Patent application number | Description | Published |
20100154604 | Tool with Adjustable Working Angle - A tool with adjustable working angle is provided with a first rod and a second rod which are pivoted to both ends of a connecting member, so the two rods are able to swing with respect to the connecting member. Furthermore, the swing direction of the connecting member with respect to the first rod is the same as the swing direction of the connecting member with respect to the second rod. Hence, through the pivotal motion between the connecting member and the first and second rods, the wrench of the present invention can be adjusted at different working angles so as to adapt to different working environments. | 06-24-2010 |
20100176356 | Manually Operated Prying Tool - A manually operated prying tool comprises a prying head and a handle. The head is defined at its end with an assembling hole in which are disposed a head portion of a handle of the prying tool, a ratchet wheel, a C-shaped ring, a central shaft, a spring and a stopping piece. By pushing the central shaft, the prying tool can be switched into a fixing mode, adjustment mode, or a rotation operation mode, which allows the user to unidirectionally rotate the tool to perform micro-angle adjustment between the prying head and the handle of the prying tool, making it convenient to use the tool. | 07-15-2010 |
20110002732 | Rotation Control Device for a Tool - A rotation control device for a tool is disposed between a handle and a tool head and essentially comprises two ratchet wheels, a spring and two C-shaped snap rings. The two ratchet wheels are symmetrically arranged, so that when being pressed, the respective ratchet wheels will be subjected to the same force and move the same distance, thus making the engagement between the ratchet wheels and the tool head more assured while avoiding the stuck fault and improving the convenience in use. | 01-06-2011 |
20110005359 | TOOL WITH ADJUSTABLE WORKING ANGLE - A tool with adjustable working angle, wherein a connecting member of the tool is provided with a strengthened portion which is thicker than the thickness of a first or second connecting portion of the connecting member, so that four standing surfaces are formed at connections of the first connecting portion, the four standing surfaces have the same height, which means that the connecting member is a balanced structure, so that torque can be evenly and smoothly transmitted from the first or second connecting portion to the strengthened portion to prevent deformation. | 01-13-2011 |
20110047803 | Multi-Impact Hand Tool - A multi-impact hand tool comprises a sleeve, a tool head, a movable rod, a spring and an impact block. With only one impact operation, the multi-impact hand tool can provide a multi-impact effect, thus improving the working efficiency. In addition, the impact force can be directly transferred to the tool head for performing the chiseling operation, thus improving the working efficiency. | 03-03-2011 |
20110056339 | Connecting rod assembly - A connecting rod assembly comprises a connecting element, a pivot element, a connecting rod, a spring and an engaging element. The connecting element is provided at both ends thereof with a connecting portion and a driving portion. The pivot element is provided at a first end thereof with a connecting pillar formed with a pivot hole, and the connecting pillar is further formed in an outer surface thereof with a moving hole in communication with the pivot hole. The connecting rod has a first end thereof connected to the connecting element, and a second end of the connecting rod is pivotally disposed in the pivot hole. The connecting rod is formed with an evasion groove for cooperating with the engaging element. The spring is disposed in the driving groove with both ends thereof pushed against an inner surface of the driving groove and the connecting element. | 03-10-2011 |
20110083535 | Two-Section Tool Joint - A two-section tool joint comprises a first rod, an engaging element, a second rod and a limiting element. The two-section tool joint utilizes an elastic engaging structure to obtain an engaging effect during a multi-angle screwing/unscrewing operation, meanwhile, the tool joint can be fixed stably, avoiding the retraction of the tool joint and reducing the difficultly and inconvenience of the screwing/unscrewing operation. | 04-14-2011 |
20110226713 | SLIDING TYPE TOOL STORAGE STRUCTURE - A sliding type tool storage structure comprises an open-close switching unit clamped between a first storing element and a second storing element that can slide relative to each other. When the first storing element slides relative to the second storing element to change their relative position, the stopping portions of the open-close switching unit will open or close the tool storing grooves of the respective storing elements. Being a simple structure, the sliding type tool storage structure is easy to carry. Furthermore, since the tool storage structure can be operated simply by sliding of two elements, it is very convenient to use. | 09-22-2011 |
20110229254 | TOOL JOINT STRUCTURE - A tool joint structure capable of being connected to a drive tool and a socket comprises a body, a pressing assembly, a rod element and a positioning element. The respective components of the tool joint structures can be fixed by the positioning element in an insertion-pressing manner, thus reducing the assembly cost of the tool joint structure. | 09-22-2011 |
20110229255 | TOOL JOINT - A tool joint comprises a first rod, a pressing assembly, a second rod and a positioning element. Through a notch formed in the first rod, the first rod can be adjusted to be vertical to the second rod, thus increasing one driving method of the second rod with respect to the first rod. Thereby, the tool joint includes two operation modes, enhancing the applicability. | 09-22-2011 |
20120067164 | Rotation control device for a tool - A rotation control device for a tool is disposed between a handle and a tool head and essentially comprises two ratchet wheels, a spring and two C-shaped snap rings. The two ratchet wheels are symmetrically arranged, so that when being pressed, the respective ratchet wheels will be subjected to the same force and move the same distance, thus making the engagement between the ratchet wheels and the tool head more assured while avoiding the stuck fault and improving the convenience in use. | 03-22-2012 |
20120251223 | PAINTING DEVICE WITH A MANUAL SUCTION CYLINDER - A painting device with a manual suction cylinder is provided with a connecting cavity or a connecting cylinder at each of its guiding pipe, brush heads and handle, with the connecting cylinder and the connecting cavity, the guiding pipe, the handle and the brush head are allowed to be assembled and disassembled quickly and easily, and a single handle of the present invention can be used to easily connect different types of brush heads without having the conventional problem that the conventional brush heads must have its own handle. | 10-04-2012 |
20130033855 | ILLUMINATING MAGNIFYING LENS CAPABLE OF FOCUSING ITS LIGHT ON OBJECTS - An illuminating magnifying lens capable of focusing its light on objects in accordance with the present invention comprises a frame connected to a handle, and in a part of the handle jointing to the frame is defined an assembling groove in which being assembled a lamp, a battery and a light guiding member. When the magnifying lens is used to magnify the object, the projecting light of the lamp is restricted by the light guiding member and can only be emitted out from the open end of the guiding hole, plus there is projecting angle between the guiding hole and the lens element, therefore, the light of the lamp will be directed toward the object without projecting onto the lens element, thus preventing dazzling reflection. | 02-07-2013 |
20130327998 | Rotation Control Device for a Tool - A rotation control device for a tool is disposed between a handle and a tool head and includes two ratchet wheels, a spring and two C-shaped snap rings. The two ratchet wheels are symmetrically arranged. When pressed, the respective ratchet wheels will be subjected to the same force and move the same distance, thus making the engagement between the ratchet wheels and the tool head more assured while avoiding the stuck fault and improving the convenience in use. | 12-12-2013 |
20140196581 | Reinforced Drive Tool - A socket includes a hole having a hexagonal cross section and defining six abutting sides and an included angle between any of the two adjacent abutting sides. Any of the two opposite abutting sides spaced at a first distance. Any of the two opposite included angles spaced at a second distance. The socket has first, second, and third sections having first, second and third external diameters, respectively. The second external diameter is smaller than the first external diameter and the third external diameter is smaller than the second external diameter, respectively. A difference between the second and third external diameters is not less than a difference between the first and second distances. A drive bit is mounted to the second end of the socket. | 07-17-2014 |
20140284356 | Reservoir Fluid Automatic Dispenser - A reservoir fluid automatic dispenser includes a reservoir delimiting a space for receiving a fluid, including a top edge delimiting an opening, and including a fluid exit. A dispensing mechanism includes a fixing end to fix with the reservoir, a pushing end to force the liquid out of the reservoir through the fluid exit, and a biasing member to automatically move the pushing end. The biasing member is restrained between the fixing end and the pushing end. The pushing end is disposed and moving inside the space under a tension of the biasing member. | 09-25-2014 |
20150059490 | Torque Testing Machine with Double Drive Devices - A torque testing machine includes a testing head and a calculating device connecting to the testing head to calculate a torque transmitted to the testing head. A first drive device includes a first connecting head being cooperative with the testing head. The first connecting head and the testing head oppose to each other. The first connecting head is rotatable about an axis. A second drive device includes a second connecting head being cooperative with the testing head. The second connecting head offsets a distance from the axis and is movable tangentially to the distance. | 03-05-2015 |
20150082948 | Ratcheting Tool - A ratcheting tool includes first and second driving structures each having a receiving hole. The second driving structure includes an inner flange and multiple teeth. Each tooth has a bottom connected to the inner flange and includes an upper edge, a first side, a second side and beveled ridge. The beveled ridge extends from a juncture between the first side and the upper edge to the inner flange, gradually and inwardly protrudes from an inner surface of the tooth, and includes an engaging bevel and a guiding bevel. The ratcheting tool continuously rotates a fastener without detaching from the fastener. | 03-26-2015 |
20150151428 | Tool Rack - A tool rack includes a main body and at least one joint including a first end disposed on the main body, a second end, a flange between the first and second ends, an elastic structure extending from the flange to the second end, and at least one protrusion extending radially from the elastic structure. The elastic structure includes a plurality of elastic members arranged annularly and delimiting an open space. Two adjacent elastic members of the plurality of elastic members separate from one another with a gap. The flange has a maximum width defining a first width. The second end of the at least one joint that includes the protrusion has a maximum width defining a second width. The second width is not less than the first width. | 06-04-2015 |
20150258669 | Tool Head - A tool head includes a connecting component, a driving component, and a spacer assembled together. The connecting component includes a receiving end forming a first compartment and a second compartment. The driving component includes an engaging end forming a first engaging section and a second engaging section. The tool head has a tight-fit region in which the first engaging section and the spacer are tightly fit within the first compartment and a fit region in which the second engaging section is retained within the second compartment. | 09-17-2015 |
20150290782 | Fastener Driving Tool with Electric Heating Unit - A fastener driving tool includes a handle, a driving unit, and a heating unit. The handle includes an assembling end, a gripping end, and a receiving slot arranged in the handle. The driving unit includes a connecting end connected to the assembling end, and a driving end. The heating unit is received in the receiving slot of the handle and includes a circuit board and a heater. The circuit board is electrically connected with the heater. The heater connects and contacts with the driving unit. The heater is adapted for producing and conducting heat to the driving unit to melt the threadlocker. | 10-15-2015 |
20150321324 | Reinforced Drive Tool - A socket includes a hole having a hexagonal cross section and defining six abutting sides and an included angle between any of the two adjacent abutting sides. Any of the two opposite abutting sides are spaced at a first distance. Any of the two opposite included angles are spaced at a second distance. The socket has first, second, and third sections having first, second and third external diameters, respectively. The second external diameter is smaller than the first external diameter and the third external diameter is smaller than the second external diameter, respectively. A difference between the second and third external diameters is not less than a difference between the first and second distances. A drive bit is mounted to the second end of the socket. | 11-12-2015 |
20150328752 | Extension Bar - An extension bar includes a rod having an outer periphery thereof including a recess and a positioning track extended thereon. The recess defines a first contact section and a second contact section disposed after the first contact section longitudinally. A sleeve is slidably mounted on the rod and includes an orifice extended radially therethrough. A stopper is movably engaged with and disposed at a fixed predetermined position on the positioning track. A detent is engaged between the rod and the sleeve and movably engaged in the recess and the orifice. A biasing member is disposed between the sleeve and the stopper. | 11-19-2015 |
20160031024 | Thread Cutter Drive Extension - A thread cutter drive extension includes a main body defining first and second connecting ends. The main body includes a cavity circumferentially delimited in the second connecting end and a hole extending radially through the connecting end and into the cavity. A tightening device is disposed on the main body. The tightening device includes a tightener adjustably engaged in the hole. The tightener is movable between a tight position engaging in the cavity and a release position disengaging from the cavity. The thread cutter drive extension defines a driven end at the first connecting end. The thread cutter drive extension is adapted to be driven by a power tool, with the power tool connecting to the first connecting end. The thread cutter drive extension is adapted to receive a thread die, with the thread die disposed in the cavity. | 02-04-2016 |
20160031074 | Tool Holder - A tool holder includes a rack and at least one seat connected to the rack. The seat includes an assembling portion and an attached portion spaced from the assembling portion. The assembling portion is detachably mounted to the rack. The attached portion includes an abutted face and a recess. The abutted face is located opposite to the rack. The recess is located between the abutted face and the assembling portion. The recess receives a magnet adapted to magnetically attach to a metal object. | 02-04-2016 |
Patent application number | Description | Published |
20130169576 | TOUCH DISPLAY PANEL - A touch display panel includes a display panel, a plurality of touch sensing devices, and a touch driver circuit. The display panel includes an array substrate. The touch driver circuit is disposed on the array substrate. The touch driver circuit is electrically connected to the touch sensing devices, and the touch driver circuit is employed to provide at least one scan driving signal to the touch sensing devices. | 07-04-2013 |
20130176235 | TOUCH-SENSING DISPLAY APPARATUS - A touch-sensing display apparatus includes a first substrate, a second substrate, a plurality of touch sensing structures, and a display medium. The first substrate has a plurality of pixels and scan lines, and a read-out line. Each touch sensing structure includes a sensing active device, a sensing space, and a bridge electrode. Each sensing active device is disposed on the first substrate and includes a bottom gate, a channel, a source, a sensing electrode, and a top gate. The top gate has an opening to form a first electrode and a second electrode that are electrically isolated. When pressed, the bridge electrode contacts the top gate to electrically connect to the first and second electrodes, so that control of the channel is transformed from one of the top gate and the bottom gate to both the top and the bottom gates, thereby forming a sensing current in the sensing electrode. | 07-11-2013 |
20130194213 | TOUCH-SENSING PANEL AND TOUCH-SENSING DISPLAY APPARATUS - A touch-sensing panel including a substrate, a plurality of first electrode series, a plurality of second electrode series, and a plurality of first floating patterns is provided. Each of the first electrode series includes a plurality of first touch-sensing pads and a plurality of first bridge patterns. The second electrode series are disposed on the substrate and electrically insulated from each other. The second sensing series are intersected with and electrically insulated from the first sensing series. Each of the second electrode series includes a plurality of second touch-sensing pads and a plurality of second bridge patterns. The first floating patterns are disposed between the first sensing series and the second sensing series. Each of the first touch-sensing pads includes at least one extending portion. In addition, there is no first floating pattern located between the extending portion and the second electrode series adjacent thereto. | 08-01-2013 |
20130301195 | TOUCH DISPLAY DEVICE AND DRIVING METHOD THEREOF - A touch display device includes a display panel, a plurality of first sensing-series and a plurality of second sensing-series. The display panel includes a first substrate, a second substrate, a plurality of pixel structures and the display medium located between the first substrate and the second substrate. The first sensing-series are on the first substrate. The second sensing-series are on the second substrate. | 11-14-2013 |
20130307800 | TOUCH DISPLAY PANEL - A touch display panel includes a first substrate, a second substrate, a plurality of scan lines and data lines, a plurality of active devices, and an organic light emitting diode pixel array is provided. The first substrate is opposite to the first substrate. The scan lines and the data lines are intersected and disposed on the first substrate. The active devices are disposed on the first substrate, and each active device is electrically connected with the corresponding scan line and data line. The organic light emitting diode pixel array includes a plurality of organic light emitting diode pixel units, and is disposed on the first substrate. Each organic light emitting diode pixel unit includes a first electrode, a second electrode and an organic light emitting layer. At least one of the scan lines, data lines and the second electrodes transmits a touch driving signal or a touch sensing signal. | 11-21-2013 |
20140014489 | TOUCH PANEL - A touch panel including sensing electrode sets, first pads, second pads, first conductive lines, second conductive lines and resistors is provided. Each sensing electrode set includes a first sensing electrode pattern and second sensing electrode patterns disposed beside the first sensing electrode pattern. The first conductive lines electrically connect the first sensing electrode pattern with the first pads respectively. The second conductive lines connect the second electrode patterns into multiple series. The second sensing electrode patterns of the same sensing electrode set belong to different series and two terminals of each series are connected to different second pads. Two terminals of each resistor are connected to the different second pads connected with the two terminals of the each series. | 01-16-2014 |
20140084992 | TOUCH PANEL - A touch panel includes a substrate, sensing electrode sets, first pads, second pads, first lines, second lines and connecting conductors. Each of the sensing electrode sets includes a first electrode pattern and a plurality of second electrode patterns disposed beside the first electrode pattern. The plurality of first lines electrically connects the first pads to the first electrode patterns respectively. Each second pad is electrically connected to one of the second electrode patterns through one of the second lines. Each connecting conductor electrically connects one second electrode pattern of one sensing electrode set to one second electrode pattern of another sensing electrode set. The first lines and the second lines do not cross over each other, and the connecting conductors do not cross over each other. | 03-27-2014 |
20140085261 | TOUCH PANEL AND TOUCH DISPLAY PANEL - A touch panel including a substrate, a decoration layer and a first touch unit is provided. The decoration layer is disposed on the substrate, wherein the decoration layer has a window, and the location of the decoration layer is defined as a peripheral region. The first touch unit is at least disposed within the window, and the first touch unit has a plurality of electrode pairs. The electrode pairs are disposed on the substrate. Each of the electrode pairs includes a driving electrode and a sensing electrode. The driving electrode and the sensing electrode are separated by a distance, and the distance is between 300 micrometers and 900 micrometers. | 03-27-2014 |
20140138141 | PERIPHERAL CIRCUIT STRUCTURE - A peripheral circuit structure disposed on a substrate having an element region and a peripheral circuit region is provided. The peripheral circuit structure located in the peripheral circuit region includes first pads, second pads, a first trace, a second trace and third traces connected to the second pads and a device located in the element region. The first pads include a first ground pad and a second ground pad. The second pads are located between the first ground pad and the second ground pad. Two ends of the first trace are respectively electrically connected to the first ground pad and the second ground pad. Two ends of the second trace are respectively electrically connected to the first ground pad and the second ground pad, so that the second trace, the first trace, the first ground pad and the second ground form a closed loop. | 05-22-2014 |
20140152915 | TOUCH PANEL - A touch panel includes a substrate, a plurality of first and second conductive series, and a plurality of first and second auxiliary electrodes. The first and the second conductive series are disposed alternately on the substrate and located on a light-transmission area of the substrate. A portion of each of the first and second conductive series extends to a peripheral area of the substrate. The first and the second auxiliary electrodes are disposed on the peripheral area. The first auxiliary electrodes connect to the portion of the first conductive series extending to the peripheral area and generate capacitive sensing with the portion of the second conductive series located on the peripheral area. The second auxiliary electrodes connect to the portion of the second conductive series extending to the peripheral area and generate capacitive sensing with the portion of the first conductive series located on the peripheral area. | 06-05-2014 |
20140160708 | LEAD STRUCTURE - A lead structure disposed on a substrate is provided. The substrate includes a display area disposed with a device and a peripheral area disposed with a lead structure including first pads, a second pad, first traces and a second trace. The first traces are connected to the device. Each first trace has a first linear portion and a first bonding portion connected together. Each first trace is electrically connected to one of the first pads through the first bonding portion. The second trace has a second linear portion and a second bonding portion connected together. The second trace is electrically connected to the second pad through the second bonding portion. A width of the first linear portion is smaller than a width of the first bonding portion, and a width of the second linear portion is smaller than a width of the second bonding portion. | 06-12-2014 |
20140184951 | TOUCH DISPLAY DEVICE - A touch display device includes a cover substrate, a display panel, a plurality of first touch electrodes, a plurality of first connecting pads, and a first conductive adhesive material. A visible region and a peripheral region adjacent to at least one side of the visible region are defined on the cover substrate. The display panel includes an upper substrate and an array substrate. The upper substrate is disposed between the cover substrate and the array substrate. The first touch electrodes are disposed in the visible region and the first connecting pads are disposed in the peripheral region. Each first connecting pad is electrically connected to the corresponding first touch electrode. The first conductive adhesive material is disposed between the cover substrate and the array substrate so as to electrically connect the first connecting pads and the array substrate. | 07-03-2014 |
20140204043 | TOUCH PANEL - A touch panel including a substrate, a decoration layer, and conductive elements is provided. The decoration layer has an outer margin adjacent to an edge of the substrate and an inner margin opposite to the outer region. A reference line is away from the inner margin with a distance of at least 20 μm towards a direction away from the outer margin. At least one of the conductive elements includes a cross-interface portion which covers the decoration layer and a region of the substrate without the decoration layer. A first distance and a second distance between two adjacent cross-interface portions are provided in a region outward of the reference line to the outer margin of the decoration layer, and in a region inward of the reference line, respectively. The first distance is greater than the second distance. The conductive elements construct touch sensing units for forming a capacitance coupling. | 07-24-2014 |
20140346028 | TOUCH PANEL - A touch panel including a substrate, first electrodes, second electrodes, first wires, second wires and a means for shortening a gap between the second electrodes in a third direction is provided. The first electrodes are arranged sequentially in a first direction. Each first electrode has openings arranged in a second direction intersecting the first direction. The second electrodes are located in the openings. Each first electrode and the second electrodes surrounded by the first electrode constitute a sensing unit. The first wires and the second wires connect the first electrodes and the second electrodes to a driving circuit. The means for shortening the gap between the second electrodes in the third direction renders a ratio of the gap between the second electrodes in the third direction to that in the second direction to be smaller than 1:3.4, where the third direction intersects either the first direction or the second direction. | 11-27-2014 |
20140347319 | TOUCH PANEL - A touch panel, having a center region and a peripheral region disposed on at least one side of the center region, includes a first electrode. The first electrode includes a plurality of first sub-electrodes and a plurality of second sub-electrode. The first sub-electrodes are disposed in the center region, and the second sub-electrodes are disposed on the peripheral region. A pattern density of the second sub-electrodes in the peripheral region is higher than a pattern density of the first sub-electrodes in the center region. | 11-27-2014 |
20140362041 | TOUCH APPARATUS AND DRIVING METHOD THEREOF - A touch apparatus and a driving method thereof are provided. The touch apparatus includes a plurality of firs electrodes, a plurality of second electrodes, a first driving sensing unit, a second sensing driving unit and a control unit. The first electrodes are disposed sequentially along a first direction, and each second electrode is adjacent to the corresponding first electrode sequentially along a second direction. In a first touch mode, the control unit controls the first sensing driving unit to provide a first driving signal to the first electrodes, and controls the second sensing driving unit to receive a plurality of first touch signal from the second electrodes. In a second touch mode, the control unit controls the second driving sensing unit to provide a second driving signal to the second electrodes, and controls the first sensing driving unit to receive a plurality of second touch signal from the first electrodes. | 12-11-2014 |
20150029423 | TOUCH PANEL - A touch panel is provided. The touch panel includes multiple sensing units, multiple connecting wires and multiple bridge wires. A part of the sensing units are arranged along a first direction, and another part of the sensing units are arranged along a second direction. A part of the connecting wires and a part of the bridge wires are connected to the part of the sensing units along the first direction. Another part of connecting wires and another part of bridge wires are connected to the another part of the sensing units along the second direction. The impedance value of each bridge wire is different from that of each connecting wire. | 01-29-2015 |
20150060254 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - A touch panel and a manufacturing method thereof are provided. The touch panel includes an insulating layer, a plurality of first conductive electrodes, a plurality of second conductive electrodes, a plurality of first auxiliary electrodes and a plurality of second auxiliary electrodes. The insulating layer has a plurality of through holes. The first conductive electrodes are arranged along a first direction and electrically connected with each other. The second conductive electrodes are arranged along a second direction and electrically connected with each other. The first auxiliary electrodes and the first conductive electrodes are electrically connected via part of the though holes. The second auxiliary electrodes and the second conductive electrodes are electrically connected via another of the though holes. | 03-05-2015 |
20150075960 | TOUCH PANEL - A touch panel including a substrate, at least one decoration layer, and a conductive electrode structure is provided. The decoration layer is disposed on at least one side of the substrate. The decoration layer has at least one hot key area. The hot key area includes a hot key pattern area and a hot key touching area. The hot key touching area is located on at least one side of the hot key pattern area without overlapping each other. The decoration layer has at least one recess disposed in the hot key pattern area. The conductive electrode structure is disposed on the decoration layer. The conductive electrode structure is located in the hot key touching area, and an orthogonal projection of the conductive electrode structure on the substrate and an orthogonal projection of the recess on the substrate do not overlap with each other. | 03-19-2015 |
20150085205 | TOUCH PANEL - A touch panel includes a substrate, a plurality of first conductive elements, and a plurality of second conductive elements. Each of the first conductive elements includes a plurality of first conductive patterns and a plurality of first connection portions alternately connected with each other. The first conductive elements and the second conductive elements are intersected with each other and electrically insulated. Each of the second conductive elements includes a plurality of intersection portions respectively intersected with the first connection portions of each of the first conductive elements. A linewidth of the intersection portions is W1, and 100 μm03-26-2015 | |
20150109247 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - A touch panel and a manufacturing method thereof are provided. The touch panel includes a substrate, a plurality of conductive patterns, a plurality of signal transmitting lines, a plurality of first pad portions, a plurality of second pad portions and at least one auxiliary pattern. The first pad portions are separately arranged along a first path. The second pad portions are insulated from the first pad portions. The second pad portions are separately arranged along a second path. At least one auxiliary pattern is disposed between two adjacent first pad portions, between two adjacent second pad portions, or between one of the first pad portions and one of the second pad portions which are adjacent. The insulating intervals are disposed between adjacent first pad portions and between adjacent second pad portions. | 04-23-2015 |
Patent application number | Description | Published |
20120317608 | NETWORK RECEIVER AND CONTROL METHOD THEREOF - A network receiver includes a first variable resistor, a second variable resistor, a first processing unit, a second processing unit and an adjusting circuit. The first variable resistor is coupled to a first transmission line via a first terminal for transmitting a first signal. The second variable resistor is coupled to a second transmission line via a second terminal for transmitting a second signal. The first processing unit is utilized for obtaining a difference according to the first signal and the second signal, and processing the difference to generate first data. The second processing unit is utilized for obtaining a summation according to the first signal and the second signal, and processing the summation to generate second data. The adjusting circuit is utilized for adjusting resistance(s) of at least one of the first variable resistor and the second variable resistor according to the first data and the second data. | 12-13-2012 |
20130072133 | SIGNAL TRANSCEIVING METHOD, SIGNAL TRANSCEIVER UTILIZING THE SIGNAL TRANSCEIVING METHOD, NETWORK CONNECTION METHOD AND NETWORK DEVICE UTILIZING THE NETWORK CONNECTION METHOD - A signal transceiving method, applied to a signal transceiver, includes: adjusting to approximate a value of a clock frequency of a signal to be transmitted from the signal transceiver to a value of a clock frequency of a received signal; performing an echo cancellation operation; computing a distance between a first certification code transmitted by the signal transceiver and a second certification code received by the signal transceiver; and stopping the echo cancellation operation when the distance is smaller than a threshold value. | 03-21-2013 |
20130084052 | ELECTRONIC DEVICE AND NETWORK ACCESS MODULE - The disclosure provides an electronic device and a network access module. The electronic device comprises: a multimedia processing module and a network access module. The multi-media processing module comprises a first network control circuit, and the network access module comprises: a second network control circuit, a third network control circuit, at least a fourth network control circuit, a network transmission unit, and a multiplexer. The multiplexer is utilized for selecting at least a multimedia connecting port from a plurality of multimedia connecting ports to connect to the at least a fourth network control circuit, so as to make at least a multimedia device connected to the at least a multimedia connecting port to connect to an external network and access the external network via the at least a fourth network control circuit, the network transmission unit, the third network control circuit, and the network connecting port. | 04-04-2013 |
20130100990 | TRANSCEIVER CAPABLE OF DYNAMICALLY ADJUSTING TRANSMITTER CLOCK AND RELATED METHOD THEREOF - A transceiver for dynamically adjusting a transmission clock includes: a transmitting unit, a receiving unit, and a transmission clock tracking unit. The transmitting unit is arranged for transmitting a transmission signal according to the transmission clock. The receiving unit is arranged for receiving a reception signal. The transmission clock tracking unit is coupled to the transmitting unit and the receiving unit, and arranged for dynamically controlling the transmission clock of the transmitting unit according to a reception clock corresponding to the reception signal. | 04-25-2013 |
20140177698 | Signal transmission device performing compensation by filtering characteristics and method thereof, and signal reception device offsetting compensation and method thereof - The present invention discloses a signal transmission device performing compensation by filtering characteristics for generating a transmission signal according to a pulse amplitude modulation signal. The signal transmission device comprises: a filtering characteristic compensation circuit for generating a compensation signal according to the pulse amplitude modulation signal and a filtering function; a filter coupled to the filtering characteristic compensation circuit for generating a filtered signal through filtering the compensation signal according to the aforementioned filtering function; and an analog front-end circuit for generating the transmission signal according to the filtered signal. | 06-26-2014 |
20140258575 | MASTER-SLAVE DETECTION METHOD AND MASTER-SLAVE DETECTION CIRCUIT - A master-slave detection method includes: every single time period, utilizing a random manner for determining whether a first device is used to transmit a specific pulse signal to a second device; every single time period, utilizing a random manner for determining whether the second device is used to transmit the specific pulse signal to the first device; when the first device receives at least one portion of the specific pulse signal earlier than the second device, setting the first device as a master device, stopping the master device from sending the specific pulse signal and utilizing the master device to start transmitting a specific sequence; and setting the second device as a slave device when the second device receives the specific sequence. The at least one portion of the specific pulse signal includes continuous single pulses. | 09-11-2014 |
20140269974 | Signal level decision device and method - The present invention discloses a signal level decision device to determine the level of a source signal. Said source signal comprises a plurality of source messages along a time axis; each source message corresponds to one of a plurality of normal levels; and each normal level is equivalent to at least one of a plurality of extension levels. The signal decision device comprises: a storage circuit to store the level information of the normal level(s) and the equivalent extension level(s) thereof in connection with some or all of the source messages; a transition parameter calculation circuit to calculate a plurality of transition parameters of the normal level and its equivalent extension level(s) in connection with each of the source messages according to the level information; and a decision circuit to determine the level of each of the source messages according to the plurality of transition parameters. | 09-18-2014 |
20150049656 | IMPEDANCE ADJUSTMENT METHOD, DELAY CAPACITANCE ADJUSTMENT METHOD AND ASSOCIATED APPARATUS FOR COMMUNICATION DEVICE - An impedance adjustment method for a communication device, wherein the communication device has a plurality of impedance paths for selection, includes: selecting an initial impedance path; and utilizing a predetermined algorithm to examine a portion of the plurality of impedance paths by starting from the initial impedance path for selecting an optimized impedance path for the communication device. A delay capacitance adjustment method for a communication device, wherein the communication device has a plurality of delay capacitance paths for selection, includes: selecting an initial delay capacitance path; and utilizing a predetermined algorithm to examine a portion of the plurality of delay capacitance paths by starting from the initial delay capacitance path for selecting an optimized delay capacitance path of the communication device. | 02-19-2015 |
20150052181 | PARAMETER GENERATING DEVICE AND METHOD - The present invention discloses a parameter generating device and the method thereof to generate a parameter for circuit operation in which the parameter corresponds to an N degree polynomial of a characteristic curve while said N is a positive integer. The parameter generating device comprises: a storage circuit to store at least N+1 initial values that are determined by a start value and a unit variation amount; and an parameter calculating circuit, coupled to the storage circuit, to carry out addition calculation for at least [(K−1)×N+1] time(s) if a multiple K is positive or subtraction calculation for at least −K×N time(s) if the multiple K is negative, so as to generate the aforementioned parameter, wherein the multiple K is derived from a difference divided by the unit variation amount while the difference is a current value minus the start value. | 02-19-2015 |
20150185278 | Temperature insensitive testing device and method - The present invention discloses a temperature insensitive testing device comprising: a transmission-end test sequence generating circuit to generate a test sequence; a transmission circuit to process the test sequence according to a transmission clock and thereby generate a test signal; a reception circuit to process an echo of the test signal and generate a digital echo signal; a correlation-value generating circuit to generate correlation values including a maximum correlation value according to the test sequence and the digital echo signal; and a decision circuit to determine whether a relation between the maximum correlation value and at least one threshold satisfies a predetermined condition and thereby generate a decision result, wherein the frequency of the transmission clock is lower than a predetermined frequency which confines the variation of the maximum correlation value to a predetermined range provided that the temperature variation of the transmission cable is within a temperature variation range. | 07-02-2015 |
20160036489 | Signal receiving device for Ethernet and control method thereof - This invention discloses a signal receiving device for Ethernet and a control method thereof. The signal receiving device includes a gain control circuit, an alien near-end crosstalk canceller, a noise canceller, and a DFE. The gain control circuit adjusts an input signal of the signal receiving device according to a setting parameter. The alien near-end crosstalk canceller cancels an alien near-end crosstalk interference. The noise canceller uses a first filter to cancel noises. The DFE uses a second filter to cancel an inter-symbol interference of the input signal. The method includes steps of: temporarily stopping the gain control circuit from updating the setting parameter before a seed collision occurs, and temporarily stopping one of the noise canceller and the decision feedback canceller from updating the first filter coefficient of the first filter or the second filter coefficient of the second filter temporarily during the seed collision. | 02-04-2016 |
20160065495 | Method and circuit for establishing network connection - The present invention discloses a network connection establishing method capable of preventing a link procedure from being strangled in a training state. An embodiment of the method comprises: a preceding step; a training step; and a following step. Said training step includes at least one of the following: counting a number, and returning to the preceding step if a local receiver is not yet ready after finishing counting the number; detecting a reception signal according to a signal detection level, and returning to the preceding step when none of the reception signal is detected; determining a number of level(s) of the reception signal, and returning to the preceding step if the number of level(s) is less than an expected level number; and comparing a signal-to-noise ratio of the reception signal with a signal-to-noise threshold, and returning to the preceding step when the signal-to-noise ratio fails to satisfy the signal-to-noise threshold. | 03-03-2016 |
Patent application number | Description | Published |
20130167635 | MICRO-ELECTRO-MECHANICAL-SYSTEM DEVICE WITH OSCILLATING ASSEMBLY - A micro-electro-mechanical-system (MEMS) device comprising two proof masses disposed in the first frame, such that the MEMS device with oscillating assemblies senses the angular velocity in the two axes, respectively. The MEMS device with oscillating assemblies further comprises a lever structure and two oscillating assemblies connecting at two opposite ends of the lever structure, such that the oscillating assemblies move in opposite directions synchronously. The MEMS device with oscillating assemblies further comprises a spring assembly connected between the proof mass and a movable electrode, restricting the proof mass to drive the movable electrode to only move in a specific direction. | 07-04-2013 |
20140245832 | MICRO-ELECTRO MECHANICAL APPARATUS WITH INTERDIGITATED SPRING - A micro-electro mechanical apparatus with interdigitated spring including a substrate, at least one first mass, a movable electrode, a stationary electrode, an anchor and an interdigitated spring is provided. The movable electrode is disposed on the mass along an axial direction. The stationary electrode is disposed on the substrate along the axial direction, and the movable electrode and the stationary electrode have a critical gap there between. The interdigitated springs connects the mass and the anchor along the axial direction. The interdigitated spring includes first folded portions, first connecting portions, second folded portions, and second connecting portions. Each first folded portion includes two first spans and a first head portion. Each second folded portion includes two second spans and a second head portion. A width of the first span and a width of the second span are greater than the critical gap respectively. | 09-04-2014 |
20140284603 | COMPOSITE MICRO-ELECTRO-MECHANICAL-SYSTEM APPARATUS AND MANUFACTURING METHOD THEREOF - A MEMS apparatus comprising composite vibrating unit and the manufacturing method thereof are disclosed. The vibrating unit includes a stiffness element on which a first material is disposed. A second material being a conductive material is disposed on the first material and is extended to the stiffness element to remove electric charge on first material. When a temperature is changed, a variation direction of a Young's modulus of the first material is opposite to a variation direction of a Young's modulus of the stiffness element. The unique attributes above allow vibrating unit of the MEMS apparatus such as resonator and gyroscope to have stable resonance frequency against the change of temperature. | 09-25-2014 |
20150183632 | MICRO-ELECTRO MECHANICAL APPARATUS WITH PN-JUNCTION - A micro-electro mechanical apparatus having a PN-junction is provided. The micro-electro mechanical apparatus includes a movable mass, a conductive layer, and an electrode. The movable mass includes a P-type semiconductor layer and an N-type semiconductor layer. The PN-junction is formed between the P-type semiconductor layer and the N-type semiconductor layer. The micro-electro mechanical apparatus is capable of eliminating abnormal voltage signal when an alternating current passes through the conductive layer. The micro-electro mechanical apparatus is adapted to measure acceleration and magnetic field. The micro-electro mechanical apparatus can be other types of micro-electro mechanical apparatus such as micro-electro mechanical scanning micro-mirror. | 07-02-2015 |
20150308830 | MICRO-ELECTROMECHANICAL APPARATUS WITH PIVOT ELEMENT - A micro-electromechanical apparatus may include a substrate, a first frame, a plurality of first anchors, a region and a plurality of pivot elements. The plurality of first anchors and the region is disposed on the substrate. The region is surrounded by the plurality of first anchors. Each of the pivot elements includes a pivot end and a rotary end. Each of the pivot ends is connected to a corresponding first anchor and each of the rotary ends is connected to the first frame such that the first frame is able to rotate with respect to an axis passing the region. The micro-electromechanical apparatus having the pivot elements and the region is adapted for detecting multi-degree physical quantities such as angular velocities in at least two axes, angular velocities and accelerations, angular velocities and Earth's magnetic field. | 10-29-2015 |
20160096403 | TIRE POSITIONING METHOD AND TIRE POSITIONING SYSTEM - A tire positioning method includes the following steps. Four wireless signals transmitted from four tires of a car are received by a wireless signal receiver. Each wireless signal includes a uniaxial acceleration. One of the tires which is located at a first location is identified according to the intensity of the wireless signals. The first location is the closest to the wireless signal receiver. When the car makes a turn, one of the tires which is located at a second location is identified according to the direction of each uniaxial acceleration. The second location and the first location are both located at one side of the car. The direction of the uniaxial acceleration of the tire which is located at the first location is identical to that of the tire which is at the second location. The side of the car is right side or left side. | 04-07-2016 |