Patent application number | Description | Published |
20110280523 | OPTOELECTRONIC SOCKET CONNECTOR - An electrical connection system for an optoelectronic socket comprises an optoelectronic socket ( | 11-17-2011 |
20120018747 | LED LEAD FRAME AND METHOD OF MAKING THE SAME - An LED lead frame assembly comprises a wiring board having a plurality set of positive and negative poles arranged on a top surface thereof A plurality of LED chips are disposed on the wiring board, and electrically bonded to the bus line. A transparent cover is arranged upon the wiring board and covering the LED chip and the conductive lead. | 01-26-2012 |
20120028502 | SOCKET CONNECTOR WITH CONTACT TERMINAL HAVING WAVEFORM ARRANGEMENT ADJACENT TO TAIL PORTION PERFECTING SOLDER JOINT - An electrical connector includes an insulative housing with a number of through holes extending therethrough, a number of contacts assembled to the insulative housing, and a number of solder balls disposed in the though holes and each is clasped by the tail and insulative housing. Each contact includes a vertical base portion secured to a first side of the through hole, a contact engaging arm extending from a top end of the base portion, and a solder portion extending from a bottom end of the base portion. The solder portion has a wave arrangement below the base portion and projecting from the base portion to a second side of the through hole which opposites to said first side, and a tail extending downwardly from the wave arrangement and capable of moving from the first side to the second side. | 02-02-2012 |
20120045911 | SOCKET CONNECTOR HAVING CARBON NANOTUBE CONTACTS FOR SIGNAL TRANSMISSION AND METALLIC CONTACTS FOR POWER TRANSIMISSION - A socket connector includes a housing having a base and a plurality of sidewalls extending upwardly from the base. The base and the sidewalls define a receiving cavity for receiving an electronic package. A plurality of carbon nanotube contacts for signal transmission and a plurality of metallic contacts for power transmission are mounted within the housing respectively. | 02-23-2012 |
20120142209 | SOCKET WITH PICK UP CAP - A socket comprises an insulating housing receiving a plurality of contacts, and a pick-up cap engaging with the insulating housing. The pick-up cap has a planar main body covering the insulating housing. The main body is formed with two pivots on a side thereof. The insulating housing is formed with a plurality of sidewalls, one of the sidewall is provided with a pair of mounting seats on an outside thereof, each mounting seat defines a mounting hole with a gap, and the pivots of the pick-up cap enter into the mounting holes via the gaps to pivotally assemble the pick-up cap to the mounting seats. | 06-07-2012 |
20120156919 | SOCKET ASSEMBLY WITH PICK UP CAP - A socket assembly comprises an insulating housing receiving a plurality of contacts, a pick up cap assembled on the insulating housing and a loading plate covering the insulating housing and the pick up cap. The pick up cap is pivotally assembled to one of the sidewalls of the insulative housing at an end thereof and has an operating portion at an opposite end thereof. The loading plate is provided with a latching piece to latch with the operating portion of the pick up cap, so that the loading plate can bring the pick up cap to open. | 06-21-2012 |
20130040499 | ELECTRICAL CONNECTOR WITH DIFFERENT CONTACTS SHARING A SAME SOLDERING LEG - An electrical connector includes an insulative housing defining a tongue plate, a first set of contacts disposed upon the tongue plate, a second set of contacts disposed upon the tongue plate, and an inner PCB retained in the housing. The inner PCB defines at least one input connecting portion, at least one output connecting portion electrically connected with the at least one input connecting portion, and a first soldering leg connecting with the at least one output connecting portion. At least one of the first set of contacts connect with the first soldering leg, and at least one of the second set of contacts connect with the at least one input connecting portion to share the first soldering leg for mounting onto the mother PCB. | 02-14-2013 |
20130323964 | ELECTRICAL CONNECTOR ASSEMBLY HAVING ASSISTANT HEAT DISSIPATING DEVICE - An electrical connector assembly for use with an electronic package, includes an electrical connector having a plurality of contacts, and an assistant heat sink mounted upon the electrical connector and having an opening to allow the electronic package connecting with the contacts. | 12-05-2013 |
Patent application number | Description | Published |
20140292667 | TOUCH PANEL AND MULTI-POINTS DETECTING METHOD - A multi-points detecting method includes proving a touch panel including a plurality of detecting areas including a first detecting area, a second detecting area and a third detecting area. A maximum detecting value of a detecting curve is located in the first detecting area. The first detecting area and the second detecting area are analyzed to obtain a relative distance between a first touch point coordinate and a second touch point coordinate. The touch panel is defined as being touched at the first touch point coordinate or a middle point between the first touch point coordinate and the second touch point coordinate, when the relative distance is less than a predetermined distance. The touch panel is defined as being touched at the first touch point coordinate and the second touch point coordinate, when the relative distance is greater than or equal to the predetermined distance. | 10-02-2014 |
20140320456 | TOUCH PANEL - The present invention relates to a touch panel. The touch panel includes a sensor, an optically clear adhesive layer, and a cover lens. The sensor has a surface. The optically clear adhesive layer is located on the surface of the sensor. The cover lens is located on a surface of the optically clear adhesive layer. The touch panel defines two areas: a touch-view area and a trace area. A space is defined between the sensor and cover lens in the trace area. The space is filled with dielectric material with a permittivity less than a permittivity of the optically clear adhesive layer. | 10-30-2014 |
20150015535 | METHOD OF RECOGNIZING TOUCH - The disclosure relates to a method for recognizing touch on a touch panel. A first value and a second value are set. Sensing value C | 01-15-2015 |
20150029138 | METHOD OF RECOGNIZING TOUCH - The disclosure relates to a method for recognizing touch. A first value T | 01-29-2015 |
20150032395 | METHOD OF RECOGNIZING TOUCH - The disclosure relates to a method for recognizing touch. A first value T | 01-29-2015 |
20150062063 | METHOD OF RECOGNIZING TOUCH - A method for recognizing touch on a touch panel is provided. A value T | 03-05-2015 |
20150062064 | TOUCH SENSITIVE DEVICE - The disclosure relates to a touch sensitive device. The touch sensitive device includes a touch module, a display module. The touch module and the display module are stacked together. The touch module includes a first transparent conductive layer and the display module includes a second transparent conductive layer. A distance between the first transparent conductive layer and the second transparent conductive layer is changeable under a pressure. The first transparent conductive layer and the second transparent conductive layer function as a touch pressure sensing unit together. | 03-05-2015 |
20150062065 | TOUCH SENSITIVE DEVICE - The disclosure relates to a touch sensitive device. The touch sensitive device includes a touch module, a display module, and a second conductive layer. The touch module, the display module and second transparent conductive layer are stacked together. The display modules a first conductive layer. The second transparent conductive layer is spaced from the first conductive layer and located on a side of the display module away from the touch module. A distance between the first conductive layer and the second conductive layer is changeable under a pressure. The first conductive layer and the second conductive layer function as a touch pressure sensing unit together. | 03-05-2015 |
20150062066 | TOUCH SENSITIVE DEVICE - The disclosure relates to a touch sensitive device. The touch sensitive device includes a touch module, a display module, and a second conductive layer. The touch module is a super-thin touch panel including a first transparent conductive layer, a protection layer, and a plurality of electrodes. The second transparent conductive layer is located between the display module and the touch module. The second transparent conductive layer is spaced from the first transparent conductive layer. A distance between the first transparent conductive layer and the second transparent conductive layer is changeable under a pressure. The first transparent conductive layer and the second transparent conductive layer function as a touch pressure sensing unit together. | 03-05-2015 |
20150062079 | METHOD OF LOCATING A TOUCH POINT AND SENSING A TOUCH PRESSURE ON A TOUCH DEVICE - A method of locating a touch point and touch pressure on a touch device includes following steps. A number of first values C | 03-05-2015 |
20150091802 | METHOD FOR CONTROLLING A MOUSE POINTER BY TOUCH PAD - The disclosure relates to a method for controlling a mouse pointer by touch pad. S | 04-02-2015 |
20150091808 | METHOD FOR PREVENTING FALSE ACTIVATION OF TOUCH PAD OF PORTABLE COMPUTER - A method for preventing a false activation of a touch pad of a portable computer is provided. The portable computer includes a display and a base assembly. The base assembly includes a keyboard and a touch pad. The keyboard includes keys and the touch pad has a touch area. In the method, the touch area is divided into a plurality of subareas. Each key corresponds to at least one subarea. A key input is detected. If the key input is detected, the at least one subarea corresponding to the inputting key are maintained as untouchable. | 04-02-2015 |
20150091860 | METHOD FOR PREVENTING FALSE ACTIVATION OF TOUCH PAD - A method for preventing a false activation of a touch pad is provided. In the method, a touch area of the touch pad is divided into subareas. A lock threshold N | 04-02-2015 |
20150145795 | METHOD FOR CONTROLLING TOUCH PANEL - A method for controlling a touch panel is disclosed. A first driving signal is applied to the driving electrodes to obtain a number of first electrical signals on a first area of the touch panel. The first electrical signals are converted into a number of first digital signals by digital analog conversion with a first factor. A second driving signal is applied to a number of driving electrodes to obtain a number of second electrical signals on a second area of the touch panel. The second electrical signals are converted into a number of second digital signals by digital analog conversion with a second factor. The second factor is greater than the first factor. | 05-28-2015 |
20150145825 | METHOD FOR CONTROLLING TOUCH PANEL - A method for controlling a touch panel is disclosed. A first driving signal is applied to the driving electrodes to obtain a number of first electrical signals corresponding to a number of conductive stripes of touch panel. The first electrical signals are converted into a number of first digital signals by digital analog conversion with a first factor. A second driving signal is applied to a number of driving electrodes to obtain a number of second electrical signals corresponding to a number of button electrodes of the touch panel. The second electrical signals are converted into a number of second digital signals by digital analog conversion with a second factor. The second factor is smaller than the first factor. | 05-28-2015 |
20150160755 | TOUCH PANEL AND METHOD FOR DETECTING TOUCH SPOTS OF THE TOUCH PANEL - A touch panel having an anisotropic conductive film is disclosed. A method for detecting a touch spot of the touch panel having the anisotropic conductive film is also disclosed. The method includes the following steps. At least two adjacent first driving electrodes are driven simultaneously to obtain a first signal. At least two adjacent second driving electrodes are driven simultaneously to obtain a second signal. Finally, the touch spot is determined according to the first signal and the second signal. | 06-11-2015 |
20150177849 | TOUCH-CONTROL TYPE KEYBOARD - The present disclosure relates to a touch-control type keyboard. The touch-control type keyboard includes a cover board and a touch module. The cover board includes a first surface and a second surface. The cover board defines a number of keys on the first surface, and at least one of the keys is a function key. The touch-control module is located on the second surface of the cover board. The touch-control module comprises at least two conductive films and an integrated circuit. The at least two conductive films are coplanar and spaced from each other. The at least one function key is independently located at a position corresponding to one of the at least two conductive films. Each of the at least two conductive films is independently electrically connected to the integrated circuit. | 06-25-2015 |
20150205410 | METHOD FOR DETECTING TOUCH POINTS ON A CAPACITIVE TOUCH PANEL - A method for determining touch point coordinates on capacitive type touch panel includes following steps. A touch panel with single conductive layer with a number of first electrodes and a number of second electrodes is provided, wherein each of first electrodes and second electrodes includes a number of regions with different resistance respectively. A first signal value A | 07-23-2015 |
20150205411 | METHOD FOR DETECTING TOUCH POINTS ON A TOUCH PANEL - A method for determining touch point coordinates on capacitive type touch panel includes following steps. A touch panel having a conductive layer, a plurality of first electrodes, and a plurality of second electrodes is provided. A first signal curve A | 07-23-2015 |
20150309620 | TOUCH PANEL - The disclosure relates to a touch panel. The touch panel includes a conductive layer including a number of first electrodes, a number of second electrodes and a number of conductive wires. Each first electrode and second electrode is electrically connected to one conductive wire. Each first electrode includes at least one first bus bar extending along a Y direction, and each second electrode includes at least one second bus bar extending along the Y direction. The first bus bars and the second bus bars are alternately arranged along a X direction. The touch panel further includes a first offset electrode adjacent to an edge of the conductive layer, spaced from the outermost first bus bar, and electrically connected to one of the second bus bars that is adjacent to the outermost first bus bar. The first offset electrode includes a third bus bar extending along the Y direction. | 10-29-2015 |
20150309635 | METHOD FOR USING A CONTROLLER ON A TOUCH SENSITIVE DEVICE - The disclosure relates to a method for using a controller on a touch sensitive device. The touch sensitive device includes a touch pad and an integrated circuit (IC) electrically connected to the touch pad. The method includes: providing at least one controller; identifying the at least one controller; detecting position of electrical signal of the at least one controller; locating the at least one controller; detecting varying of the electrical signal of the at least one controller; processing the varying of electrical signal; and sending out an order. | 10-29-2015 |
20150363037 | CONTROL METHOD OF TOUCH PANEL - A control method of a touch panel is provided. In the method, the touch panel senses a plurality of touch signals in succession on a timeline generated by a continuous touch on the surface of the touch panel, converts the plurality of touch signals to a plurality of touch coordinates, a first touch track is formed by the plurality of touch coordinates. The touch panel determines if there is a first touch signal sensed on the boundary. The touch panel determines if there is a second touch signal sensed on the timeline in a preset time threshold. The touch panel obtains a second touch track beginning from the second touch signal, and fits the first touch track and the second touch track into one complete touch track, or recognizes the first touch track and the second touch track as two independent tracks. | 12-17-2015 |
Patent application number | Description | Published |
20110230100 | SOCKET CONNECTOR WITH CONTACT TERMINALS ARRANGED RADIALLY CREATING DIFFERENT PITCHES IN DIFFERENT AREA - An electrical connector includes an insulative housing defining a plurality of passageways and a plurality of contacts disposed in the passageways by two arrangement manners. Each contact includes a mating portion located at an upper end and a soldering portion located at a bottom end. Wherein a first arrangement manner is that neighboring mating portions defined a distance in a same row is smaller than a distance defined by corresponding neighboring soldering portions, and neighboring mating portions defined a distance in a same column is equal to a distance defined by corresponding neighboring soldering portions. A second arrangement manner is that neighboring mating portions defined a distance in both a same row and a same column is smaller than a distance defined by corresponding neighboring soldering portions. | 09-22-2011 |
20120015559 | SOCKET WITH LOWER CONTACTS WITH CONFIGURATION - A socket for receiving an IC (integrate circuit) package comprises an insulative housing and a plurality of contacts. The insulative housing defines a plurality of contact passageways for receiving the contacts. Each contact has a retaining portion, an elastic arm and a soldering portion, and the retaining portion is formed with a first part, a second part and a bending part between the first and the second parts. Each of the first and the second parts is formed with a protrusion on an outside lateral edge thereof away from the bending part for interfering with the contact passageway of the insulative housing to retain the contact to the insulative housing. | 01-19-2012 |
20120018747 | LED LEAD FRAME AND METHOD OF MAKING THE SAME - An LED lead frame assembly comprises a wiring board having a plurality set of positive and negative poles arranged on a top surface thereof A plurality of LED chips are disposed on the wiring board, and electrically bonded to the bus line. A transparent cover is arranged upon the wiring board and covering the LED chip and the conductive lead. | 01-26-2012 |
20120028502 | SOCKET CONNECTOR WITH CONTACT TERMINAL HAVING WAVEFORM ARRANGEMENT ADJACENT TO TAIL PORTION PERFECTING SOLDER JOINT - An electrical connector includes an insulative housing with a number of through holes extending therethrough, a number of contacts assembled to the insulative housing, and a number of solder balls disposed in the though holes and each is clasped by the tail and insulative housing. Each contact includes a vertical base portion secured to a first side of the through hole, a contact engaging arm extending from a top end of the base portion, and a solder portion extending from a bottom end of the base portion. The solder portion has a wave arrangement below the base portion and projecting from the base portion to a second side of the through hole which opposites to said first side, and a tail extending downwardly from the wave arrangement and capable of moving from the first side to the second side. | 02-02-2012 |
20120064742 | ELECTRICAL ASSMEBLY AND SOCEKG CONNETOR THEREIN - The present invention relates to an electrical assembly for connecting an IC package. The assembly includes at least an upper and a lower layer stacked with each other, wherein the upper layer is formed with an opening for receiving a socket connector. The socket connector has contacts electrically connected to conductive traces respectively provided on the upper and the lower layer. | 03-15-2012 |
20120100758 | SOCKET CONNECTOR WITH CONTACT TERMINAL HAVING OXIDATION-RETARDING PREPARATION ADJACENT TO SOLDER PORTION PERFECTING SOLDER JOINT - Provided herewith a socket connector adapted to be mounted on a substrate having a conductive element is provided, and comprises an insulative housing, the housing having an exterior side adapted to face the substrate. A stamped contact is formed from a sheet of conductive material and is adapted to mate with a conductive component and extending substantially to the exterior side of the housing. The contact has a connection portion and wherein a substantially dried preparation of oxidation retarding and solder affinity deployed on the terminal portion before the contact assembled into the connector. The connector further includes a body of reflowable, electrically conductive material associated adjacent to the connection portion adjacent the exterior side of the housing. | 04-26-2012 |
20120103682 | LEAD FRAME HAVING METAL CUP WITH ENLARGED HEAT-DISSPIATION AREA - A lead frame includes an insulative housing defining a cavity, a plurality of leads mounted with the housing and a metal cup mounted within the housing. Each lead includes contacting section exposed in the cavity. The metal cup includes a bottom plate and an inclined cup wall. The bottom plate is formed with a flange extending outwardly therefrom such that a slot is defined between the flange and the cup wall to receive the resin material of the housing. | 05-03-2012 |
20120115367 | METHOD FOR INTEGRATING AND ERECTING CARBON NANOTUBE COLUMN - A method for integrating and erecting CNT column, comprises following steps of: 1) providing a conductive layer; 2) applying a non-conductive layer over the conductive layer; 3) forming a via on the non-conductive substrate; 4) placing an electrode above the via; 5) deploying dispersive liquid containing CNT powder into the via; 6) applying a predetermined AC electric field between the conductive substrate and the electrode for integrating and erecting the CNT powder into CNT column under electric field force. | 05-10-2012 |
20120202384 | SOCKET CONNECTOR WITH CONTACT TERMINAL HAVING OXIDATION-RETARDING PREPARATION ADJACENT TO SOLDER PORTION PERFECTING SOLDER JOINT - An electrical connector having a fusible element for mounting on a substrate includes an insulative housing and a contact terminal retained in the insulative housing. The contact terminal includes a resilient contacting arm extending beyond a mating face of the insulative housing and a soldering portion for mating with the fusible element. A gelatinous flux is deployed on the fusible element, and/or on the soldering portion, and/or between the fusible element and the soldering portion, and then flux is dried to immovably fix the fusible element with respect to the soldering portion. The dried flux will be re-juvenile to clean and remove an oxidized layer originally existed on the soldering portion so as to achieve robust welding quality. Besides, a method for trimming an electrical connector to have robust welding properties is also disclosed. | 08-09-2012 |
20130323964 | ELECTRICAL CONNECTOR ASSEMBLY HAVING ASSISTANT HEAT DISSIPATING DEVICE - An electrical connector assembly for use with an electronic package, includes an electrical connector having a plurality of contacts, and an assistant heat sink mounted upon the electrical connector and having an opening to allow the electronic package connecting with the contacts. | 12-05-2013 |
20140335729 | DUAL ORIENTATION CONNECTOR AND ASSEMBLY OF THE SAME - An electrical connector includes an insulative housing with a base and a mating tongue extending forwardly in a front-to-rear direction from the base, the mating tongue defining a first surface and a second surface opposite to each other. A plurality of contact strips are disposed around the outer surface of the mating tongue of the insulative housing, each contact strip is stamped a metal sheet and defines a first contacting section exposed upon the first surface and arranged along a transverse direction perpendicular to the front-to-rear direction, and a second contacting section exposed upon the second surface and arranged along the transverse direction. The first and second contacting sections of each contact strip extend along the front-to-rear direction and rearwardly extending into the base of the insulative housing. | 11-13-2014 |
20140377969 | ELECTRICAL CONNECTOR HAVING SHIELDING SHELL WITH REAR WALL - An electrical connector includes a base seat, a plurality of contacts fixed in the base seat and a shielding shell surrounding the base seat. The shielding shell definies a body portion retained in the base seat, a rear wall attached the rear face of the base seat, a pair of first soldering portions extending outside of the body portion and a pair of second soldering portions bending from the rear wall. The first soldering portion and the corresponding second soldering portion are adjacent to each other to form a same soldering position. | 12-25-2014 |
20150024612 | FLIPPABLE ELECTRICAL CONNECTOR - A plug connector includes a connector tab connected to and extending longitudinally away from a rear body, the tab includes opposite first and second major surfaces. A first plurality of contacts is carried by the tab on the first major surface and a second plurality of contacts is carried by the tab on the second major surface. The contacts include differential signal pairs. Each pair of the differential signal pairs is consisting of two individual contacts and said two contacts are located adjacent to each other but at the first and second main surface respectively. | 01-22-2015 |
20150044886 | FLIPPABLE ELECTRICAL CONNECTOR - A plug connector includes a mating tongue defining top and bottom surfaces thereon. Each surface is provided with a plurality of conductors in one row wherein the characters/categories of the conductors on the top surface are sequentially arranged to be same with those on the bottom surface with a pair of power conductors in two notches at two lateral side edges. The corresponding receptacle connector mounted upon a printed circuit board, defines a receiving cavity to receive the mating tongue therein. Opposite top and bottom rows of contacts are respectively located by upper and bottom sides of the receiving cavity and categorized essentially in a same sequence with the conductors of the plug connector for respectively connecting to the corresponding conductive pads, respectively. A pair of power contacts are located by two lateral sides of the receiving cavity to couple to the corresponding power conductor portions in the notches. | 02-12-2015 |
20150072562 | FLIPPABLE ELECTRICAL CONNECTOR - A plug connector includes a mating tongue defining top and bottom surfaces thereon. Each surface is provided with a plurality of conductors in one row wherein the characters/categories of the conductors on the top surface are sequentially arranged to be same with those on the bottom surface with a pair of power conductors in two notches at two lateral side edges. The corresponding receptacle connector mounted upon a printed circuit board, defines a receiving cavity to receive the mating tongue therein. Opposite top and bottom rows of contacts are respectively located by upper and bottom sides of the receiving cavity and categorized essentially in a same sequence with the conductors of the plug connector for respectively connecting to the corresponding conductive pads, respectively. A pair of power contacts are located by two lateral sides of the receiving cavity to couple to the corresponding power conductor portions in the notches. | 03-12-2015 |
20150093936 | FLIPPABLE ELECTRICAL CONNECTOR - A receptacle connector mounted to the printed circuit board, includes an insulative housing defining a mating tongue and a metallic shell enclosing the housing to form a mating cavity in which said mating tongue forwardly extends. A complementary plug connector includes a shell with a bull-nose tip. A metallic piece is mounted around a root of the mating tongue and equipped with a plurality of spring tangs to contact the relatively rigid bull-nose tip of the shell of the complementary connector for EMI/RFI protection. | 04-02-2015 |
20150126069 | FLIPPABLE ELECTRICAL CONNECTOR - A flappable plug connector and a complementary receptacle connector are provided wherein the plug connector defining a mating tongue, is made with a pair of insert molding housings which are associated with the contacts thereof, commonly sandwiching a paddle card therebetween with a pair of power contacts exposed on two opposite lateral sides to form a sub-assembly. The corresponding receptacle connector defines a receiving cavity to receive the mating tongue of the plug connector. The plug connector defines a V-Bus clip surrounding the mating tongue for power transfer and the receptacle connector includes a pair of deflectable power contacts by two sides of the receiving cavity. | 05-07-2015 |
20150194768 | FLIPPABLE ELECTRICAL CONNECTOR - An electrical connector adapted for mounting on a printed circuit board, includes an insulating housing including a rear base and a front mating tongue, a plurality of contacts retained in the insulating housing and including contacting sections arranged on the mating tongue and mounting tails out of the insulating housing a shielding retained on the insulating housing and including a front mating port section thereby defining a mating cavity between the mating port section and the mating tongue and a metallic bracket attached on the shielding. The bracket defines a pair first supporting legs adjacent to the mating port sections which has no supporting leg split therefrom. | 07-09-2015 |
20150194770 | FLIPPABLE ELECTRICAL CONNECTOR - An electrical connector includes an insulative housing defining a forwardly extending mating tongue, a plurality of contacts with contacting sections exposed upon the mating tongue and a metallic shield enclosing the insulative housing to define a mating cavity. A metallic shielding plate is embedded within the mating tongue and forms a pair of locking notches in two opposite lateral sides. The mating tongue further includes in two opposite lateral sides a pair of recesses aligned with and intimately located inside of the pair of locking notches, respectively, in the transverse direction. The housing and the corresponding contacts commonly form the terminal module which is composed of an upper terminal module, a lower terminal module commonly sandwiching a shielding plate module therebetween in the vertical direction. The metallic shield optionally defines a clip structure by folding an extension on a rear lower edge thereof. | 07-09-2015 |
20150194772 | FLIPPABLE ELECTRICAL CONNECTOR - A plug connector for use with a complementary receptacle connector, includes an insulative housing defining a receiving cavity therein and a plurality of passageways on opposite of the mating cavity, a pair of terminal modules stacked on each other and a metallic shell. Each terminal module includes an insulator and a plurality of contacts loaded on insulator, the contacts includes contacting sections extending out of the insulator and tail extending out of the insulator. The insulators of the stacked terminal modules are located behind the insulative housing and the contacting sections of the contacts are disposed in the corresponding passageways. The terminal modules and the insulative housing are commonly enclosed in the metallic shell. | 07-09-2015 |
20150200504 | FLIPPABLE ELECTRICAL CONNECTOR - A receptacle connector includes a housing defining a base and a mating tongue forwardly extending therefrom, a first row of contacts disposed in the housing with contacting sections and surface mount type tail sections for mounting on a PCB, a second row of contacts disposed in the housing with contacting sections and through hole type tail sections for mounting in the PCB; a metallic shield including a capsular segment surrounding the mating tongue to define a mating cavity and a rear wall covering a rear face of the base to surrounding the surface mount type tail sections and a lower bracket attached to the metallic shielding. The lower bracket is located upon a bottom side of the shield and includes a bottom wall, two sidewalls and a rear wall commonly surrounding the through hole type tail sections | 07-16-2015 |
20150207280 | FLIPPABLE ELECTRICAL CONNECTOR - A plug connector mateable with the receptacle connector, includes an insulative housing enclosed in a metallic shell, defining a receiving cavity to receive the mating tongue, and equipped with a plurality of contacts on opposite sides in the vertical direction. A latch forms a pair of locking heads extending into two opposite lateral sides of the receiving cavity to lock with a shielding plate embedded within a mating tongue of the complementary receptacle connector during mating. | 07-23-2015 |
20150222059 | FLIPPABLE ELECTRICAL CONNECTOR - A plug connector mateable with the receptacle connector, includes an insulative housing enclosed in a metallic shell, defining a receiving cavity to receive the mating tongue, and equipped with a plurality of contacts on opposite sides in the vertical direction. A latch forms a pair of locking heads extending into two opposite lateral sides of the receiving cavity to lock with a shielding plate embedded within a mating tongue of the complementary receptacle connector during mating. | 08-06-2015 |
20150229077 | FLIPPABLE ELECTRICAL CONNECTOR - A receptacle connector includes an insulative housing with a mating tongue, a plurality of contacts having front contacting sections exposed upon two opposite surfaces of the mating tongue and rear tail sections extending downwardly outside of the housing for mounting to a printed circuit board. A metallic shield encloses said housing and forms a capsular mating cavity with said mating tongue extending forwardly therein. A metallic shielding plate includes a front horizontal section embedded with the mating tongue to isolate the contacting sections of the contacts which are located on two different opposite surfaces, and a rear vertical section extending downwardly from a rear edge of the front horizontal section to isolate the tail sections of the contacts which are arranged in two rows with said rear vertical section therebewteen. | 08-13-2015 |
20150244098 | ELECTRICAL CONNECTOR HAVING IMPROVED INSULATIVE HOUSING - An electrical connector includes an insulative housing having a mating tongue, a plurality of first contacts retained in the housing and exposed upon a first mating face of the mating tongue, and a plurality of second contacts retained in the housing and exposed upon a second mating face of the mating tongue. The first contacts offset with the second contacts in a front elevational view. The mating tongue defines a receiving room at a front portion thereof and extending in a transverse direction, the receiving room runs through the first mating face to directly face to the first contacts and synchronously runs through the second mating face to directly face to the second contacts, which is suitable for minimization. | 08-27-2015 |
20150255905 | FLIPPABLE ELECTRICAL CONNECTOR - A receptacle connection assembly includes a printed circuit board defining two spaced slots in a front edge portion with a mating tongue formed therebetween, a plurality of pads formed on two opposite surfaces of the mating tongue in a diagonally symmetrical manner for a flippable usage and a metallic shield including a tubular capsular portion assembled to the PCB to enclose the mating tongue. | 09-10-2015 |
20150318646 | FLIPPABLE ELECTRICAL CONNECTOR - A plug for provision of power includes a housing forming a receiving cavity with two opposite sites in a vertical direction which is compatible with a standard plug connector with twelve contacts on each site and a first and second rows of contacts on the sides while in diagonally symmetrical manner. Each contact includes a contacting section, and a connecting section for directly connecting to a corresponding wire. Each row of contacts is categorized with a pair of power contacts, a pair of grounding contacts and a specific contact without any high speed differential pair. Two pair of power contacts of both two rows are electrically connected together either via direct mechanical connection via vertical extensions or via indirect electrical connection via the latch which has a pair of side arms extending into the receiving cavity at two opposite transverse ends. | 11-05-2015 |
20150372424 | FLIPPABLE ELECTRICAL CONNECTOR - A receptacle connector assembly includes an insulative housing defining base with a mating tongue forwardly extending therefrom in a front-to-back direction, a plurality of contacts disposed in the housing with contacting sections exposed upon the mating tongue, a metallic shield enclosing the housing to define a capsular mating cavity in which the mating tongue is disposed and a metallic shielding plate embedded within the mating tongue and defining a pair of lateral edge sections. The metallic shield defines an identification protrusion extending into the mating cavity so as to preclude from mating with a standard plug connector, which has a contour compliant with said capsular mating cavity, but with a customized plug connector which also has a contour compliant with said capsular mating cavity and further with a corresponding slot to receive said identification protrusion. | 12-24-2015 |
Patent application number | Description | Published |
20120193203 | CARBON NANOTUBE BASED KEYBOARD - A keyboard includes a first substrate, a second substrate, a first electrode layer and a second electrode layer. The first substrate includes a first upper surface and a first lower surface. The second substrate is located apart from the first substrate and includes a second upper surface and a second lower surface. The second upper surface faces the first lower surface. The first electrode layer is located on the first lower surface and includes a first conductive layer including a carbon nanotube layer structure. The second electrode layer is located on the second upper surface and includes a second conductive layer. A number of keys is located on the first upper surface or the second lower surface. | 08-02-2012 |
20120193204 | CARBON NANOTUBE BASED KEYBOARD - A keyboard includes a first substrate, a second substrate, a first electrode layer, and a second electrode layer. The first substrate includes a first upper surface and a first lower surface opposite the first upper surface. The second substrate is positioned apart from the first substrate and includes a second upper surface and a second lower surface. The second upper surface faces the first lower surface. The first electrode layer is positioned on the first lower surface and includes a number of first conductive layers disposed apart from each other and including a carbon nanotube layer structure. The second electrode layer is positioned on the second upper surface and includes a second conductive layer. A number of keys is positioned on the first upper surface or the second lower surface. | 08-02-2012 |
20120193205 | CARBON NANOTUBE BASED KEYBOARD - A keyboard includes a first substrate, a second substrate, a first electrode layer and a second electrode layer. The first substrate includes a first upper surface and a first lower surface opposite the first upper surface. The second substrate is positioned apart from the first substrate and includes a second upper surface and a second lower surface. The second upper surface faces the first lower surface. The first electrode layer is positioned on the first lower surface and comprises a plurality of first conductive layers disposed apart from each other and including at least one lead wire. The second electrode layer is positioned on the second upper surface and includes a second conductive layer including a carbon nanotube layer structure. A plurality of keys is positioned on the first upper surface or the second lower surface. | 08-02-2012 |
20140085708 | ELECTRONIC PAPER DISPLAY DEVICE - An electronic paper display device includes an electronic paper display panel, and a functional layer. The electronic paper display panel includes a display surface. The functional layer is located on the display surface and includes a carbon nanotube touching functional layer, an anti-glare layer, and a waterproof layer. The carbon nanotube touching functional layer is located between the anti-glare layer and the electronic paper display panel. The waterproof layer is located between the carbon nanotube touching functional layer and the electronic paper display panel. | 03-27-2014 |
20140340590 | TOUCH PANEL - A touch panel includes a substrate, a first conductive layer and a second conductive layer. The substrate includes a first surface and a second surface opposite with the first surface. The first conductive layer is located on the first surface and includes a plurality of first conductive films located apart from each other. The second conductive layer is located on the second surface and includes a carbon nanotube layer structure. A resistivity of the carbon nanotube layer structure along the first direction is larger than a resistivity of the carbon nanotube layer structure along a second direction perpendicular with the first direction. | 11-20-2014 |
20140347575 | CAPACITANCE TOUCH PANEL - A touch panel includes a cover glass having a surface, a transparent conductive layer located on the surface of the cover glass and having a first side and a second side opposite to the first side, at least one first electrode located on the first side and electrically connected with the transparent conductive layer, and at least one second electrode located on the second side and electrically connected with the transparent conductive layer. The transparent conductive layer includes a carbon nanotube film with resistance anisotropy. The carbon nanotube film has the smallest resistance along a low resistance direction D from the first side of the transparent conductive layer to the second side of the transparent conductive layer. | 11-27-2014 |
20140353020 | TOUCH PANEL - A touch panel defines a touch region and a routing region. The touch panel includes a substrate, a transparent conductive layer, at least one electrode and at least one lead wire. The substrate has a surface and includes a planar part and a folded part extending from the planar part. The transparent conductive layer is located on the surface of the substrate. At least a first part of the transparent conductive layer is located on the planar part and located in the touch region. The at least one electrode is electrically connected to the conductive layer. The at least one lead wire is electrically connected to the at least one electrode in a one-to-one manner. At least part of the at least one lead wire is located on the folded part. The folded part is located in at least part of the routing region. | 12-04-2014 |
20140354896 | TOUCH PANEL - A capacitive touch panel includes an insulated substrate, a first conductive film and a second conductive film. The insulated substrate includes a first surface and a second surface. The first conductive film and the second conductive film are anisotropic in their electrical resistance. The first conductive film is located on the first surface of the insulated substrate. The second conductive film is located on the second surface of the insulated substrate. A minimum electrical resistance direction of the first conductive film is perpendicular to a minimum electrical resistance direction. At least one of the first conductive film and the second conductive film is a carbon nanotube film. | 12-04-2014 |
20140354902 | TOUCH PANEL - A touch panel includes an insulated substrate including a planar part and a folded part extending from the planar part; a transparent conductive layer located on the planar part and the folded part; a plurality of planar electrodes located on the planar part and electrically connected to the transparent conductive layer; and at least one side electrode located on the folded part and electrically connected to the transparent conductive layer on the folded part. The planar electrodes, the transparent conductive layer and the planar part are formed into a planar touch module configured to detect a planar input signal resulted from the planar part. The at least one side electrode the folded part and the transparent conductive layer on the folded part are formed into a side touch module configured to sense a side input signal resulted from at least one virtual key corresponding the at least one side electrode. | 12-04-2014 |
20150062064 | TOUCH SENSITIVE DEVICE - The disclosure relates to a touch sensitive device. The touch sensitive device includes a touch module, a display module. The touch module and the display module are stacked together. The touch module includes a first transparent conductive layer and the display module includes a second transparent conductive layer. A distance between the first transparent conductive layer and the second transparent conductive layer is changeable under a pressure. The first transparent conductive layer and the second transparent conductive layer function as a touch pressure sensing unit together. | 03-05-2015 |
20150062065 | TOUCH SENSITIVE DEVICE - The disclosure relates to a touch sensitive device. The touch sensitive device includes a touch module, a display module, and a second conductive layer. The touch module, the display module and second transparent conductive layer are stacked together. The display modules a first conductive layer. The second transparent conductive layer is spaced from the first conductive layer and located on a side of the display module away from the touch module. A distance between the first conductive layer and the second conductive layer is changeable under a pressure. The first conductive layer and the second conductive layer function as a touch pressure sensing unit together. | 03-05-2015 |
20150062066 | TOUCH SENSITIVE DEVICE - The disclosure relates to a touch sensitive device. The touch sensitive device includes a touch module, a display module, and a second conductive layer. The touch module is a super-thin touch panel including a first transparent conductive layer, a protection layer, and a plurality of electrodes. The second transparent conductive layer is located between the display module and the touch module. The second transparent conductive layer is spaced from the first transparent conductive layer. A distance between the first transparent conductive layer and the second transparent conductive layer is changeable under a pressure. The first transparent conductive layer and the second transparent conductive layer function as a touch pressure sensing unit together. | 03-05-2015 |
20150062079 | METHOD OF LOCATING A TOUCH POINT AND SENSING A TOUCH PRESSURE ON A TOUCH DEVICE - A method of locating a touch point and touch pressure on a touch device includes following steps. A number of first values C | 03-05-2015 |
Patent application number | Description | Published |
20140022724 | HEAT DISSIPATION APPARATUS - A heat dissipation apparatus includes a motherboard has a first heat source and a second heat source thereon, a heat transmission module and a cooling fan. One terminal of the heat transmission module contacts the first heat source. The heat transmission module transmits heat from the first heat source to another terminal of the heat transmission module. The cooling fan has a first air inlet opening, a first air outlet opening and a second air outlet opening. The first air outlet opening faces the another terminal of the heat transmission module. The second air outlet opening faces the second heat source. The cooling fan rotates and generates airflow that flows from the first air outlet opening to the another terminal of the heat transmission module. The cooling fan rotates and generates airflow that flows from the second air outlet opening to the second heat source. | 01-23-2014 |
20140061221 | VENDING MACHINE WITH TEMPERATURE CONTROL SYSTEM - A vending machine includes a rack, and a temperature control system. The rack includes a rear plate. The temperature control system is secured to the rack and includes an evaporator. The evaporator includes an installation box, a plurality of fins, and a fan. The plurality of fins is secured to the installation box. The fan is secured to the installation box and inclined to the plurality of fins, and an acute angle is defined between an air outlet of fan and the rear plate. | 03-06-2014 |
20140078678 | ELECTRONIC DEVICE WITH HEAT DISSIPATING MODULE - An electronic device includes a circuit board, a heat dissipating module, and a latch member. A heat generating part is located on the circuit board. The heat dissipating module includes a plurality of heat pipes and a heat sink. The heat sink abuts the heat generating part, and the plurality of heat pipes abuts the heat sink. The latch member clips the heat sink, to prevent the heat sink from disengaging from the heat generating part, and the plurality of heat pipes are clipped between the heat sink and the latch member. | 03-20-2014 |
20140187141 | HEAT DISSIPATION APPARATUS FOR EXPANSION BASE - A heat dissipation apparatus includes an expansion base, a fan, an air duct, and a portable device. A number of air inlet slots and an inserting slot are defined in the expansion base. The air duct and the portable device are inserted in the inserting slot. A first air inlet opening and a first air outlet opening are defined in the air duct. An airflow passage is defined between the air inlet slot, the fan, the first air inlet opening, the air duct, the first air outlet opening, and the portable device. The fan is adapted to generate airflow through the portable device in such a manner that airflow flows from the expansion base outside is sucked into and blown out of the portable device via the airflow passage. | 07-03-2014 |
20140209282 | HEAT DISSIPATION APPARATUS FOR EXPANSION BASE - A heat dissipation apparatus includes an expansion base, an air duct, a fan, and a portable device. An air inlet slot, a first inserting slot, and a second inserting slot are defined in the expansion base. The air duct is inserted in the first inserting slot. A first air inlet opening and a plurality of diagonal air outlet slots are defined in the air duct. The portable device is inserted in the second inserting slot. A first airflow passage is defined between the air inlet slot, the fan, the first air inlet opening, the air duct, and the plurality of air outlet slots. The fan is adapted to generate airflow through the portable device in such a manner that airflow flows from the expansion base outside is sucked into and blown out of the air duct via the first airflow passage. | 07-31-2014 |
20140209283 | HEAT DISSIPATION APPARATUS FOR EXPANSION BASE - A heat dissipation apparatus includes an expansion base, an air duct, a fan, a heat sink, and a portable device. A number of air inlet slots is defined in the expansion base. A first air inlet opening and a number of diagonal air outlet slots are defined in the air duct. A third air inlet opening and a third air outlet opening are defined in the portable device. The fan generates airflow through the portable device in such a manner that airflow flows from the expansion base outside is sucked into and blown out of the air duct via a first airflow passage. The portable device guides airflow in and out of the portable device via a second airflow passage. | 07-31-2014 |