Patent application number | Description | Published |
20130134425 | ARRAY SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of an array substrate includes the following steps. A gate electrode and a gate insulator layer are successively formed on a substrate. A semiconductor layer, an etching stop layer, a hard mask layer, and a second patterned photoresist are successively formed on the gate insulator layer. The second patterned photoresist is employed for performing an over etching process to the hard mask layer to form a patterned hard mask layer. The second patterned photoresist is employed for performing a first etching process to the etching stop layer. The second patterned photoresist is then employed for performing a second etching process to the semiconductor layer to form a patterned semiconductor layer. The etching stop layer uncovered by the patterned hard mask layer is then removed for forming a patterned etching stop layer. | 05-30-2013 |
20130161625 | ARRAY SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of an array substrate includes the following steps. A first conductive layer, a gate insulating layer, a semiconductor layer, an etching stop layer, and a first patterned photoresist are successively formed on a substrate. The etching stop layer and the semiconductor layer uncovered by the first patterned photoresist are then removed by a first etching process. A patterned gate insulating layer and a patterned etching stop layer are then formed through a second etching process. The first conductive layer uncovered by the patterned gate insulating layer is then removed to form a gate electrode. The semiconductor layer uncovered by the patterned etching stop layer is then removed to form a patterned semiconductor layer and partially expose the patterned gate insulating layer. | 06-27-2013 |
20130196475 | Transistor with Etching Stop Layer and Manufacturing Method Thereof - This invention provides a transistor with an etching stop layer and a manufacturing method thereof. The transistor structure includes a substrate, a crystalline semiconductor layer, an etching stop structure, an ohmic contact layer, a source, a drain, a gate insulating layer, and a gate. The manufacturing method is performed by patterning the ohmic contact layer and the crystalline semiconductor layer at the same time with the same mask; and patterning the ohmic contact layer and the source/drain layer at the same time with another the same mask. | 08-01-2013 |
20140127844 | MANUFACTURING METHOD OF ARRAY SUBSTRATE - A manufacturing method of an array substrate includes the following steps. A first conductive layer, a gate insulating layer, a semiconductor layer, an etching stop layer, and a first patterned photoresist are successively formed on a substrate. The etching stop layer and the semiconductor layer uncovered by the first patterned photoresist are then removed by a first etching process. A patterned gate insulating layer and a patterned etching stop layer are then formed through a second etching process. The first conductive layer uncovered by the patterned gate insulating layer is then removed to form a gate electrode. The semiconductor layer uncovered by the patterned etching stop layer is then removed to form a patterned semiconductor layer and partially expose the patterned gate insulating layer. | 05-08-2014 |
20150123128 | ARRAY SUBSTRATE - The array substrate includes a substrate, a thin film transistor (TFT) and a pixel electrode. The TFT is disposed on the substrate and includes a gate electrode, a gate insulating layer, a patterned semiconductor layer, a patterned etching stop layer, a patterned hard mask layer, a source electrode and a drain electrode. The patterned gate insulating layer is disposed on the gate electrode. The patterned semiconductor layer is disposed on the patterned gate insulating layer. The patterned etching stop layer is disposed on the patterned semiconductor layer. The source and the drain electrodes are disposed on the patterned etching stop layer and the patterned semiconductor layer. The patterned hard mask layer is disposed between the source electrode and the patterned etching stop layer and disposed between the drain electrode and the patterned etching stop layer. The pixel electrode is disposed on the substrate and electrically connected to the TFT. | 05-07-2015 |
20150126006 | MANUFACTURING METHOD OF ARRAY SUBSTRATE - A manufacturing method of an array substrate includes following steps. A first photolithography process is performed to form a gate electrode on a substrate. A gate insulating layer is formed to cover the substrate and the gate electrode. A second photolithography process is performed to form a patterned semiconductor layer and a patterned etching stop layer. A semiconductor layer and an etching stop layer are successively formed on the gate insulating layer, and a second patterned photoresist is formed on the etching stop layer. The etching stop layer uncovered by the second patterned photoresist is removed. The semiconductor layer uncovered by the second patterned photoresist is removed for forming the patterned semiconductor on the gate insulating layer. A patterned etching stop layer is formed on the patterned semiconductor layer by etching the second patterned photoresist and the etching stop layer. | 05-07-2015 |
Patent application number | Description | Published |
20090293683 | RATCHET DRIVER - A ratchet driver includes a grip and a ratchet unit having a positioning base with a central through hole. The positioning base is mounted by a ratchet wheel and a direction-changing ring, having two accommodating grooves formed in its one side for respectively fitting a locking piece. An U-shaped groove is formed along the central through hole between the accommodating grooves, used for fitting an elastic element made of an elastic plate and having its two ends extended into the accommodating grooves to elastically rest on and strongly push the locking pieces while turning around the direction-changing ring, able to withstand a great integral torsion generated while turning the grip to drive the ratchet wheel and a driving head. Also, the ratchet driver has a simple structure, convenient to assemble and disassemble. | 12-03-2009 |
20140360317 | OIL CORE REPLACING DEVICE - An oil core replacing device includes a base pivotally provided thereon with a driving gear and three driven gears. The driven gears are annularly positioned around and meshed with the driving gear, respectively secured thereon with a clamping member with a rod body. A tubular body is annularly fitted around the outer circumferential side of each rod body, able to slide freely at the outer circumferential wall of the rod body. Thus, by having the tubular bodies sliding axially along the rod bodies and extending to the lower side of the rod bodies, the clamping members of the oil core replacing device can be adjusted in length for matching with different operation demands, convenient in operation. | 12-11-2014 |
20150020653 | Retractable Rod Structure of Hand Tool - A retractable rod structure of a hand tool includes an inner rod disposed along an axis. One end of the inner rod is provided with a tightening seat. The tightening seat has a tightening surface on a circumferential side thereof. A tightening ring is fitted on the tightening surface. An outer rod is fitted on the inner rod. The outer wall of the tightening ring is against the inner wall of the outer rod. The outer rod is turned to bring the tightening ring to turn simultaneously. Through the guide of the tightening surface, the tightening ring is tightened between the tightening surface and the inner wall of the outer rod, like a wedge, such that the outer rod and the inner rod can be positioned at any desired position to adjust the length of the retractable rod structure of the hand stool in a stepless way. | 01-22-2015 |
20150128767 | PENETRATION-TYPE RATCHET WRENCH - A penetration-type ratchet wrench includes a wrench body having a ratchet wheel assembled in the interior. The ratchet wheel is formed with a polygonal sleeve joint hole for a sleeve to be fitted therein and has one end protrusively formed with a first neck. When the first neck has its outer circumferential side cut into a ring groove through lathe processing, the corners in the sleeve joint hole will respectively and transversely formed into a curved elastic plate. The elastic plates of the ratchet wheel can elastically stop the joint portion of the sleeve for restrictedly positioning the sleeve in the sleeve joint hole and also can elastically and tightly push against the outer circumferential wall of the sleeve for firmly clamping and securing the sleeve in the interior of the wrench body. | 05-14-2015 |
20150239105 | RATCHET WRENCH WITH REPLACEABLE TOOL HEAD - A ratchet wrench with a replaceable tool head includes a wrench main body. The wrench main body has an accommodation trough and a first through hole. The tool head is accommodated in the accommodation trough. The tool head has an annular groove. A switch block is provided at one side of the tool head. Two detents are respectively provided at two sides of the switch block. The detents each have an engaging block corresponding to the annular groove. The switch block can control the engaging blocks of the detents to be engaged in the annular groove. When the engaging blocks are not in the annular groove, the tool head can be taken out from the accommodation trough for replacement. The tool head of the present invention is replaceable, the manufacture cost is low, and the structure of the present invention is simple. | 08-27-2015 |
Patent application number | Description | Published |
20120186401 | MULTI-FUNCTION SOCKET WRENCH - A multi-function socket wrench includes a driving head, a handle, a pivot rod, a first elastic limit unit and a second elastic limit unit. The driving head is pivotally connected with the pivot rod. The driving head can be slidably moved on the handle through the pivot rod and the first elastic limit unit. The driving head and the handle are secured through the second elastic limit unit. The handle and the driving head of the multi-function socket wrench can be turned free as the demand of the user to be a T-shaped socket wrench or operated horizontally. | 07-26-2012 |
20130233132 | COMBINATION STRUCTURE OF HEAD PART AND GRIP COVER OF RATCHET WRENCH - A combination structure includes a head part and a grip cover. The head part includes a bottom end having a front side formed with a first stage portion, a rear side formed with a second stage portion, a left side formed with a third stage portion, a right side formed with a fourth stage portion, and a middle portion provided with a grip body. The grip cover includes a slot inserted by the grip body of the head part. At a top end of the grip cover, a first connecting portion, a second connecting portion, a third connecting portion and a fourth connecting portion are provided. The first, second, third and fourth connecting portions of the grip cover are respectively to the first, second, third and fourth stage portions of the head part. Accordingly, the head part and the grip cover are embedded to each other with increased fitness therebetween. | 09-12-2013 |
20150075332 | PASS-THRU RATCHET WRENCH - A pass-thru ratchet wrench includes a wrench body. A front end of the wrench body has a head portion. A ratchet is provided in the head portion. The ratchet has a receiving hole to receive a socket. The ratchet has a first neck portion at an upper edge thereof and an annular groove around the outer wall of the first neck portion. The annular groove has a certain depth. The ratchet has a plurality of through holes in annular groove. A C-shaped buckle ring is disposed in the annular groove. The C-shaped buckle ring extends out of the through holes to form a limit portion. The limit portion is adapted to stop the socket, thereby the receiving hole of the ratchet can limit the socket from displacing. | 03-19-2015 |
Patent application number | Description | Published |
20110193089 | PIXEL STRUCTURE, METHOD OF FABRICATING THE SAME, AND METHOD OF FABRICATING ELECTRONIC DEVICE - A pixel structure including a substrate, a gate, an insulation layer, a metal oxide semiconductor (MOS) layer, a source and a drain, at least one film layer, and a first electrode layer is provided. The gate is disposed on the substrate. The insulation layer covers the gate. The MOS layer is disposed on the insulation layer above the gate. The source and the drain are disposed on the MOS layer. The film layer covers the MOS layer and includes a transparent photocatalytic material, wherein the transparent photocatalytic material blocks ultraviolet light from reaching the MOS layer. The first electrode layer is electrically connected to the source or the drain. | 08-11-2011 |
20120168743 | THIN FILM TRANSISTOR AND FABRICATING METHOD THEREOF - A thin film transistor (TFT) including a gate, a gate insulator, an oxide semiconductor channel layer, a source, and a drain is provided. The gate insulator covers the gate, while the oxide semiconductor channel layer is configured on the gate insulator and located above the gate. The oxide semiconductor channel layer includes a first sub-layer and a second sub-layer located on the first sub-layer. An oxygen content of the first sub-layer is lower than an oxygen content of the second sub-layer. The source and the drain are configured on a portion of the second sub-layer. In addition, a fabricating method of the above-mentioned TFT is also provided. | 07-05-2012 |
20130026472 | TFT STRUCTURE AND PIXEL STRUCTURE - A pixel structure including a substrate, a gate, an insulation layer, a metal oxide semiconductor (MOS) layer, a source and a drain, at least one film layer, and a first electrode layer is provided. The gate is disposed on the substrate. The insulation layer covers the gate. The MOS layer is disposed on the insulation layer above the gate. The source and the drain are disposed on the MOS layer. The film layer covers the MOS layer and includes a transparent photocatalytic material, wherein the transparent photocatalytic material blocks ultraviolet light from reaching the MOS layer. The first electrode layer is electrically connected to the source or the drain. | 01-31-2013 |
20130043464 | THIN FILM TRANSISTOR, PIXEL STRUCTURE AND METHOD FOR FABRICATING THE SAME - A thin film transistor (TFT) that includes a gate, an oxide semiconductor layer, a gate insulator, a source, and a drain is provided. The gate insulator is located between the oxide semiconductor layer and the gate. The source and the drain are in contact with different portions of the oxide semiconductor layer. Each of the source and the drain has a ladder-shaped sidewall that is partially covered by the oxide semiconductor layer. A method for fabricating the above-mentioned TFT is also provided. | 02-21-2013 |
Patent application number | Description | Published |
20110259937 | FASTENER DRIVING TOOL - A fastener driving tool includes a flywheel rotated by a drive unit and having a wheel rim formed with teeth, an impact member having a mating toothed unit movable with a carrier frame to engage the teeth so as to be swept thereby to an end-stroke position to enable a striking rod to drive a fastener into a targeted workpiece, and an actuating unit configured to actuate the carrier frame to move from an upper position to a lower position in response to a triggering action of a trigger so as to move the mating toothed unit from an disengaging position to an engaging position. | 10-27-2011 |
20110259938 | FLOATING IMPACT APPARATUS FOR ELECTRICAL NAIL GUN - A floating impact apparatus for an electrical nail gun includes a carrier, an impact unit, and a floating unit. The impact unit includes an impact member, and at least one sliding, wheel disposed pivotally on the impact member. The floating unit includes a guiding rod together with the impact member being connected movably to the carrier, two floating members extending through the carrier to connect with the guiding rod at positions proximate to a first side of the carrier, and at least two resilient members disposed between a second side of the carrier and the floating members for biasing the guiding rod and the impact member to move relative to the carrier to thereby maintain contact between the sliding wheel and the first side of the carrier, so as to promote smooth movement and nail-striking force of the impact member. | 10-27-2011 |
20120067934 | NAILING GUN - A nailing gun includes a swing arm having a first end pivoted to a frame, and a second end movable between a first position proximate to a flywheel to drive a hammer rod to hit a nail, and a second position distal from the flywheel. A spring plate has a spring end portion resiliently supporting the second end of the swing arm. The stop member limits the spring end portion and the second end of the swing arm from moving relative to the frame. When a safety member is subjected to an external pressure, the stop member permits the second end of the swing arm to move together with the spring end portion to the first position. The spring end portion can stably retain the second end of the swing arm at the second position in case of no external pressure. | 03-22-2012 |
20120074195 | DRIVING UNIT FOR AN ELECTRIC NAIL GUN - A driving unit for an electric nail gun includes a pushing block. The pushing block is movable relative to a supporting bracket of the electric nail gun along an axis, and has an inclined surface abutting against an end of a swing arm. Movement of the pushing block results in pivoting movement of the swing arm between a first position, and a second position farther away from a flywheel than the first position. The inclined surface has a slope between 0.087 and 0.7, so as to lock effectively the swing arm at the first position to thereby increase the nail-striking force of an impact member. | 03-29-2012 |
20120104069 | CONTROL MECHANISM FOR ELECTRIC NAIL GUN - The control mechanism for an electric nail gun includes: a first sensor for generating a first sensing signal in response to movement of a safety member of the electric nail gun; a second sensor for generating a second sensing signal in response to operation of a trigger member of the electric nail gun; an actuating piece adjusted selectively between a single shot position and a successive shooting position, and rotatable relative to the trigger member; a third sensor for generating a third sensing signal in response to rotation of the actuating piece; and a control unit activating a driving module of the electric nail gun upon receipt of the first or second sensing signals, and energizing an electromagnetic valve of the electric nail gun upon receipt of the third sensing signal. | 05-03-2012 |
20150034345 | ELECTRIC POWER TOOL - In an electric power tool, a flywheel can be driven by a driving unit to rotate about a wheel axis to thereby impart kinetic energy to a tool body through a force transmitting portion of the flywheel. A ventilating unit is mounted to rotate with the flywheel about the wheel axis. When the flywheel is driven to rotate, cooling air is generated by rotation of the ventilating unit. | 02-05-2015 |
20150251300 | ELECTRIC NAIL GUN - An electric nail gun includes a main frame, a swing arm pivoted to the main frame, an impact member mounted movably to the swing arm, and a restoring mechanism including a sliding member, a first resilient member and a second resilient member. The sliding member is mounted movably to the impact member. The first resilient member is configured such that, when the impact member is driven to move away from a rear end of the swing arm, the sliding member is drawn to move toward a rear end of the impact member by the first resilient member, and the length of the linear deformation of the first resilient member is smaller than the travel distance of the impact member. The second resilient member biases the sliding member away from the rear end of the impact member. | 09-10-2015 |
20150306753 | ADJUSTING DEVICE FOR AN ELECTRIC NAIL GUN - An adjusting device for an electric nail gun includes a detecting unit, a sensing unit and an electric control unit. The detecting unit includes a detecting rod for being pushed by a nail received in the electric nail gun to be rotated. The sensing unit is for sensing the position of the detecting rod and generating a corresponding sensing signal. The electric control unit is electrically connected to a driving unit of the electric nail gun and the sensing unit, and switches the driving unit to a state corresponding to the sensing signal. | 10-29-2015 |
Patent application number | Description | Published |
20130038550 | MULTI-PROTECTION TOUCH LOCK - A multi-protection touch lock has a lock body and an unlocking panel connecting to the lock body. The lock body has a control mechanism, a locking unit connecting to the control mechanism, and at least one displaying unit connecting to the control unit, and at least one connection interface connecting to the displaying unit. The at least one unlocking panel has at least one transmission interface connecting to the at least one connection interface, and at least one operating unit connecting to the at least one transmission interface. The lock can be located at the predetermined position to control the door access, vehicle actuation and the use of electrical appliances. When unlocking, the unlocking panel comes to in contact with the lock and the correct password is input via the unlocking panel. After the unlocking action is completed, the unlocking panel is removed from the predetermined position. | 02-14-2013 |
20140017971 | Optical Toy - An optical toy is disclosed. The optical toy includes a frame, at least one emitting part, at least one receiving part, a plurality of light guiding parts, and at least one power source. The frame includes a container and at least one containing structure. The emitting part is movably located on the containing structure. The emitting part includes at least one light source for emitting light. The receiving part is movably located on the containing structure. The receiving part includes a light sensor for sensing the light. The plurality of light guiding parts is located in the container for changing the direction of the light. The relative positions of the plurality of light guiding parts can be changed. The power source is located in the frame for providing power to the optical toy. | 01-16-2014 |
20140349544 | Illuminable Building block - An illuminable building block is disclosed. The illuminable building block has a cell body, at least one circuit board, at least one illuminating device, at least one photo sensing device, at least one circuit control module, and at least one assembly portion. The cell body has an accommodating space, and the circuit board is located therein. The at least one illuminating device is disposed at the inner surface of the circuit board, and each photo sensing device corresponds to at least one illuminating device. The at least one circuit control module is used for illuminating the illuminating device. | 11-27-2014 |
Patent application number | Description | Published |
20150175003 | POWER-SAVING APPARATUS AND METHOD FOR TRANSPORTATION VEHICLE - A power-saving apparatus for transportation vehicle is provided. The power-saving apparatus includes an identification module for identifying a user, a positioning module for retrieving a traveled path, a connection interface for retrieving energy consumption data, a memory unit for storing the user data, the traveled path, and the energy consumption data, a microprocessor for calculating an instantaneous energy consumption, an average energy consumption associated with the traveled path. The power-saving apparatus further includes a warning module for generating a warning signal. When the instantaneous energy consumption associated with a first road segment is determined to be larger than a first average energy consumption and/or the instantaneous energy consumption associated with a second road segment is determined to be larger than a second average energy consumption, the warning module operatively generates the warning signal. | 06-25-2015 |
20160082905 | SYSTEM AND METHOD FOR ANALYZING FUEL EFFICIENCY BASED ON DRIVING BEHAVIOR - A fuel efficiency analysis system is provided, which includes a capture device, an analysis process unit and a transform unit. The capture device captures driving data of automobile which is driven by a driver during at least one driving course, the analysis process unit analyzes the driving data to obtain inefficient driving period, and processes the inefficient driving period to generate a plurality of driving time intervals, and the transform unit transforms the plurality of driving time intervals into a plurality of driving efficiencies, and then the plurality of driving efficiencies is transformed into ODE (overall driving effectiveness). A method for analyzing fuel efficiency is also disclosed. | 03-24-2016 |
20160086394 | DRIVING BEHAVIOR ANALYSIS METHOD AND SYSTEM THEREOF - A driving behavior analysis method and a system thereof are provided. The system includes a storage unit, a window splitting unit and a processing unit. The storage unit stores a history fuel-consumption sequence, a driving fuel-consumption sequence and a history reference unit. The history fuel-consumption sequence includes history fuel-consumption data and the driving fuel-consumption sequence includes current fuel-consumption data. The window splitting unit separates history fuel-consumption sequence into multiple basic units and separates driving fuel-consumption sequence into multiple consumption units by utilizing a sliding window to move on the two sequences. By ordering the history fuel-consumption data for each basic unit of the history fuel-consumption sequence in a decreasing order, the processing unit generates a decreasing fuel-consumption sequence. It performs a similarity comparison for the multiple fuel-consumption units and the multiple basic units of the decreasing fuel-consumption sequence, to calculate driving behavior feedback data. | 03-24-2016 |
Patent application number | Description | Published |
20090213448 | OPTICAL SYSTEM - An optical system, adapted for providing an image beam, including a light source, a beam splitting/combining device, and a light valve is provided. The light source provides an illumination beam. The beam splitting/combining device includes a first polarizing beam splitter (PBS), a second PBS, a quarter wave plate (QWP), and a reflector. The first PBS reflects a first illumination beam of the illumination beam from the light source and the second illumination beam from the light source passes through the first PBS. The second illumination beam from the first PBS passes through the second PBS and the QWP, reflected by the reflector, passes through the QWP, and reflected by the second PBS. The light valve converts the first illumination beam from the first PBS and the second illumination beam reflected by the second PBS into the image beam. | 08-27-2009 |
20090268165 | OPTICAL ENGINE - An optical engine including a light source, a polarizing beam splitter (PBS), a multi-focus lens, and a light valve is provided. The light source is capable of emitting an illumination beam. The PBS is disposed on the light path of the illumination beam. The multi-focus lens is disposed on the light path of the illumination beam between the light source and the PBS, and has a plurality of refractive portions. The refractive portions have different effective focal lengths from one another. The PBS allows at least a part of the illumination beam with a first polarization direction to travel to the light valve. The light valve is capable of reflecting the part of the illumination beam and converting the part of the illumination beam into an image beam with a second polarization direction. The image beam from the light valve travels to the PBS. | 10-29-2009 |
Patent application number | Description | Published |
20130153189 | HEAT DISSIPATING FIN, HEAT DISSIPATING DEVICE AND METHOD OF MANUFACTURING THE SAME - A heat dissipating device includes a base and a plurality of heat dissipating fins. Each of the heat dissipating fins includes a heat dissipating portion, a fixing portion and an overflow-proof structure. The fixing portion is fixed in the base. The overflow-proof structure is connected between the heat dissipating portion and the fixing portion. A width of the overflow-proof structure is larger than a width of the heat dissipating portion and larger than a width of the fixing portion. | 06-20-2013 |
20130153192 | HEAT DISSIPATING DEVICE - A heat dissipating device includes a base and a plurality of heat dissipating fins. The base includes a substrate and a box, wherein the substrate and the box are formed integrally and the box has an accommodating space therein. Each of the heat dissipating fins includes a heat dissipating portion, a fixing portion and an overflow-proof structure. The fixing portion is fixed in the base. The overflow-proof structure is connected between the heat dissipating portion and the fixing portion. A width of the overflow-proof structure is larger than a width of the heat dissipating portion and larger than a width of the fixing portion. | 06-20-2013 |
20130175007 | HEAT-CONDUCTING MODULE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a heat-conducting module and a method for manufacturing the same. A hollow aluminum tube ( | 07-11-2013 |
20130180688 | HEAT-DISSIPATING MODULE AND METHOD FOR MANUFACTURING THE SAME - In a heat-dissipating module and a method for manufacturing the same, a hollow aluminum tube is put on a corresponding heat pipe to form an aluminum-skinned heat pipe. Then, one or more aluminum-skinned heat pipes are disposed in a casting space of a die casting mold. Fins are disposed into the die casting mold. Molten aluminum materials are filled in the casting space of the die casting mold to form a heat-dissipating module. By using a die casting process, molten aluminum materials are used to cover at least one aluminum-skinned heat pipe and connect with the fins, thereby finishing the heat-dissipating module. | 07-18-2013 |
20130255927 | HEAT DISSIPATING DEVICE - A heat dissipating device includes a base, a heat dissipating fin and a protruding member. The heat dissipating fin includes a heat dissipating portion, a fixing portion fixed in the base, and a first overflow-proof structure. The first overflow-proof structure is connected between the heat dissipating portion and the fixing portion. A width of the first overflow-proof structure is larger than a width of the heat dissipating portion. A first hole is formed on the heat dissipating portion and the first overflow-proof structure. The protruding member includes a second overflow-proof structure and a first protruding portion protruding from an upper surface of the second overflow-proof structure. The protruding member is disposed in the first hole, and a lower surface of the second overflow-proof structure and a lower surface of the first overflow-proof structure are coplanar. | 10-03-2013 |
20140069623 | METHOD OF MANUFACTURING HEAT DISSIPATING BASE, HEAT DISSIPATING BASE AND HEAT DISSIPATING DEVICE - A method of manufacturing a heat dissipating base includes steps of providing a first base, wherein the first base is made of a first heat conducting material; putting the first base into a mold; pouring a second heat conducting material, which is melted, into the mold, wherein a thermal conductivity of the first heat conducting material is larger than that of the second heat conducting material; and processing the second heat conducting material by a die casting process, so as to form a second base, wherein the second base covers a periphery of the first base and an upper surface and a lower face of the first base are exposed. | 03-13-2014 |
20140131014 | HEAT DISSIPATING DEVICE - A heat dissipating device includes a heat dissipating fin module, a second base, a third base, a heat pipe, a first sleeve and a fourth base. The heat dissipating fin module includes a first base and a plurality of first heat dissipating fins. A recess is formed on the second base. The third base is disposed in the recess. The heat pipe includes a heat dissipating segment, a heat absorbing segment and a connecting segment connecting the heat dissipating segment and the heat absorbing segment. The heat dissipating segment is disposed in the first base. The heat absorbing segment is disposed in the second and third bases and contacts the third base directly. The first sleeve at least covers the connecting segment. The fourth base is formed by a die casting process and covers peripheries of the first and second bases and the first sleeve. | 05-15-2014 |
20140345136 | HEAT DISSIPATING FIN, HEAT DISSIPATING DEVICE AND METHOD OF MANUFACTURING THE SAME - A heat dissipating device includes a base and a plurality of heat dissipating fins. Each of the heat dissipating fins includes a heat dissipating portion, a fixing portion and an overflow-proof structure. The fixing portion is fixed in the base. The overflow-proof structure is connected between the heat dissipating portion and the fixing portion. A width of the overflow-proof structure is larger than a width of the heat dissipating portion and larger than a width of the fixing portion. | 11-27-2014 |
20150013928 | METHOD FOR MANUFACTURING HEAT-DISSIPATING MODULE - A method for manufacturing a heat-dissipating module includes following steps. A hollow aluminum tube is put on a corresponding heat pipe to form an aluminum-skinned heat pipe. Then, one or more aluminum-skinned heat pipes are disposed in a casting space of a die casting mold. Fins are disposed into the die casting mold. Molten aluminum materials are filled in the casting space of the die casting mold to form a heat-dissipating module. By using a die casting process, molten aluminum materials are used to cover at least one aluminum-skinned heat pipe and connect with the fins, thereby finishing the heat-dissipating module. | 01-15-2015 |
Patent application number | Description | Published |
20150144301 | HEAT DISSIPATING DEVICE - A heat dissipating device includes a base and a heat dissipating fin. The base includes an accommodating recess formed thereon. The heat dissipating fin includes a heat dissipating portion and a fixing portion, wherein the heat dissipating portion extends from the fixing portion, and the fixing portion has a first recess structure. The base and the heat dissipating fin are combined with each other by a punching process, such that the fixing portion is fixed in the accommodating recess in a tight-fitting manner and a first side wall of the accommodating recess is embedded in the first recess structure. | 05-28-2015 |
20150144307 | HEAT DISSIPATING DEVICE AND HEAT DISSIPATING FIN - A heat dissipating device includes a heat dissipating fin and a heat pipe. The heat dissipating fin includes a fin body, a through hole and a closed ring-shaped portion, wherein the through hole is formed on the fin body, the closed ring-shaped portion extends from a periphery of the through hole and has a first U-shaped protruding ear, and the first U-shaped protruding ear has a first opening. The heat pipe has a heat dissipating end and a heat absorbing end, wherein the heat dissipating end is opposite to the heat absorbing end and is disposed in the through hole and the closed ring-shaped portion. After punching the closed ring-shaped portion, the first opening of the first U-shaped protruding ear shrinks, such that the closed ring-shaped portion fixes the heat dissipating end in a tight-fitting manner. | 05-28-2015 |
20150144318 | HEAT DISSIPATING DEVICE AND METHOD OF MANUFACTURING THE SAME - A heat dissipating device includes a base and a heat dissipating fin. The base includes an accommodating recess formed thereon. The heat dissipating fin includes a heat dissipating portion and a protruding portion, wherein the protruding portion protrudes from an end of the heat dissipating portion and is disposed in the accommodating recess. The base and the heat dissipating fin are combined with each other by a punching process, such that a first side wall of the accommodating recess covers at least a part of the protruding portion. | 05-28-2015 |
Patent application number | Description | Published |
20090109353 | Lighting Device with Indicator - A lighting device includes a light-emitting element, an ultrasonic member, a signal processing unit, a light control unit, an indicator and an indicator control unit. The light-emitting element emits a light. The ultrasonic member emits an ultrasonic signal and receives the ultrasonic signal reflected from an object. The signal processing unit is communicated with the ultrasonic member for converting the reflected ultrasonic signal into a control signal. The light control unit is interconnected between the signal processing unit and the light-emitting element for controlling the light-emitting element to emit light in a selected operating mode in response to the control signal. The indicator control unit is interconnected between the signal processing unit and the indicator for controlling the indicator to assert a notification signal indicative of the operating mode in response to the control signal. | 04-30-2009 |
20090116218 | Lighting Device Producing Light with Adjustable Color and Color Temperature - A lighting device includes a light source, at least one seal block, at least one wavelength conversion material and a concentration adjusting unit. The light source emits light of a first wavelength. The wavelength conversion material is filled in the seal block. The concentration adjusting unit is disposed on the seal block for controlling concentration distribution of the wavelength conversion material in the seal block. The light emitted by the light source is absorbed by the wavelength conversion material and converted into light of second wavelength different from the first wavelength. | 05-07-2009 |
20090122546 | Movable Lighting System Providing Adjustable Illumination Zone - A movable lighting system includes at least one lighting unit. The lighting unit includes a light source and a reflector. The reflector encloses the light source and includes a main body and an exit facet. The exit facet of the reflector is beveled with respect to the horizon and adjustable to provide a desired illumination zone and a desired illumination-covering area. | 05-14-2009 |
20100053975 | Apparatus for Producing a Ring Illumination Pattern - A lighting apparatus for producing a ring illumination pattern, it comprises: a light emitting diode for producing a light beam; and an optical reflective surface for reflecting the light beam to form the ring illumination pattern, wherein the reflective surface can be a hyperboloid, an ellipsoid or a paraboloid. | 03-04-2010 |
Patent application number | Description | Published |
20150123225 | BACKSIDE ILLUMINATOR IMAGE SENSOR DEVICE WITH SHIELDING LAYER - A backside illuminated image sensor device with a shielding layer and a manufacturing method thereof are provided. In the backside illuminated image senor device, a patterned conductive shielding layer is formed on a dielectric layer on a backside surface of a semiconductor substrate and surrounding a pixel array on a front side surface of the semiconductor substrate. | 05-07-2015 |
20150189207 | Protection Layer In CMOS Image Sensor Array Region - A semiconductor image sensor device having a conformal protective layer includes a semiconductor substrate a pixel-array region and a peripheral region. The conformal protective layer is disposed over a plurality of pixels having a photodiode and a plurality of transistors in the pixel-array region. Contacts to the plurality of transistors are surrounded by the conformal protective layer. In some embodiments, the conformal protective layer is the same material as transistor gate spacers in the peripheral region. | 07-02-2015 |
20150243696 | IMAGE SENSOR DEVICE WITH LIGHT BLOCKING STRUCTURE - The disclosure provides an image sensor device and a manufacturing method. The image sensor device includes a semiconductor substrate and a light sensing region in the semiconductor substrate. The image sensor device also includes a light blocking structure in the semiconductor substrate and adjacent to the light sensing region. A sidewall of the light blocking structure is a curved surface. | 08-27-2015 |
20150264233 | IMAGE SENSOR DEVICE WITH LIGHT GUIDING STRUCTURE - An image sensor device and a manufacturing method for forming an image sensor device are provided. The image sensor device includes a semiconductor substrate having an array region and a periphery region. The image sensor device also includes a light sensing region in the array region of the semiconductor substrate. The image sensor device further includes a dielectric structure over the array region and the periphery region, and the dielectric structure has a substantially planar top surface. In addition, the image sensor device includes a recess in the dielectric structure and substantially aligned with the light sensing region. The image sensor device also includes a filter in the recess and a light blocking grid in the dielectric structure and surrounding a portion of the filter. | 09-17-2015 |
Patent application number | Description | Published |
20120177253 | METHOD AND APPARATUS FOR GENERATING PANORAMA - A method and an apparatus for generating a panorama are provided. In the present method, a plurality of raw images of a scene is captured. A coarse motion estimation is executed on the raw images to obtain a coarse motion estimation result of the scene. In the meantime, the raw images inside a window of interest (WOI) are cropped to obtain a plurality of cropped images, and a fine motion estimation is executed on the cropped images according to the coarse motion estimation result of the scene, so as to obtain a fine motion estimation result of the scene. The raw images are stitched and blended according to the fine motion estimation result, so as to generate the panorama. | 07-12-2012 |
20130188874 | METHOD FOR IMAGE PROCESSING AND APPARATUS USING THE SAME - An image processing method and an apparatus using the same are provided. The method includes the following steps: deriving a global motion vector between a first image and a second image and providing the first image, the second image and the global motion vector to a first application process, wherein the first image is the previous image of the second image; deriving a first compensated image and a second compensated image by performing a lens distortion compensation process on the first image and the second image respectively; deriving a compensated global motion vector corresponding to the first compensated image and the second compensated image by transforming and correcting the global motion vector; and providing the first compensated image, the second compensated image, and the compensated global motion vector to a second application process. | 07-25-2013 |
20140193080 | METHOD OF IMAGE DENOISING AND METHOD OF GENERATING MOTION VECTOR DATA STRUCTURE THEREOF - The present invention discloses a method of image denoising and method of generating motion vector data structure thereof. The method comprises: providing an image sequential capturing module to capture and to receive the plurality of images; generating a global motion vector based on the plurality of images in accordance with a first algorithm; reducing each image as reduced images; dividing each of the first reduced images into a plurality of first areas and generating a first local motion vector based on each of the first areas in accordance with a second algorithm, and via the similar way for generating a second local motion vector; finally, obtaining motion vector data in the plurality of images according to the global motion vector, each of the first local motion vectors and each of the second local motion vectors. | 07-10-2014 |