Patent application number | Description | Published |
20090310079 | DISPLAY PANEL AND ELECTRO-OPTICAL APPARATUS - A display panel includes a first substrate, a second substrate, a sealant, a plurality of spacers, and a display medium layer. The first substrate has a pixel array and a peripheral circuit. The sealant, the spacers, and the display medium layer are disposed between the first and the second substrate. The pixel array is surrounded by the sealant and located on a portion of the peripheral circuit. A multi-layer conductive wiring structure is disposed in the region of the peripheral circuit covered with the sealant. The multi-layer conductive wiring structure includes first and second conductive wirings. The second conductive wirings are connected to the pixel array via the first conductive wirings. An extending direction of the first conductive wirings is substantially different from that of the second conductive wirings. The spacers are distributed at two opposite sides of the sealant and respectively located between two adjacent first conductive wirings. | 12-17-2009 |
20100053534 | TOUCH PANEL - A touch panel including a first substrate, a second substrate, a sealant, a liquid crystal layer, a main spacer, a first sensing spacer, a second sensing spacer, a first opposite electrode and a second opposite electrode is provided. The first substrate has a central area and a peripheral area. The second substrate is disposed opposite to the first substrate. The first sensing spacer is disposed on the central area and between the first and the second substrates. The second sensing spacer is disposed on the peripheral area and between the first and the second substrates. There's a first sensing gap between the first sensing spacer and the first opposite electrode disposed corresponding to the first sensing spacer. There's a second sensing gap between the second sensing spacer and the second opposite electrode disposed corresponding to the second sensing spacer. The first sensing gap is larger than the second sensing gap. | 03-04-2010 |
20110069271 | DISPLAY PANEL AND SEALING STRUCTURE - An LCD panel includes a first substrate, a second substrate, a displaying medium and a sealing structure, wherein the second substrate is located at the side opposite to the first substrate and the displaying medium is located between the first substrate and the second substrate for displaying an image. The sealing structure is located between the first substrate and the second substrate to seal the displaying medium, wherein the sealing structure includes an inner wall, an outer wall and a sealant. The inner wall disposed surrounding the displaying medium and the outer wall disposed surrounding the inner wall together form a sealant-disposing space therebetween. The outer wall has a plurality of side wall holes and the sealant is disposed in the sealant-disposing space. In this way, the sealing structure is able to enhance the structure strength in a limited layout space and promote the process margin. | 03-24-2011 |
20110102313 | ELECTROPHORESIS DISPLAY PANEL - An electrophoresis display panel includes a plurality of first sub-pixels, a plurality of second sub-pixels, a plurality of third sub-pixels, and a plurality of white sub-pixels. The first sub-pixels, the second sub-pixels, and the third sub-pixels are suitable for irradiating different light of three primary colors, respectively, while the white sub-pixels are suitable for irradiating white light. Each of the first sub-pixels does not adjoin the second sub-pixels and the third sub-pixels. Each of the second sub-pixels does not adjoin the third sub-pixels. Each of the first sub-pixels adjoins the white sub-pixels exclusively or adjoins the white sub-pixels and other first sub-pixels exclusively. | 05-05-2011 |
Patent application number | Description | Published |
20100109043 | METHODS AND STRUCTURES FOR ELECTROSTATIC DISCHARGE PROTECTION - A semiconductor device includes a first well region of a first conductivity, a second well region of a second conductivity type, a source region of the second conductivity type within the first well region, and a drain region of the second conductivity type at least partially within the second well region. A well contact to the first well region is coupled to the source. A third doped region of the first conductivity type and a fourth doped region of the second conductivity type are located in the second well region. A first transistor includes the third doped region, the second well region, and the first well region. The first transistor is coupled to a switch device. A second transistor includes the second well region, the first well region, and the source region. The first and the second transistors are configured to provide a current path during an ESD event. | 05-06-2010 |
20100109076 | STRUCTURES FOR ELECTROSTATIC DISCHARGE PROTECTION - A semiconductor device includes a first well region of a first conductivity, a second well region of a second conductivity type, a source region of the second conductivity type within the first well region, and a drain region of the second conductivity type at least partially within the second well region. A well contact to the first well region is coupled to the source. A first doped region of the first conductivity type and a second doped region of the second conductivity type are located in the second well region. A first transistor includes the first doped region, the second well region, and the first well region. The first transistor is coupled to a switch device. A second transistor includes the second well region, the first well region, and the source region. The first and the second transistors are configured to provide a current path during an ESD event. | 05-06-2010 |
20110216454 | ELECTROSTATIC DISCHARGE PROTECTORS HAVING INCREASED RC DELAYS - An RC delay circuit for providing electrostatic discharge (ESD) protection is described. The circuit employs an NMOS transistor and a PMOS transistor to produce a large effective resistance using a relatively small circuit layout area. | 09-08-2011 |
20120286322 | METHODS AND STRUCTURES FOR ELECTROSTATIC DISCHARGE PROTECTION - A semiconductor device includes a first well region of a first conductivity type, a second well region of a second conductive type within the first well region. A first region of the first conductivity type and a second region of the second conductivity type are disposed within the second well region. A third region of the first conductivity type and a fourth region of the second conductivity type are disposed within the first well region, wherein the third region and the fourth region are separated by the second well region. The semiconductor device also includes a switch device coupled to the third region. | 11-15-2012 |
Patent application number | Description | Published |
20080309866 | Display Panel with Photo-Curable Sealant and Manufacture Method Thereof - A display panel and a manufacture method thereof are provided. The display panel includes a first substrate, a second substrate, and a sealant. The first substrate has a top surface which includes a signal transmission module parallel to an edge of the top surface. The sealant is disposed on the top surface and parallel to the signal transmission module, which is disposed between the top surface and sealant. The sealant is made of a photo-curable material and includes an inner isolation wall, which is exposed via the signal transmission module. The second substrate is disposed on the sealant and includes an inner surface. A light-shielding structure is disposed on the inner surface and close to an edge of the inner surface. The sealant at least partially overlaps the light-shielding structure. | 12-18-2008 |
20100014044 | LIQUID CRYSTAL DISPLAY PANEL AND FABRICATION METHOD THEREOF - An liquid crystal display panel includes a first substrate, a second substrate, a liquid crystal layer disposed between the first and second substrates, a patterned black matrix layer disposed on the surface of the first substrate, a patterned first color filter layer disposed on the first substrate having a protruding portion that covers a portion of the patterned black matrix layer, a plurality of first ball spacers disposed on the surface of the patterned black matrix layer, and a plurality second ball spacers disposed on the surface of the protruding portion of the patterned first color filter layer. The bottom surfaces of the second ball spacers and the bottom surfaces of the first ball spacers respectively are disposed on different planes in the liquid crystal display panel. | 01-21-2010 |
20100026658 | TOUCH SUBSTRATE OF EMBEDDED TOUCH DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - An embedded touch display panel including a first substrate and a second substrate is provided. The first substrate having a displaying region and a sensing region includes a stack structure, a first conductive layer and a first alignment layer. The stack structure disposed on the first substrate within the sensing region includes a protruding structure and a first rough structure disposed on the protruding structure. The first conductive layer conformally disposed on the stack structure has a first rough surface. The first rough surface is exposed from the first alignment layer that covers the first conductive layer. The second substrate includes a second conductive layer and a second alignment layer. The second conductive layer whose position corresponds to the sensing region is disposed on the second structure. A portion of the second conductive layer corresponding to the first rough surface is exposed from the second alignment layer covering thereon. | 02-04-2010 |
20110111668 | FABRICATION METHOD OF LIQUID CRYSTAL DISPLAY PANEL - A method of fabricating an LCD panel includes the following steps. A patterned black matrix layer is formed on a first surface of the first substrate, wherein the patterned black matrix layer includes a plurality of black-matrix patterns disposed at boundaries of adjacent first and second sub-pixel regions. Then, a first color filter layer is formed and patterned such that the patterned first color filter layer is disposed in the first sub-pixel regions and covers surfaces of the black-matrix patterns at a side of first sub-pixel regions concurrently. After that, a second color filter layer is formed and patterned so that the patterned second color filter layer is disposed in the second sub-pixel regions. A plurality of spacers are disposed on the first surface, disposed on the surfaces of the black-matrix patterns and the surface of the first color filter layer covering the black-matrix patterns. | 05-12-2011 |
20110117804 | Display Panel with Photo-Curable Sealant and Manufacture Method Thereof - A display panel and a manufacture method thereof are provided. The display panel includes a first substrate, a second substrate, and a sealant. The first substrate has a top surface which includes a signal transmission module parallel to an edge of the top surface. The sealant is disposed on the top surface and parallel to the signal transmission module, which is disposed between the top surface and sealant. The sealant is made of a photo-curable material and includes an inner isolation wall, which is exposed via the signal transmission module. The second substrate is disposed on the sealant and includes an inner surface. A light-shielding structure is disposed on the inner surface and close to an edge of the inner surface. The sealant at least partially overlaps the light-shielding structure. | 05-19-2011 |
Patent application number | Description | Published |
20090268131 | TOUCH PANEL, COLOR FILTER SUBSTRATE AND FABRICATING METHOD THEREOF - A method for fabricating a color filter substrate including the following procedures is provided. First, a substrate is provided and a color filter layer is formed thereon. Next, a plurality of sensing spacers is formed on a part of the color filter layer. Then, a planarization layer is formed to cover the color filter layer and expose the sensing spacers. Next, an electrode layer is formed to cover the planarization layer and the sensing spacers. After that, a plurality of main spacers is formed on a part of the electrode layer excluding disposing regions of the sensing spacers, wherein a step height is formed between the main spacers and the electrode layer above sensing spacers. | 10-29-2009 |
20090273033 | ELECTROSTATIC DISCHARGE PROTECTION CIRCUIT - An ESD protection circuit including a substrate of a first conductivity type, an annular well region of a second conductivity type, two first regions of the first conductivity type and at least one transistor of the second conductivity type is provided. The annular well region is disposed in the substrate. The first regions are disposed in the substrate and surrounded by the annular well region. The at least one transistor is disposed on the substrate between the first regions and including a source, a gate, and a drain. The annular well region and the drain are coupled to a first voltage source. The source and one of the first regions are coupled to a second voltage source, and the other of the first regions is coupled to a substrate triggering circuit. | 11-05-2009 |
20090279040 | Liquid Crystal Panel Structure and Method for Manufacturing the Same - A liquid crystal panel structure and a method for manufacturing the same are disclosed. The liquid crystal panel structure comprises a first substrate, a second substrate, a plurality of ball spacers, and a positioning structure. The second substrate is assembled parallel to the first substrate, and a gap is formed therebetween. The ball spacers are disposed in the gap to space the first substrate and the second substrate. The positioning structure is formed on one of the substrates and has a side collecting portion such that the ball spacers are moved to be located therein. The method for manufacturing the liquid crystal panel structure is to drop a solution which contains the ball spacers on the first substrate or the second substrate. Then, the ball spacers are positioned in the positioning structure after the solution is vaporized and a proper gap between the first and the second substrate is formed accordingly after assembly. | 11-12-2009 |
20120057258 | ELECTROSTATIC DISCHARGE PROTECTION DEVICE AND METHOD THEREOF - An electrostatic discharge protection device for protecting an inner circuit, which is operated in a source voltage, is provided and includes a protection unit and a control unit. The protection unit provides a discharge path for transmitting an electrostatic signal from a pad to a ground line. According to a voltage level at a control end, the protection unit adjusts a holding voltage and a triggering voltage determining whether to conduct the discharge path. When the source voltage is supplied, the control unit transmits the input voltage to the control end of the protection unit, so as to raise the holding and the triggering voltages of the discharge path. When the source voltage is not supplied, the control unit switches the control end of the protection unit to a floating condition by the electrostatic signal, so as to lower the holding and the triggering voltages of the discharge path. | 03-08-2012 |
20120287539 | ELECTROSTATIC DISCHARGE PROTECTION DEVICE - An electrostatic discharge (ESD) protection device electronically connected to a pad is provided. The ESD protection device includes K PNP transistors and a protection circuit, wherein K is a positive integer. An emitter of the 1 | 11-15-2012 |
20130069125 | SEMICONDUCTOR DEVICE, ELECTROSTATIC DISCHARGE PROTECTION DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device, an electrostatic discharge protection device and manufacturing method thereof are provided. The electrostatic discharge protection device includes a gate, a gate dielectric layer, an N-type source region, an N-type drain region, an N-type doped region and a P-type doped region. The gate dielectric layer is disposed on a substrate. The gate is disposed on the gate dielectric layer. The N-type source region and the N-type drain region are disposed in the substrate at two sides of the gate, respectively. The N-type doped region is disposed in the N-type drain region and connects to the top of the N-type drain region. The P-type doped region is disposed under the N-type drain region and connects to the bottom of the N-type drain region. | 03-21-2013 |
20130155554 | ELECTROSTATIC DISCHARGE PROTECTION DEVICE - An electrostatic discharge protection device is provided. The electrostatic discharge protection device includes a clamp unit and a control circuit. The clamp unit provides a discharging path from a first power line to a first ground line. The control circuit receives a first power voltage from the first power line and a second power voltage from a second power line. Wherein, when the first power voltage and the second power voltage are applied, the control circuit generates an isolation signal to disconnect the discharging path. When the first power voltage and the second power voltage are not applied, the control circuit generates a trigger signal according to an electrostatic signal from the first power line to turn on the discharging path. | 06-20-2013 |
20130201584 | ELECTROSTATIC DISCHARGE PROTECTION DEVICE - An electrostatic discharge (ESD) protection device including a modified lateral silicon-controlled rectifier (MLSCR) and a voltage control circuit is provided. The MLSCR has a first terminal, a second terminal and a control terminal connected to a first P+-type doped region, where the first terminal and the second terminal are electrically connected to a first line and a second line, respectively. The voltage control circuit is electrically connected to the first line, the second line and the control terminal. When an electrostatic pulse is appeared on the first line, the voltage control circuit provides a current path from the first line to the control terminal. When an input signal is supplied to the first line, the voltage control circuit receives a power voltage, and stops providing the current path according to the power voltage. | 08-08-2013 |
20130257708 | ELECTROPHORETIC DISPLAY APPARATUS SWITCHABLE BETWEEN BLACK-WHITE MODE AND COLOR MODE - Disclosed herein is an electrophoretic display apparatus switchable between a black-white mode and a color mode. The electrophoretic display apparatus includes an electrophoretic display panel, a light guide, a light source, a light-splitting element and a lens element. The light guide is disposed in front of a display area of the electrophoretic display panel. The light source is operable to emit a light, which is directed to the display area by the light guide. The light-splitting element is disposed between the light guide and the electrophoretic display panel, and is operable to split the light into a first, a second and a third beam each having a principal wavelength different from the others. The lens element is disposed between the light-splitting element and the display area, and is operable to direct the first, second and third beams to corresponding sub-pixels. | 10-03-2013 |
20130314763 | LIGHT GUIDE AND ELECTROPHORETIC DISPLAY APPARATUS SWITCHABLE BETWEEN BLACK-WHITE MODE AND COLOR MODE - Disclosed herein is a light guide, which includes a light-receiving surface and a light-emitting surface. The light-emitting surface includes a plurality of gratings spaced apart from each other by a spacing interval. Each grating has a number of prisms extending in a predetermined direction. The predetermined direction of at least one grating is different from that of another grating. These gratings cooperate together to allow light in a wavelength range to transmit the gratings, and to restrict light in another wavelength range to transmit the gratings. An electrophoretic display apparatus switchable between black-white mode and color mode is disclosed as well. | 11-28-2013 |
20140092504 | Electrostatic discharge protection device - An electrostatic discharge protection device including a silicon-controlled rectifier and a path switching circuit is provided. The silicon-controlled rectifier includes a first connection terminal, a second connection terminal, a first control terminal and a second control terminal, wherein the first connection terminal and the second connection terminal are respectively connected to a first line and a second line. The path switching circuit is electrically connected to the first line, the first control terminal and the second control terminal. When an input signal is supplied to the first line, the path switching circuit provides a first current path from the first line to the first control terminal in response to the input signal. When an electrostatic pulse is appeared on the first line, the path switching circuit provides a second current path from the first control terminal to the second control terminal in response to the electrostatic pulse. | 04-03-2014 |