductor layers and the second nitride semiconductor layers are stacked alternately, and the first nitride semiconductor layers and the second nitride semiconductor layers are different material. The light-emitting layer is disposed on the first type nitride semiconductor stacked layer. The second type nitride semiconductor layer is disposed on the light-emitting layer. | 04-10-2014 |
20140097444 | NITRIDE SEMICONDUCTOR DEVICE - A nitride semiconductor device includes a silicon substrate, a nucleation layer, a buffer layer, a first type nitride semiconductor layer, a light-emitting layer and a second type nitride semiconductor layer is provided. The nucleation layer is disposed on the silicon substrate. The buffer layer is disposed on the nucleation layer. The first type nitride semiconductor layer is disposed on the buffer layer. The first type nitride semiconductor layer is doped with a first type dopant, at least one of the buffer layer and the first type nitride semiconductor layer comprises a codopant distributed therein, and an atomic radius of the codopant is larger than an atomic radius of the first type dopant. The light-emitting layer is disposed on the first type nitride semiconductor layer. The second type nitride semiconductor layer is disposed on the light-emitting layer, the second type nitride semiconductor layer comprising a second type dopant. | 04-10-2014 |
20140103354 | NITRIDE SEMICONDUCTOR STRUCTURE - A nitride semiconductor structure including a silicon substrate, a nucleation layer, a buffer layer and a nitride semiconductor layer is provided. The nucleation layer disposed on the silicon substrate includes a cubic silicon carbon nitride (SiCN) layer. The buffer layer is disposed on the nucleation layer. The nitride semiconductor layer is disposed on the buffer layer. | 04-17-2014 |
20140124833 | NITRIDE SEMICONDUCTOR STRUCTURE - A nitride semiconductor structure including a silicon substrate, a nucleation layer, a discontinuous defect blocking layer, a buffer layer and a nitride semiconductor layer is provided. The nucleation layer disposed on the silicon substrate, wherein the nucleation layer has a defect density d | 05-08-2014 |
20150083990 | LIGHT EMITTING DIODE - A light emitting diode including a substrate, a p-type and n-type semiconductor layers, an active layer, a first and second electrodes is provided. The active layer is located between the n-type and p-type semiconductor layers, and includes i quantum wells and (i+1) quantum barrier layers, each quantum well is located between any two of the quantum barrier layers, each of k quantum wells among the i quantum wells is constituted of a light emitting layer and an auxiliary layer, in which an indium concentration of the auxiliary layer is greater than an indium concentration of the light emitting layer, where i and k are natural numbers greater than or equal to 1 and k≦i. The first electrode and second electrodes are located on the n-type semiconductor layer and the p-type semiconductor layer, respectively. | 03-26-2015 |
20150187876 | NITRIDE SEMICONDUCTOR STRUCTURE - A nitride semiconductor structure including a silicon substrate, a nucleation layer, a buffer layer and a nitride semiconductor layer is provided. The nucleation layer is disposed on the silicon substrate. The buffer layer is disposed on the nucleation layer, in which the buffer layer includes n sub-buffer layers where n≧2, and each of the sub-buffer layers has island structures. The nitride semiconductor layer is disposed on the buffer layer. | 07-02-2015 |
Patent application number | Description | Published |
20140117442 | SEMICONDUCTOR STRUCTURE - A semiconductor structure includes multiple buried gates which are disposed in a substrate and have a first source and a second source, an interlayer dielectric layer covering the multiple buried gates and the substrate as well as a core dual damascene plug including a first plug, a second plug and an insulating slot. The insulating slot is disposed between the first plug and the second plug so that the first plug and the second plug are mutually electrically insulated. The first plug and the second plug respectively penetrate the interlayer dielectric layer and are respectively electrically connected to the first source and the second source. | 05-01-2014 |
20140220762 | METHOD OF MANUFACTURING ISOLATION STRUCTURE - A method of manufacturing an isolation structure includes forming a laminate structure on a substrate. A plurality trenches is formed in the laminate structure. Subsequently a pre-processing is effected to form a hydrophilic thin film having oxygen ions on the inner wall of the trenches. Spin-on-dielectric (SOD) materials are filled into the trenches. The hydrophilic think film having oxygen ions changes the surface tension of the inner wall of the trenches and increases SOD material fluidity. | 08-07-2014 |
20140252550 | STACK CAPACITOR STRUCTURE AND MANUFACTURING METHOD THEREOF - The present invention provides a stack capacitor structure and a manufacturing method thereof, adapted for a random access memory. The stack capacitor structure is formed on a semiconductor substrate. The stack capacitor structure includes an oxide layer and a circular-shaped stopping layer. The oxide layer is disposed on the semiconductor substrate. The oxide layer has a capacitor trench therein. The circular-shaped stopping layer surrounds an edge of an opening of the capacitor trench. The disclosed stack capacitor structure and the manufacturing method thereof may thereby prevent the occurrence of the stack capacitor structure from having CD variation and belly region causing cell to cell leakage as result of manufacturing process limitation. | 09-11-2014 |
20140291729 | MEMORY UNIT, MEMORY UNIT ARRAY AND METHOD OF MANUFACTURING THE SAME - A memory unit includes a substrate, at least one charge storage element, at least one first recessed access element, and an isolation portion. The substrate has a surface and the first recessed access element is disposed in an active area of the substrate and extending from the surface into the substrate. The first recessed access element is electrically connected to the charge storage element and induces in the substrate a first depletion region. The isolation portion is adjacent to the active area and extending from the surface into the substrate. The isolation portion includes a trenched isolating barrier and a second recessed access element. The second recessed access element is disposed in the trenched isolating barrier and induces in the substrate a second depletion region merging with the first depletion region. | 10-02-2014 |
20140291738 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREFOR - A semiconductor electronic device structure includes an active area array disposed in a substrate, an isolation structure, a plurality of recessed gate structures, a plurality of word lines, and a plurality of bit lines. The active area array a plurality of active area columns and a plurality of active area rows, defining an array of active areas. The substrate has two recesses formed at the central region thereof. Each recessed gate structure is respectively disposed in the recess. A protruding structure is formed on the substrate in each recess. A STI structure of the isolation structure is arranged between each pair of adjacent active area rows. Word lines are disposed in the substrate, each electrically connecting the gate structures there-under. Bit lines are disposed above the active areas, forming a crossing pattern with the word lines. | 10-02-2014 |
20140291754 | SEMICONDUCTOR STRUCTURE HAVING BURIED WORD LINE AND METHOD OF MANUFACTURING THE SAME - A semiconductor structure having buried word line formed in a trench in a semiconductor substrate includes a gate oxide layer, a gate conductor, a gate cap layer, a blocking layer, and an isolation structure. The gate oxide layer is formed on the inner surface of the trench, the gate conductor is formed in the trench, and the gate cap layer is formed on the gate conductor. The blocking layer surrounds a bottom portion of the gate conductor, and the bottom portion of the gate conductor is isolated from the gate oxide layer by the blocking layer. The isolation structure surrounds a top portion of the gate conductor and in contact with the top end of the blocking layer. The top portion of the gate conductor is isolated from the gate oxide layer and the from the gate cap layer by the isolation structure. | 10-02-2014 |
20140308807 | METHOD FOR FABRICATING A SEMICONDUCTOR MEMORY - A method for fabricating a semiconductor memory includes the following steps. Active areas are defined in a substrate. An oxide layer is then formed on the active areas. The oxide layer is subjected to a surface treatment. A first polysilicon layer, a buffer layer and a hard mask are deposited. Recessed access devices are formed in an array region of the substrate. After the recessed access devices are formed, the hard mask and the buffer layer are removed to thereby form transistors in a peripheral region. A second polysilicon layer is deposited on the first polysilicon layer. The first and second polysilicon layers are then etched into a gate structure. | 10-16-2014 |
20150206883 | MANUFACTURING METHOD OF CAPACITOR STRUCTURE AND SEMICONDUCTOR DEVICE USING THE SAME - The instant disclosure relates to a semiconductor device which includes a semiconductor substrate, at least one patterned reinforcing layer, a plurality of lower electrodes, and a supporting layer. The at least one patterned reinforcing layer is arranged above the semiconductor substrate, wherein the at least one patterned reinforcing layer has a plurality of reinforcing structures configured to define a plurality of alignment apertures. The lower electrodes are arranged on the semiconductor substrate, wherein N of the lower electrodes pass through each of the alignment apertures, where N is an integer greater than or equal to 1. The supporting layer is arranged above the at least one patterned reinforcing layer and between the lower electrodes. | 07-23-2015 |
20150243597 | SEMICONDUCTOR DEVICE CAPABLE OF SUPPRESSING WARPING - A semiconductor device includes a substrate having a front side and a rear side, a plurality of dielectric layers on the front side, a plurality of interconnection circuit structures in the dielectric layers, and at least one backside passivation layer on the rear side. The backside passivation layer and the top passivation layer are made of the same material and have substantially the same thickness. | 08-27-2015 |
20150294972 | SEMICONDUCTOR DEVICE - The instant disclosure relates to a semiconductor device includes a semiconductor substrate, a plurality of buried bit lines, a plurality of insulating structures, and a plurality of self-aligned spacers. The semiconductor substrate has a plurality of active areas defined thereon. The buried bit lines are disposed in the semiconductor substrate, wherein two of the buried bit lines are positioned in each of the active areas. The insulating structures are disposed on the semiconductor substrate, wherein each of the insulating structures is positioned on and opposite to the two of the buried bit lines. The self-aligned spacers are disposed on the sidewalls of the insulating structures respectively to partially expose the surface of the semiconductor substrate. | 10-15-2015 |
20150348871 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes a substrate having a first side and a second side opposite to the first side; a through substrate via (TSV) structure protruding from a surface of the substrate on the second side; a block layer conformally covering the surface of the substrate and the TSV structure; a first dielectric layer covering the block layer except for a portion of the block layer that is directly on the TSV structure; a second dielectric layer on the first dielectric layer; and a damascened circuit pattern in the second dielectric layer. The second dielectric layer is in direct contact with the first dielectric layer. The damascened circuit pattern is in direct contact with the TSV structure. | 12-03-2015 |
20160104782 | TRANSISTOR STRUCTURE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a transistor structure includes a step of implanting a light dosage into a substrate at a bit line junction and two cell side junctions, and a step of implanting a light dosage into the bit line junction an additional time. A uniform region having a substantially uniform dopant concentration is formed at the bit line junction. The dopant concentration of the uniform region is higher than that of the cell side junctions and higher than that of the region of the bit line junction under the uniform region. | 04-14-2016 |