TIANJIN FUNAYUANCHUANG TECHNOLOGY CO.,LTD. Patent applications |
Patent application number | Title | Published |
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 |
20150070298 | TOUCH PANEL AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME - A touch panel includes a substrate with a surface and a patterned transparent conductive layer located on the surface of the substrate. The patterned transparent conductive layer includes a plurality of pairs of sensor electrodes arranged adjacent to each other in an X direction. Each of the plurality of pairs of sensor electrodes includes a first electrode and a second electrode opposite to the first electrode. A pattern of the first electrode and the second electrode is designed as a right triangle shape or a right angled trapezoid shape. One side of the right triangle shape or the right angled trapezoid shape parallel to a Y direction extends in a plurality of zigzag shapes, wherein the X direction is perpendicular to the Y direction. The present invention also relates to a liquid crystal display device including the touch panel. | 03-12-2015 |
20150062452 | TOUCH PANEL - A touch panel is disclosed. The touch panel comprises a first electrode plate and a second electrode plate spaced from first electrode plate. The first electrode plate comprises a first conductive layer and a second conductive layer opposite to the first conductive layer. The first conductive layer and the second conductive layer form a two-dimensional coordinate touching module. The second electrode plate comprises a third conductive layer. A distance between the second conductive layer and the third conductive layer is deformable. The second conductive layer and the third conductive layer form a third-dimensional coordinate touching module. | 03-05-2015 |
20150062450 | TOUCH PANEL AND METHOD FOR MAKING THE SAME - A touch panel includes an insulative substrate, a first adhesive layer, a first transparent conductive layer, a second adhesive layer, a second transparent conductive layer, a number of first electrodes, a first conductive trace, a number of second electrode, and a second conductive trace. The insulative substrate, the first adhesive layer, the first transparent conductive layer, the second adhesive layer, and the second transparent conductive layer are stacked with each other in that order. The first transparent conductive layer and the second transparent conductive layer are electrically insulated from each other only by the second adhesive layer. The second adhesive layer only covers part of the first transparent conductive layer so that the first transparent conductive layer has at least part exposed. A method for making the touch panel is also related. | 03-05-2015 |
20150062072 | METHOD FOR DETECTING TOUCH POINTS OF TOUCH PANEL - A method for detecting a touch point of a touch panel is disclosed. A first driving signal is applied to a first conductive layer or a second conductive layer to obtain a capacitance variety ΔC | 03-05-2015 |
20150062071 | METHOD FOR DETECTING TOUCH POINTS OF TOUCH PANEL - A method for detecting a touch point of a touch panel is disclosed. A first driving signal is applied to a first conductive layer or a second conductive layer to obtain a capacitance variety ΔC | 03-05-2015 |
20150062068 | SENSING METHOD BASED ON CAPACITIVE TOUCH PANEL - A sensing method based on a capacitive touch panel is provided. The capacitive touch panel includes a touch sensor, a pressure sensor, and a deformable insulating layer disposed between the touch sensor and the pressure sensor to form a gap between the touch sensor and the pressure sensor. In the sensing method, at least one touch position is located using the touch sensor. Pressure information is sensed based on a number of self-capacitance variation values detected from the pressure sensor. The self-capacitance variation values are generated by a deformation of the deformable insulating layer under an external force. | 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 |
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 |
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 |
20150062063 | METHOD OF RECOGNIZING TOUCH - A method for recognizing touch on a touch panel is provided. A value T | 03-05-2015 |
20150060391 | METHOD FOR MAKING TOUCH PANEL - A method for making a touch panel is provided. A number of first transparent conductive layers are formed on an insulative substrate. Each of the first transparent conductive layers is resistance anisotropy. An adhesive layer is formed on the insulative substrate to cover only part of the first transparent conductive layers. A carbon nanotube layer is formed on the adhesive layer. The carbon nanotube layer is patterned to obtain a number of second transparent conductive layers spaced from each other and with each corresponding to one first transparent conductive layer. A number of first electrodes, a first conductive trace, a number of second electrodes, and a second conductive trace are formed contemporaneously. | 03-05-2015 |
20150060251 | TOUCH PANEL AND METHOD FOR MAKING THE SAME - A touch panel includes an insulative substrate, a first adhesive layer, a first transparent conductive layer, a second adhesive layer, a second transparent conductive layer, a number of first electrodes, a first conductive trace, a number of second electrode, and a second conductive trace. The insulative substrate, the first adhesive layer, the first transparent conductive layer, the second adhesive layer, and the second transparent conductive layer are stacked with each other in that order. The first transparent conductive layer and the second transparent conductive layer are electrically insulated from each other only by the second adhesive layer. A method for making the touch panel is also related. | 03-05-2015 |
20150059971 | METHOD FOR MAKING TOUCH PANEL - A method for making a touch panel is provided. A number of first transparent conductive layers are formed on an insulative substrate. Each of the first transparent conductive layers is resistance anisotropy. A number of first electrodes and a first conductive trace are formed corresponding to each first transparent conductive layer. An adhesive layer is formed on the insulative substrate to cover the first transparent conductive layers. A carbon nanotube layer is formed on the adhesive layer. The carbon nanotube layer is patterned to obtain a number of second transparent conductive layers spaced from each other and with each corresponding to one first transparent conductive layer. A number of second electrode and a second conductive trace are formed corresponding to each second transparent conductive layer. | 03-05-2015 |
20150059970 | METHOD FOR MAKING TOUCH PANEL - A method for making a touch panel is provided. A number of first transparent conductive layers are formed on an insulative substrate. Each of the first transparent conductive layers is resistance anisotropy. A number of first electrodes and a first conductive trace are formed corresponding to each first transparent conductive layer. A number of adhesive layers are formed on the insulative substrate with each to cover one of the first transparent conductive layers. A carbon nanotube layer is formed on the number of adhesive layers. The carbon nanotube layer is patterned to obtain a number of second transparent conductive layers spaced from each other and with each corresponding to one first transparent conductive layer. A number of second electrode and a second conductive trace are formed corresponding to each second transparent conductive layer. | 03-05-2015 |
20150059172 | METHOD FOR MAKING TOUCH PANEL - A method for making a touch panel is provided. A number of first transparent conductive layers are formed on an insulative substrate. Each of the first transparent conductive layers is resistance anisotropy. A number of adhesive layers are formed on the insulative substrate with each to cover only part of one of the first transparent conductive layers. A carbon nanotube layer is formed on the number of adhesive layers. The carbon nanotube layer is patterned to obtain a number of second transparent conductive layers spaced from each other and with each corresponding to one first transparent conductive layer. A number of first electrodes, a first conductive trace, a number of second electrodes, and a second conductive trace are formed contemporaneously. | 03-05-2015 |
20150029402 | REMOTE CONTROLLER, SYSTEM, AND METHOD FOR CONTROLLING REMOTE CONTROLLER - A remote controller includes a touch module, a main processing unit, a communication module, and a motion sensing module. The touch module includes a touch panel and a touch signal processing unit. A method for controlling a remote controller includes steps of determining a switching behavior on the touch panel and switching the remote controller among operation modes corresponding to the switching behavior. The operation modes include a remoter mode, a touch-pad mode, and an air-mouse mode. | 01-29-2015 |
20150029138 | METHOD OF RECOGNIZING TOUCH - The disclosure relates to a method for recognizing touch. A first value T | 01-29-2015 |
20150029109 | REMOTE CONTROLLER WITH TOUCH PANEL - A remote controller with touch panel comprises a case, a circuit board, a power supply, and signal emitter. The circuit board, the power supply, and the signal emitter are accommodated in the case. The touch panel comprises a cover lens, and a carbon nanotube film is located on an inner surface of the cover lens. A number of touching and sensing electrodes are electrically connected to the carbon nanotube to supply signals. The carbon nanotube film comprises a plurality of carbon nanotubes oriented along the same direction. | 01-29-2015 |
20150029099 | METHOD FOR CONTROLLING TOUCH AND MOTION SENSING POINTING DEVICE - A method for controlling a touch and motion sensing pointing device is disclosed. In the method, a touch on the pointing device is sensed through a touch sensing module. Whether or not a touch size of the touch is smaller than a predetermined size is determined when the touch is sensed. An output of coordinate signals of the pointing device is locked when the touch size of the touch is smaller than the predetermined size. Whether or not a persisting time of the touch is larger than a predetermined time is measured when the output of coordinate signals is locked. The output of coordinate signals is unlocked when the persisting time of the touch is greater than the predetermined time. A mouse-click signal is transmitted when the persisting time of the touch is smaller than or equal to the predetermined time. | 01-29-2015 |
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 |
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 |
20140354581 | METHOD FOR DETECTING TOUCH SPOT OF TOUCH PANEL - A method for detecting touch spots of a touch panel. In the detecting process, a pulse signal is input into each of a plurality of first driving-sensing electrodes, thereby simulating an R | 12-04-2014 |
20140354580 | METHOD FOR DETECTING TOUCH SPOT OF TOUCH PANEL - A method for detecting touch spots of a touch panel. In the detecting process, a pulse signal is input into each of a plurality of first driving-sensing electrodes, thereby simulating an R | 12-04-2014 |
20140354578 | METHOD FOR SETTING DRIVING SIGNALS FOR ELECTRODE OF TOUCH PANEL AND DRIVING METHOD FOR TOUCH PANEL - A method for setting a driving signal for an electrode of a touch panel is provided. In the method, a varying driving signal is provided to the electrode. The varying driving signal includes a number of initial driving signal values varying with time. An initial capacitance signal value set is detected untouched from the electrode of the touch panel. The initial capacitance signal value set includes a number of varying initial capacitance signal values. The initial capacitance signal value set is generated and corresponds to the varying driving signal. A basic capacitance signal value is preset. A proximate initial capacitance signal value closest to the basic capacitance signal value is selected from the initial capacitance signal value set. The initial driving signal value corresponding to the proximate initial capacitance signal value is set as an optimized driving signal value of the electrode. | 12-04-2014 |
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 |
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 |
20140320756 | TOUCH PANEL - A touch panel includes a first electrode plate and a second electrode plate. The first electrode plate includes a first substrate and a first transparent conductive layer. The second electrode plate includes a second substrate and a second transparent conductive layer opposite to and spaced from the first transparent conductive layer. The first substrate defines a first curved surface, and first transparent conductive layer is located on the first curved surface. The second substrate defines a second curved surface, and the second transparent conductive layer is located on the second curved surface. The second transparent conductive layer is a conductive film having different resistance along different directions. | 10-30-2014 |
20140320458 | TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive display device includes a protective module, a reflective display module, and a light guide touch module located between the protective module and the reflective display module. The light guide touch module includes a light guide module and a touch module attached on the light guide module. The light guide module includes a light guide plate. The touch module includes at least one carbon nanotube layer. The at least one carbon nanotube layer is directly located on a surface of the light guide plate. | 10-30-2014 |
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 |
20140204520 | ELECTRONIC DEVICE WITH DETACHABLE KEYBOARD - An electronic device includes a base and a keyboard module detachably mounted on the base. The keyboard module includes a first side and a second side. The first side includes a first unit. The second side includes a second unit. The keyboard module is mounted on the base in different directions to expose the first unit or the second unit. | 07-24-2014 |
20140204519 | ELECTRONIC DEVICE WITH DETACHABLE KEYBOARD - An electronic device includes a base and a keyboard. The base includes a working surface and defines a receiving space. The keyboard includes a top side and a bottom side opposite to the top side. A plurality of key is mounted on the top side. A function module is mounted on the bottom side. The keyboard can be alternatively mounted in the receiving space in a first direction or in a second direction. The plurality of keys is accessible from the working surface when the keyboard is mounted in the receiving space in a first direction, and the function module is accessible from the working space when the keyboard is mounted in the receiving space in a second direction. | 07-24-2014 |
20140057065 | TOUCH PANEL AND TOUCH DISPLAY APPARATUS USING SAME - A touch panel includes a first sub-panel and a second sub-panel. One of the first sub-panel and the second sub-panel comprises a first carbon nanotube (CNT) film. Each of the first sub-panel and the second sub-panel defines a touch sensing region and a first side region connecting a first side of the touch sensing region. The first side region of the first sub-panel covers the first side region of the second sub-panel such that the touch sensing region of the first sub-panel and the touch sensing region of the second sub-panel are joined via the first side region of the first sub-panel. | 02-27-2014 |
20140055686 | CARBON NANOTUBE TOUCH PANEL HAVING TWO CARBON NANOTUBE FILMS - A touch panel utilizing carbon nanotubes (CNT) includes a base a first CNT film, a second CNT film, and a flexible printed circuit (FPC). The base defines a first touch sensing region, a second touch sensing region, and a gap region. The first CNT film and the second CNT film are respectively positioned on the first touch sensing region and the second touch sensing unit. The FPC is mounted on the base. A plurality of first connection wires are formed on the base, and each first connection wire includes a first electrode, a first wire body and a second electrode. The first electrode is located at the gap region and is connected to both the first CNT film and the second CNT film. The second electrode is attached to the FPC, and the first wire body is connected between the first electrode and the second electrode. | 02-27-2014 |
20140055392 | CARBON NANOTUBE TOUCH PANEL AND TOUCH DISPLAY APPARATUS USING SAME - A large-area touch panel utilizing carbon nanotubes (CNT units) includes a first carbon nanotube (CNT) sub-panel and a second CNT sub-panel, the second CNT sub-panel is attached to the second CNT sub-panel to form a single CNT panel assembly. Each of the first CNT sub-panel and the second CNT sub-panel includes a CNT film having a plurality of CNT units, with an orientation of the CNT units in one sub-panel being perpendicular to the CNT units of the other sub-panel. | 02-27-2014 |
20140054152 | TOUCH PANEL AND TOUCH DISPLAY APPARATUS USING SAME - A touch panel includes a first sub-panel and a second sub-panel. Each of the first sub-panel and the second sub-panel comprises a carbon nanotube (CNT) film and defines a touch sensing region and a first side region connecting a first side of the touch sensing region. The first side region is bent towards the touch sensing region and an intersection angle is formed between the side region and the touch sensing region. The first side region of the first sub-panel is attached to the first side region of the second sub-panel such that the touch sensing region of the first sub-panel and the touch sensing region of the second sub-panel are located in a same plane and joined together. | 02-27-2014 |
20140054151 | TOUCH PANEL AND TOUCH DISPLAY APPARATUS USING SAME - A touch panel includes a first sub-panel and a second sub-panel. One of the first sub-panel and the second sub-panel comprises a carbon nanotube (CNT) film. Each of the first sub-panel and the second sub-panel comprises a touch sensing region and a first side region connecting a first side of the touch sensing region. The first side region is bent towards the touch sensing region and an intersection angle is formed between the side region and the touch sensing region. The first side region of the first sub-panel is attached to the first side region of the second sub-panel such that the touch sensing region of the first sub-panel and the touch sensing region of the second sub-panel are joined together. | 02-27-2014 |
20140054150 | CARBON NANOTUBE TOUCH PANEL HAVING AT LEAST TWO CARBON NANOTUBE FILMS - A carbon nanotube (CNT) touch panel includes a base with a first touch region and a second touch region, a first CNT film placed on the first touch region of the base, a second CNT film placed on the second touch region of the base, and a flexible printed circuit (FPC) mounted on an edge of the base. A plurality of first connection wires and a plurality of second connection wires are formed on the base. The first connection wires interconnect the first CNT film and the FPC, and the second connection wires interconnect the second CNT film and the FPC. | 02-27-2014 |
20140054144 | CARBON NANOTUBE TOUCH PANEL AND METHOD FOR MAKING SAME - A method for making a carbon nanotube (CNT) touch panel includes forming a first CNT film and a second CNT film where the first CNT film and the second CNT film are adhered onto a same surface of a base. | 02-27-2014 |
20140024280 | METHOD FOR MAKING LIQUID CRYSTAL DISPLAY MODULE - In a method for making a liquid crystal display module, a first polarizing layer and a liquid crystal module are provided. The liquid crystal module includes an upper substrate, an upper electrode layer, a first alignment layer, a liquid crystal layer, a second alignment layer, a thin film transistor panel, and a second polarizing layer stacked in sequences. At least two driving-sensing electrodes are disposed on a surface of the upper substrate. The at least two driving-sensing electrodes are spaced from each other and spaced from the upper electrode layer. A free-standing transparent conductive layer is laid on a surface of the first polarizing layer to form a touch polarizer. The touch polarizer is fixed to the upper substrate to form the liquid crystal display module. The at least two driving-sensing electrodes are electrically connected with the transparent conductive layer. | 01-23-2014 |
20140024155 | METHOD FOR MAKING LIQUID CRYSTAL DISPLAY MODULE - A method for making a liquid crystal display module is provided. In the method, a first polarizing layer is provided. A free-standing transparent conductive layer is disposed on a surface of the first polarizing layer. At least two driving-sensing electrodes are disposed on a surface of the transparent conductive layer and spaced from the first polarizing layer. The at least two driving-sensing electrodes are spaced from each other and electrically connected with the transparent conductive layer. The first polarizing layer, the at least two driving-sensing electrodes, and the transparent conductive layer cooperatively form a polarizer. The polarizer is fixed to a liquid crystal module to form the liquid crystal display module. | 01-23-2014 |
20140022638 | POLARIZER - A polarizer, having touch sensing capability includes a first transparent conducive layer, a second transparent conducive layer, a polarizing layer, first electrodes and second electrodes. The first transparent conducive layer has a minimal resistance along a first direction and a maximal resistance or insulation along a second direction. The second transparent conducive layer has a maximal resistance or insulation along the first direction and a minimal resistance along the second direction. The polarizing layer is located between the first transparent conducive layer and the second transparent conducive layer. The first electrodes are spaced with each other and arranged in a first row along the second direction and electrically connected with the first transparent conducive layer. The second electrodes are spaced with each other and arranged in a second row along the first direction and electrically connected with the second transparent conducive layer. | 01-23-2014 |
20140022497 | LIQUID CRYSTAL DISPLAY MODULE - A liquid crystal display module includes a liquid crystal module and a polarizer stacked with each other. The polarizer includes a polarizing layer, a transparent conductive layer and at least two driving-sensing electrodes. The polarizing layer and the transparent conductive layer are stacked with each other. The at least two driving-sensing electrodes are spaced from each other and electrically connected with the transparent conductive layer. | 01-23-2014 |
20140022496 | LIQUID CRYSTAL DISPLAY MODULE - A liquid crystal display module includes a liquid crystal module and a polarizer on the liquid crystal module. The liquid crystal module includes an upper substrate, an upper electrode layer, a first alignment, a liquid crystal layer, a second alignment layer, a thin film transistor panel, and a lower polarizing layer. The polarizer includes a first transparent conductive layer, an upper polarizing layer, and a second transparent conductive layer on the second surface of the upper polarizing layer stacked together. A number of first electrodes are electrically connected with the first transparent conducive layer, a number of second electrodes are electrically connected with the second transparent conducive layer. The first transparent conductive layer includes a number of transparent conductive belts along a second direction, and the second transparent conductive layer includes a number of carbon nanotubes substantially aligned along a first direction. | 01-23-2014 |
20140022495 | LIQUID CRYSTAL DISPLAY MODULE - A liquid crystal display module includes a liquid crystal module and a polarizer on the liquid crystal module. The liquid crystal module includes an upper substrate, an upper electrode layer, a first alignment, a liquid crystal layer, a second alignment layer, a thin film transistor panel, and a lower polarizing layer. The polarizer includes a first transparent conductive layer, an upper polarizing layer, and a second transparent conductive layer on the second surface of the upper polarizing layer. A number of first electrodes are electrically connected with the first transparent conducive layer, a number of second electrodes are electrically connected with the second transparent conducive layer. The first transparent conductive layer includes a number of carbon nanotubes substantially aligned along a second direction, and the second transparent conductive layer includes a number of carbon nanotubes substantially aligned along a first direction. | 01-23-2014 |
20140022465 | COLOR FILTER SUBSTRATE, TOUCH DISPLAY PANEL AND TOUCH DISPLAY DEVICE - A color filter substrate for a touch display panel includes a common electrode layer and a transparent conductive layer. The common electrode layer includes a plurality of common electrodes each extending along a first direction. The transparent conductive layer exhibits electric anisotropy and has the lowest resistivity along a second direction. The transparent conductive layer and the common electrode layer cooperatively define a capacitive touch sensitive structure. | 01-23-2014 |
20140022464 | LIQUID CRYSTAL DISPLAY MODULE - A liquid crystal display module includes a liquid crystal module and a polarizer stacked with each other. The polarizer includes a polarizing layer, a transparent conductive layer and a number of driving-sensing electrodes. The polarizing layer and the transparent conductive layer stacked with each other. The transparent conductive layer is an anisotropic impedance layer having a relatively low impedance direction. An electrical conductivity of the anisotropic impedance layer on the relatively low impedance direction is greater than electrical conductivities of the anisotropic impedance layer on other directions. The number of driving-sensing electrodes are spaced from each other and arranged in a row along a direction substantially perpendicular to the relatively low impedance direction and electrically connected with the transparent conductive layer. | 01-23-2014 |
20140022208 | COLOR FILTER SUBSTRATE AND TOUCH DISPLAY PANEL USING SAME - An exemplary color filter substrate for a touch display panel includes a base and a capacitive touch sensitive structure located a first side of the base. The capacitive touch sensitive structure includes a first conductive layer, a second conductive layer, and a polarizer located between the first conductive layer and the second conductive layer. | 01-23-2014 |
20140022204 | POLARIZER - A polarizer, having touch sensing capability includes a polarizing layer, a transparent conducive layer, and first driving-sensing electrodes. The transparent conducive layer and the polarizing layer are stacked with each other. The transparent conductive layer is an anisotropic impedance layer having a relatively low impedance direction and a relatively high impedance direction. The first driving-sensing electrodes are spaced with each other and arranged in a row along the relatively high impedance direction and electrically connected with the transparent conducive layer. | 01-23-2014 |
20130044059 | TOUCH-CONTROL TYPE KEYBOARD - A touch-control type keyboard includes a transparent cover board and a touch-control module laminated with the transparent cover board. The transparent cover board includes an outer surface and an inner surface opposite to the outer surface. The outer surface of the transparent cover board includes a tactual zone and a relative anti-tactual zone. The tactual zone includes micro structures on the outer surface. | 02-21-2013 |