| Patent Number |
Title Of Patent |
Date Issued |
| 6943757 |
Method for driving a plasma display panel |
September 13, 2005 |
| A method for driving a plasma display panel (PDP). The PDP includes a first electrode and a second electrode. Initially provide the first electrode with a first voltage V1. Next, provide the second electrode with a second voltage V2 that is higher than the first voltage V1 during a first |
| 6943070 |
Complementary metal oxide semiconductor image sensor and method of manufacturing the same |
September 13, 2005 |
| A complementary metal oxide semiconductor (CMOS) image sensor includes at least a non-single-crystal-silicone-base substrate, an opaque layer, a polysilicon layer, a source, a drain, a gate dielectric layer, a first transparent gate electrode, and a second gate transparent gate electrode |
| 6942535 |
Plasma display panel and the manufacturing method thereof |
September 13, 2005 |
| A plasma display panel and the manufacturing method thereof. Forming partition wall structures on the back substrate of the paste display panel and forming the column-shaped protrusions at the positions corresponding to the cuts on the rib on the front substrate of the plasma display pan |
| 6936848 |
Dual gate layout for thin film transistor |
August 30, 2005 |
| A dual gate layout of a thin film transistor of liquid crystal display to alleviate dark current leakage is disclosed. The layout comprises (1) a polysilicon on a substrate having a L-shaped or a snake shaped from top-view, which has a heavily doped source region, a first lightly doped |
| 6936716 |
Organometallic complex for organic electroluminescent device |
August 30, 2005 |
| An organometallic complex having formula (I) ##STR1## wherein M is a transition metal; each A.sup.1 and A.sup.2 is independently a monodentate ligand, or A.sup.1 and A.sup.2 are covalently joined together to form a bidentate ligand; R.sup.1 is H, C.sub.1-18 alkyl, C.sub.1-18 alkox |
| 6935918 |
Reflecting device for flat panel displays and method of making the same |
August 30, 2005 |
| This invention relates to a reflecting device for flat panel displays, including a light source, a nonconductive base having a groove, and a reflector disposed on the inner surface of the groove of the nonconductive base to reflect rays of light coming from the light source to the exteri |
| 6933162 |
Method for fabricating a liquid crystal display |
August 23, 2005 |
| A method of fabricating a liquid crystal display (LCD). The gate electrodes or the source/drain electrode pairs of thin film transistors in the LCD are patterned by at least a first mask and a second mask. The gate electrodes or the source/drain electrode pairs at the boundary region |
| 6927815 |
Thin film transistor liquid crystal display and method for manufacturing the same |
August 9, 2005 |
| A thin film transistor liquid crystal display and method for manufacturing the same. The liquid crystal display comprises a TOC substrate, wherein a TFT is disposed on a color filter. A data line is disposed between the color filter and a lower substrate, also functioning as a black matr |
| 6927087 |
Active matrix substrate for a liquid crystal display and method of forming the same |
August 9, 2005 |
| An active matrix substrate for a liquid crystal display and method of forming the same. To form the active matrix substrate five masks are needed. The first mask forms gate lines on the transparent substrate. The second mask patterns a stacked layer of a metal layer/an n-doped layer/a |
| 6926014 |
Method for cleaning a plasma chamber |
August 9, 2005 |
| A method for cleaning a plasma chamber after metal etching. First, a substrate having a metal layer thereon is placed in a plasma chamber. Next, the metal layer is etched. Finally, the substrate is removed from the plasma chamber to perform a dry cleaning which includes the following |
| 6922243 |
Method of inspecting grain size of a polysilicon film |
July 26, 2005 |
| A method of inspecting the grain size of a polysilicon film. A substrate covered by an amorphous silicon layer is provided. Next, the amorphous silicon layer is annealed by a laser beam with a predetermined laser energy density to transfer it to a polysilicon layer. Thereafter, the p |
| 6914659 |
Liquid crystal display panel |
July 5, 2005 |
| A liquid crystal display (LCD) panel includes an upper substrate, a lower substrate below the upper substrate and a sealant employed between the upper substrate and the lower substrate. There is a first covering layer on the lower substrate and a second covering layer on the first coveri |
| 6914389 |
Direct-type back light module with photo sensors |
July 5, 2005 |
| A direct-type backlight module with photo sensors has a plurality of lamps, a plurality of the photo sensors for detecting illumination of corresponding lamps, a comparative and arithmetic unit for processing signals generated by the photo sensors, and a main lamp driving loop for re |
| 6910583 |
Apparatus for carrying substrates |
June 28, 2005 |
| A substrate carrying device is disclosed. The substrate carrying device, in cooperation with at least a substrate, comprises two end plates having a plurality of fixing holes and mounting holes, at least two partition plates each having side faces, side edges and a plurality of parallel |
| 6909177 |
Chip carrier plate |
June 21, 2005 |
| A chip carrier plate. The chip carrier plate comprises a base, a protruding face, and a receiving face. The protruding face is disposed on the base. The receiving face is formed on another side of the base opposite to the protruding face. A plurality of recesses is formed on the protrudi |
| 6902961 |
Method of forming a CMOS thin film transistor device |
June 7, 2005 |
| A method of forming a CMOS thin film transistor device. A dry etching procedure is performed to remove part of a photoresist layer and part of a metal layer and thus forms a gate with a symmetrical cone shape and a remaining photoresist layer. The dielectric layer is thus exposed in the |
| 6900792 |
Housing for flat panel displays and method for receiving flat panel displays |
May 31, 2005 |
| A housing for receiving a flat panel display. The housing for receiving a flat panel display includes a front frame having a central opening, side frames that surround at least part of the edges of the flat panel display, a bottom frame to combine with the front frame, the side frames to |
| 6896594 |
Method for grinding lens |
May 24, 2005 |
| A method for grinding lens is provided in the invention. First, a lens which has an optical surface and a surface-to-be-grinded is placed on a polishing pad. Next, cover up the lens with a fluid guiding tube wherein the fluid guiding tube has a fluid inlet and a fluid outlet with the flu |
| 6894755 |
Liquid crystal display device integrating driving circuit on matrix substrate |
May 17, 2005 |
| A liquid crystal display (LCD) device integrating driving circuit on an active-matrix substrate. A common electrode disposed on a counter substrate has an opening slit corresponding to a clock line disposed on the matrix substrate, thereby eliminating parasitic capacitance between th |
| 6890803 |
Method for forming a thin film transistor of an organic light emitting display |
May 10, 2005 |
| A method for forming a thin film transistor of an organic light emitting display includes depositing a first metal layer on a substrate, performing a photo-etching-process (PEP) to form a gate of the TFT on the substrate, forming a gate insulating layer, a microcrystalline silicon layer, |
| 6888588 |
Liquid crystal display panel |
May 3, 2005 |
| A LCD panel. The LCD panel includes first and second substrates, a black matrix, a color filter, a composite layer, a plurality of pixel elements, a transparent conductive layer, and a liquid crystal layer. The substrates are opposed to each other. The black matrix is disposed on the fir |
| 6886405 |
Capacitive acceleration sensor |
May 3, 2005 |
| A capacitive acceleration sensor includes a non-single-crystal-silicon-based substrate, a polysilicon beam structure having a movable section that includes a movable electrode, a polysilicon supporter positioned on the non-single-crystal-silicon-based substrate for fixing the beam st |
| 6885723 |
Shift-register circuit |
April 26, 2005 |
| A shift-register circuit. The PMOS transistor includes a first gate coupled to an inverse output signal output from a previous-stage shift-register unit, a first drain, and a first source coupled to an output signal output from the previous-stage shift-register unit. The first NMOS trans |
| 6885416 |
Flat panel display with a non-matrix light shielding structure |
April 26, 2005 |
| A flat panel display with a non-matrix shielding structure. The non-matrix shielding structure comprises a main shielding structure which has gaps and main spacings substantially corresponding to the pixel regions, and complementary shielding structures corresponding to the gaps. Each ga |
| 6882383 |
Full-color organic light-emitting diode display and method of fabricating the same |
April 19, 2005 |
| A full-color organic light-emitting diode (OLED) display. The display comprises a substrate, a white light-emitting OLED, a first passivation layer, stacked layers of a color-converting layer and a color filter, and a second passivation layer. The white light-emitting OLED comprises an |
| 6882380 |
Liquid crystal display |
April 19, 2005 |
| A liquid crystal display includes a first panel positioned on a front surface of a backlight unit, and a second panel positioned on a back surface of the backlight unit. The backlight unit provides lights to both of the first panel and the second panel, thus enabling either of the pa |
| 6880947 |
Direct-type backlight unit for flat panel liquid crystal displays |
April 19, 2005 |
| A direct-type backlight unit for a flat panel liquid crystal display includesat least one lamp installed in a housing, a diffusion plate installed above the lamp, a reflection plate having a reflection surface and a back surface installed under the lamp for reflecting light generated |
| 6880406 |
Semiconductor pressure sensor |
April 19, 2005 |
| A semiconductor pressure sensor comprises a non-single-crystal-silicon-based substrate, a movable insulating diaphragm, at least one piezoresistor positioned on the insulating diaphragm, an insulating supporter positioned on the non-single-crystal-silicon-based substrate for fixing t |
| 6879308 |
Housing for flat panel displays and method for receiving flat panel displays |
April 12, 2005 |
| A housing for receiving a flat panel display and/or a backlight module. The housing includes a front frame having a central window, wherein the inner edge of the frame defines an active area for the flat panel display, a bottom frame, a side frame locating between the front frame and the |
| 6876018 |
Organic light-emitting diode devices having reduced ambient-light reflection and method of makin |
April 5, 2005 |
| A method of manufacturing an organic light-emitting device having reduced ambient-light reflection is disclosed. The method comprises the following steps. First, a metal reflective layer is formed on a provided substrate. Then a transparent anode, an organic layer, a translucent elec |
| 6873390 |
Reflective liquid crystal display apparatus |
March 29, 2005 |
| A reflective liquid crystal display apparatus. The reflective liquid crystal display apparatus includes a substrate having a first region and a second region; a reflective layer disposed on the substrate in the first region; a photo spacer disposed on the substrate in the second region; |
| 6872580 |
Method for patching up thin-film transistor circuits on a display panel by local thin-film depos |
March 29, 2005 |
| A method for patching up thin-film transistor (TFT) circuit patterns on a display panel comprises the following steps. Firstly, a mask having an opening is placed above the display panel and the opening corresponds to the location of the cracks of the circuits on the display panel. S |
| 6867829 |
Back light device and a liquid crystal display applying thereof |
March 15, 2005 |
| A back light device. This back light device includes a light guide plate and a plurality of lamps, wherein the light guide plate has a first plane and a second plane opposite the first plane. The back light device of this invention has a plurality of arc-shaped recess regions to implemen |
| 6867505 |
Semiconductor device, a method for making the same, and an LCD monitor comprising the same |
March 15, 2005 |
| A semiconductor device, comprising an electrode on a base surface, a bump formed on the electrode, a pad, and a means of connection. The means of connection comprises a plurality of conductive particles, conducting the bump and the pad with conductive particles bonded between. The base |
| 6864872 |
Driving method of bias compensation for TFT-LCD |
March 8, 2005 |
| An object of the present invention is to provide a driving method of bias compensation for thin-film-transistor liquid-crystal-display (TFT-LCD) comprising the following steps: during a positive field period, applying a first low-level gate voltage to drive a gate line; wherein the first |
| 6859255 |
Method of fabricating a liquid crystal liquid display panel |
February 22, 2005 |
| A method of fabricating a liquid crystal display (LCD) panel. The LCD includes a first substrate positioned on an upper stage in a vacuum chamber, and a second substrate positioned on a lower stage in the vacuum chamber. A predetermined gap remains between the first substrate and the |
| 6853799 |
Lightguide and method for manufacturing the same |
February 8, 2005 |
| A lightguide having either a built-in prism sheet or a built-in diffuser sheet is disclosed. The lightguide includes: a prism sheet having a plane surface and a surface with a plurality of patterned microlens; a transparent wedge having a cross-section of trapezoid; and a binder layer |
| 6852577 |
Method for forming a low temperature polysilicon CMOS thin film transistor |
February 8, 2005 |
| A method for forming a low temperature polysilicon complementary metal oxide semiconductor thin film transistor (LTPS CMOS TFT). It utilizes six photo-etching processes (PEP) to form the LTPS CMOS TFT that comprises an N type metal oxide semiconductor thin film transistor (NMOS TFT) havi |
| 6847165 |
Plasma panel |
January 25, 2005 |
| A plasma panel includes a rear plate, a front plate disposed in parallel and spaced apart from the rear plate, a plurality of electrode pairs disposed in parallel with each other, and a first dielectric layer having a first predefined pattern to cover the electrode pairs. The plasma pane |
| 6846707 |
Method for forming a self-aligned LTPS TFT |
January 25, 2005 |
| A method for forming a self-aligned low temperature polysilicon thin film transistor (LTPS TFT). First, active layers of a N type LTPS TFT (NLTPS TFT) and a P type LTPS TFT (PLTPS TFT) are formed on a substrate, and a gate insulating (GI) layer is formed on the substrate. Then, a source |
| 6844675 |
Organic light emitting diode display with an insulating layer as a shelter |
January 18, 2005 |
| An organic light emitting diode (OLED) structure, and corresponding method of making same are provided. Each OLED pixel includes a first electrode layer on a substrate, a second electrode layer on a substrate, and an organic emission layer disposed between the first and second electrode |
| 6844629 |
Display panel with bypassing lines |
January 18, 2005 |
| A display panel comprises the following elements. A pixel array arranged by a plurality of pixel devices is applied for producing images according to input signals. A plurality of COG chips are fabricated on a peripheral region of the display panel and connected in series wherein the COG |
| 6842201 |
Active matrix substrate for a liquid crystal display and method of forming the same |
January 11, 2005 |
| An active matrix substrate for a liquid crystal display and method of forming the same. To form the active matrix substrate five masks are needed. The first mask forms data lines on the transparent substrate. After forming a low k dielectric layer, the second mask forms contact windo |
| 6839398 |
Shift-register circuit |
January 4, 2005 |
| A shift-register circuit. The input circuit receives the input pulse and outputs a high-voltage level input signal when the input pulse is at high voltage level. The level shifting circuit includes a first PMOS transistor having a first gate, a first drain and a first source coupled to a |
| 6834095 |
Shift-register circuit |
December 21, 2004 |
| A shift-register circuit comprises an inverter and first to fourth transistors. The first transistor includes a gate coupled to an inverse clock signal, and a first source/drain coupled to a signal output from a previous-stage shift-register unit. The inverter includes a first input |
| 6825901 |
Multi-directional diffusion-symmetric slant reflector |
November 30, 2004 |
| A multi-directional diffusion-symmetric slant reflector. A substrate having a plurality of domains thereon is provided. A plurality of diffusion-symmetric slant reflectors are formed on the substrate. The diffusion-symmetric slant reflectors has a variety of shapes, including conical |
| 6825612 |
Organic light emitting diode including ditches in a substrate |
November 30, 2004 |
| An organic light emitting diode (OLED) includes a bottom substrate, a bottom electrode formed on the bottom substrate, an organic layer formed on a predetermined region of the bottom electrode, a top electrode formed on the organic layer, a top substrate, and a sealing material formed on |
| 6825497 |
Active matrix substrate for a liquid crystal display and method of forming the same |
November 30, 2004 |
| An active matrix substrate for a liquid crystal display and method of forming the same. To form the active matrix substrate five masks are needed. The first mask forms gate lines on the transparent substrate. The second mask patterns a stacked layer of a metal layer/an n-doped layer/a |
| 6819494 |
Lens-implanted optical sheet and method for manufacturing the same |
November 16, 2004 |
| A method for manufacturing a lens-implanted optical sheet is disclosed, which includes following steps: (A) laying a patterned screen mask on an inner surface of a mold (B) coating or transferring-printing a layer of an adhesive or a binder on said inner surface (C) removing said pattern |
| 6819277 |
Method for reducing spikes in a digital-to-analog converter |
November 16, 2004 |
| A method is used for reducing spikes in a digital-to-analog converter (DAC), which includes a plurality of digit circuits for transforming a digital voltage signal into an analog voltage signal. The method includes receiving the digital voltage signal, setting the digit circuit corre |
