Patent application number | Description | Published |
20110204470 | METHOD, SYSTEM, AND APPARATUS FOR ADJUSTING LOCAL AND GLOBAL PATTERN DENSITY OF AN INTEGRATED CIRCUIT DESIGN - An integrated circuit (IC) design method providing a circuit design layout having a plurality of functional blocks disposed a distance away from each other; identifying a local pattern density to an approximate dummy region, on the circuit design layout, within a predefined distance to one of the functional blocks; performing a local dummy insertion to the approximate dummy region according to the local pattern density; repeating the identifying and performing to at least some other of the functional blocks; and implementing a global dummy insertion to a non-local dummy region according to a global pattern density. | 08-25-2011 |
20110245949 | METHOD AND APPARATUS OF PATTERNING SEMICONDUCTOR DEVICE - Provided is an apparatus for fabricating a semiconductor device. The apparatus includes a first photomask and a second photomask. The first photomask has a plurality of first features thereon, and the first photomask having a first global pattern density. The second photomask has a plurality of second features thereon, and the second photomask has a second global pattern density. The plurality of first and second features collectively define a layout image of a layer of the semiconductor device. The first and second global pattern densities have a predetermined ratio. | 10-06-2011 |
20120072874 | DISSECTION SPLITTING WITH OPTICAL PROXIMITY CORRECTION AND MASK RULE CHECK ENFORCEMENT - The present disclosure provides one embodiment of an integrated circuit (IC) design method. The method includes receiving an IC design layout having a plurality of main features; applying a main feature dissection to the main features of the IC design layout and generating sub-portions of the main features; performing an optical proximity correction (OPC) to the main features; performing a mask rule check (MRC) to a main feature of the IC design layout; and modifying one of the sub-portions of the main feature if the main feature fails the MRC. | 03-22-2012 |
20120192126 | SYSTEMS AND METHODS PROVIDING ELECTRON BEAM PROXIMITY EFFECT CORRECTION - A method for writing a design to a material using an electron beam includes assigning a first dosage to a first polygonal shape. The first polygonal shape occupies a first virtual layer and includes a first set of pixels. The method also includes simulating a first write operation using the first polygonal shape to create the design, discerning an error in the simulated first write operation, and assigning a second dosage to a second polygonal shape to reduce the error. The second polygonal shape occupies a second virtual layer. The method further includes creating a data structure that includes the first and second polygonal shapes and saving the data structure to a non-transitory computer-readable medium. | 07-26-2012 |
20120227018 | Method and Apparatus of Patterning Semiconductor Device - Provided is an apparatus for fabricating a semiconductor device. The apparatus includes a first photomask and a second photomask. The first photomask has a plurality of first features thereon, and the first photomask having a first global pattern density. The second photomask has a plurality of second features thereon, and the second photomask has a second global pattern density. The plurality of first and second features collectively define a layout image of a layer of the semiconductor device. The first and second global pattern densities have a predetermined ratio. | 09-06-2012 |
20130024822 | DOUBLE PATTERNING METHODOLOGY - Provided is a method of fabricating a semiconductor device. The method includes providing an integrated circuit layout plan, the integrated circuit layout plan containing a plurality of semiconductor features. The method includes selecting a subset of the features for decomposition as part of a double patterning process. The method includes designating a relationship between at least a first feature and a second feature of the subset of the features. The relationship dictates whether the first and second features are assigned to a same photomask or separate photomasks. The designating is carried out using a pseudo feature that is part of the layout plan but does not appear on a photomask. The method may further include a double patterning conflict check process, which may include an odd-loop check process. | 01-24-2013 |
20130246981 | DISSECTION SPLITTING WITH OPTICAL PROXIMITY CORRECTION TO REDUCE CORNER ROUNDING - The present disclosure provides one embodiment of an integrated circuit (IC) method. The method includes receiving an IC design layout having an main feature, the main feature including two corners and an edge spanning between the two corners; performing a feature adjustment to the edge; performing a dissection to the edge such that the edge is divided to include two corner segments and one center segment between the two corner segments; performing a first optical proximity correction (OPC) to the main feature for a center target associated with the center segment; thereafter, performing a second OPC to the main feature for two corner targets associated with the corner segments; and thereafter, performing a third OPC to main feature for the center target, resulting in a modified design layout. | 09-19-2013 |
20130275925 | Pattern Correction With Location Effect - The present disclosure provides one embodiment of an integrated circuit (IC) method. The method includes receiving an IC design layout having a plurality of IC regions each including an IC pattern; performing a dissection process to the IC design layout; and performing a correction process to the IC design layout using a correction model that includes proximity effect and location effect. The correction process includes performing a first correction step to a first IC region of the IC regions, resulting in a first corrected IC pattern in the first IC region; and performing a second correction step to a second IC region of the IC regions, starting with the first corrected IC pattern, resulting in a second corrected IC pattern. | 10-17-2013 |
20130275926 | NOVEL METHODOLOGY OF OPTICAL PROXIMITY CORRECTION OPTIMIZATION - A method for performing OPC and evaluating OPC solutions is disclosed. An exemplary method includes receiving a design database corresponding to an IC circuit mask. A first lithography simulation and evaluation is performed on the design database utilizing a first set of performance indexes. A modification is made to the design database based on a result of performing the first lithography simulation and evaluation. A second lithography simulation and evaluation is performed on the design database utilizing a second set of performance indexes to verify the modification. If necessary, the design database is modified again based on a result of the second lithography simulation and evaluation. The modified design database is provided to a mask manufacturer for manufacturing the mask corresponding to the modified design database. | 10-17-2013 |
20140033144 | PROVIDING ELECRON BEAM PROXIMITY EFFECT CORRECTION BY SIMULATING WRITE OPERATIONS OF POLYGONAL SHAPES - A method for writing a design to a material using an electron beam includes assigning a first dosage to a first polygonal shape. The first polygonal shape occupies a first virtual layer and includes a first set of pixels. The method also includes simulating a first write operation using the first polygonal shape to create the design, discerning an error in the simulated first write operation, and assigning a second dosage to a second polygonal shape to reduce the error. The second polygonal shape occupies a second virtual layer. The method further includes creating a data structure that includes the first and second polygonal shapes and saving the data structure to a non-transitory computer-readable medium. | 01-30-2014 |
20140109026 | Novel Methodology of Optical Proximity Correction Optimization - A method for performing optical proximity correction (OPC) and evaluating OPC solutions is disclosed. An exemplary method includes receiving a design database corresponding to an IC circuit mask. A first OPC modification to a mask feature of the design database is made by performing a first OPC process. The OPC process includes: dividing the mask feature into child shapes and adjusting an attribute of a child shape based on an edge placement error (EPE) factor. A first lithography simulation is performed utilizing a first set of performance indexes after making the first OPC modification, and a second OPC modification to the mask feature is made based on a result of the first lithography simulation. A second lithography simulation of the mask feature is performed utilizing a second set of performance indexes to verify the first and second OPC modifications, and the design database is provided for manufacturing. | 04-17-2014 |
Patent application number | Description | Published |
20110299086 | SENSING DEVICE AND IMAGE SENSING SYSTEM THEREOF - A sensing device includes a housing and an image sensing system disposed in the housing and used for detecting a reflected light from an object. The image sensing system includes a substrate, a light sensing element, and a reflection and redirection element. The light sensing element is disposed on the substrate. The reflection and redirection element is disposed between the light sensing element and the object, and used for reflecting and redirecting the reflected light from the object to a receiving direction of the light sensing element, such that the light sensing element receives the reflected light and generates a corresponding sensing signal. | 12-08-2011 |
20120068940 | ELECTRONIC DEVICE - An electronic device includes a housing, an optical touch module, and a detecting unit. The housing includes a first body and a second body, and an angle is formed between the first body and the second body. The optical touch module executes a positioning function by sensing signals. The detecting unit is configured to the optical touch module, and is used for detecting the angle. When the angle is smaller than a predetermined angle, the detecting unit instructs the optical touch module to pause executing the positioning function, so as to avoid false position determinations by the optical touch module. | 03-22-2012 |
20120098795 | OPTICAL TOUCH SCREEN SYSTEM AND SENSING METHOD FOR THE SAME - An optical touch screen system includes a touch screen, an image-sensing device, and a processing device. The image-sensing device generates a plurality of light-shielding information of an object at a plurality of time points. The processing device coupled to the image-sensing device includes a computing unit calculating a projected size difference value according to the plurality of light-shielding information, wherein the projected size difference value is a difference value between the projected sizes of the object on the touch screen at two different time points. | 04-26-2012 |
20120327035 | OPTICAL TOUCH SYSTEM AND IMAGE PROCESSING METHOD THEREOF - An optical touch system includes an image sensor module and a processor. The image sensor module includes a plurality of image sensing elements that can be independently controlled to achieve different exposure times. The plurality of image sensor elements can produce a picture including a plurality of pixel groups. The processor is configured to extract an intensity value of each pixel group and to select a set of successive pixel groups as an object image according to the intensity values of the pixel groups. | 12-27-2012 |
20130033456 | OPTICAL TOUCH SYSTEM AND ELECTRONIC APPARATUS INCLUDING THE SAME - An optical touch system includes a touch surface having a first touch region and a second touch region, a reflective member for generating a reflection of an object on the touch surface, an image sensor for providing an image of the object and an image of the reflection, and a processing unit. The image sensor is represented by either first reference coordinate data or second reference coordinate data. The processing unit is configured to compute the coordinate data of the object using the first reference coordinate data, the image of the object, and the image of the reflection to when the object is in the first touch region, and configured to compute the coordinate data of the object using the second reference coordinate data, the image of the object, and the image of the reflection when the object is in the second touch region. | 02-07-2013 |
Patent application number | Description | Published |
20080266620 | SCANNER CAPABLE OF POSITIONING A SCAN START POSITION AND RELATED METHOD - A scanner includes a housing, a transparent platen disposed on the housing for positioning a document, and a calibration pattern formed on a side of the transparent platen. The calibration pattern includes an arc having a first point and a second point. The scanner further includes an optical engine installed inside the housing for scanning the document and the calibration pattern with movement in a first direction, and a control module installed inside the housing for controlling the optical engine to move to a scan start position according to the first point and the second point of the calibration pattern scanned by the optical engine and a radius of curvature of the arc. | 10-30-2008 |
20090102117 | DE-SKEW MECHANISM - A de-skew mechanism, in an image forming device, with a correcting member disposed in a rotatable manner to the rotary shaft and turning with driving roller by a spring between them. A torque spring suppresses the turning of the correcting member to correct the skew of the medium. When conveyed, the medium will butt against the correcting member to be stopped and corrected. The medium conveying force and the force that the spring brings to the driving roller are sufficient for turning the correcting member and passing therethrough. At one time, the force that the correcting member brings to the medium will reduce to zero. As such, the medium will not be damaged by the correcting member while being conveyed. | 04-23-2009 |
20090189338 | DE-SKEW MECHANISM - A de-skew mechanism includes a driving shaft installed on a frame of an image forming device and driven by a motor, an active roller installed on the driving shaft and driven by the driving shaft, and an idle roller driven by the active roller for driving a medium with the active roller. A nip is formed between the active roller and the idle roller. The de-skew mechanism further includes a correcting member installed on the driving shaft in a rotatable manner and located upstream of the nip for correcting skew of the medium in a correcting position, and a restoring member connected to the correcting member for loading torque to the correcting member so as to drive the connecting member from the correcting position to a releasing position where the medium pass therethrough. | 07-30-2009 |
20090189343 | PAPER-FEEDING MECHANISM - The paper-feeding mechanism includes a duplex drive roller disposed on a terminal end of a feeding path of an image-forming device for feeding paper and on a side of an output tray, a first idle roller for conveying the paper back to the output tray with the duplex drive roller after a single side of the paper is printed, a second idle roller for conveying the paper back to the output tray with the duplex drive roller after double sides of the paper are printed, and a stop means installed between the terminal end of the feeding path and the output tray for switching to a shut position to stop the paper when the paper is driven back to the feeding path and for switching to an open position when the paper is driven to the output tray after the double sides of the paper are printed. | 07-30-2009 |
Patent application number | Description | Published |
20110316762 | ELECTRONIC SYSTEM, METHOD FOR CONTROLING MOBILE APPARATUS, READING APPARATUS AND METHOD FOR CONTORLING THEREOF - An electronic system comprises a mobile apparatus and a reading apparatus. The reading apparatus has a display screen and a plurality of operation units. When the reading apparatus is linked with the mobile apparatus through a data-transmission interface, the reading apparatus displays an image of an electronic file on the display screen thereof which is stored in the mobile apparatus. When one of the operation units is enabled, the reading apparatus generates a corresponding operation signal to the mobile apparatus, thus the mobile apparatus performs a corresponding operation process according to the operation signal. | 12-29-2011 |
20120018718 | Self-aligned top-gate thin film transistors and method for fabricating same - A self-aligned top-gate thin film transistor and a fabrication method thereof. The method includes preparing a substrate having sequentially formed thereon an oxide semiconductor layer, a dielectric layer, and a metallic layer, wherein the oxide semiconductor layer includes first and second connecting regions that are not covered by the dielectric layer and the metallic layer thereon respectively, the first and second connecting regions having a property of a conductor after undergone a heating process or an ultraviolet irradiation; and a source electrode and a drain electrode formed on the substrate and connected to the first and second connecting regions, respectively. Therefore, the contact resistance of the first and second connecting regions can be reduced without the process of ion dopants as required by prior art techniques, thereby simplifying the manufacturing process. Also, the source electrode and the drain electrode can be exactly relocated and further increase performance of the device. | 01-26-2012 |
20120018719 | PHOTO TRANSISTOR - A phototransistor includes a substrate, a gate layer, a dielectric layer, an active layer, a source and a drain, and a light absorption layer. The gate layer is disposed on a top of the substrate, and the dielectric layer is disposed on a top of the gate layer. The active layer has a first bandgap and is disposed on a top of the dielectric layer, and the source and the drain are disposed on a top of the active layer. The light absorption layer has a second bandgap and is capped on the active layer, and the second bandgap is smaller than the first bandgap. | 01-26-2012 |
20120313084 | METAL OXIDE SEMICONDUCTOR TRANSISTOR - A metal oxide semiconductor transistor includes a gate, a metal oxide active layer, a gate insulating layer, a source, and a drain. The metal oxide active layer has a first surface and a second surface, and the first surface faces to the gate. The gate insulating layer is disposed between the gate and the metal oxide active layer. The source and the drain are respectively connected to the metal oxide active layer. The second surface defines a mobility enhancing region between the source and the drain. An oxygen content of the metal oxide active layer in the mobility enhancing region is less than an oxygen content of the metal oxide active layer in the region outside the mobility enhancing region. The metal oxide semiconductor transistor has high carrier mobility. | 12-13-2012 |
Patent application number | Description | Published |
20090166817 | EXTREME LOW-K DIELECTRIC FILM SCHEME FOR ADVANCED INTERCONNECTS - An extreme low-k (ELK) dielectric film scheme for advanced interconnects includes an upper ELK dielectric layer and a lower ELK dielectric with different refractive indexes. The refractive index of the upper ELK dielectric layer is greater than the refractive index of the lower ELK dielectric layer. | 07-02-2009 |
20100068875 | DOUBLE TREATMENT ON HARD MASK FOR GATE N/P PATTERNING - The present disclosure provides a method that includes providing a semiconductor substrate having a first region and a second region, forming first and second gate stacks over the first and second regions, respectively, the first and second gate stacks each including a dummy gate electrode, removing the dummy gate electrodes from the first and second gate stacks, respectively, thereby forming trenches, forming a metal layer to partially fill the trenches, forming an oxide layer over the metal layer filling a remaining portion of the trenches, applying a first treatment to the oxide layer, forming a patterned photoresist layer on the oxide layer overlying the first region, applying a second treatment to the oxide layer overlying the second region, etching the oxide layer overlying the second region, etching the first metal layer overlying the second region, removing the patterned photoresist layer, and removing the oxide layer overlying the first region. | 03-18-2010 |
20110183508 | REPLACEMENT GATE FinFET DEVICES AND METHODS FOR FORMING THE SAME - A structure and method for replacement metal gate technology is provided for use in conjunction with semiconductor fins or other devices. An opening is formed in a dielectric by removing a sacrificial gate material such as polysilicon. The surfaces of the semiconductor fin within which a transistor channel is formed, are exposed in the opening. A replacement metal gate is formed by forming a diffusion barrier layer within the opening and over a gate dielectric material, the diffusion barrier layer formation advantageously followed by an in-situ plasma treatment operation. The treatment operation utilizes at least one of argon and hydrogen and cures surface defects in the diffusion barrier layer enabling the diffusion barrier layer to be formed to a lesser thickness. The treatment operation decreases resistivity, densifies and alters the atomic ratio of the diffusion barrier layer, and is followed by metal deposition. | 07-28-2011 |
20110189847 | METHOD FOR METAL GATE N/P PATTERNING - A method for fabricating a integrated circuit is disclosed. An exemplary method includes providing a substrate; forming a hard mask layer over the substrate; forming a patterned photoresist layer over the hard mask layer, such that portions of the hard mask layer are exposed; performing a dry etching process to remove the exposed portions of the hard mask layer; removing the patterned photoresist layer using at least one of a nitrogen plasma ashing and a hydrogen plasma ashing; and performing a wet etching process to remove remaining portions of the hard mask layer. | 08-04-2011 |
Patent application number | Description | Published |
20080269454 | Linear thermoplastic polyurethanes and method of fabricating the same - A linear thermoplastic polyurethane is provided. The linear thermoplastic polyurethane is prepared by starting materials of a difunctional hydrophilic polyether-polyol, 4,4-methylene bisphenyl diisocyanate (MDI) and a difunctional aliphatic polyester-polyol, wherein the starting materials of the linear thermoplastic polyurethane have an NCO:OH ratio of about 0.9:1-1.2:1. The invention also provides a method of fabricating the linear thermoplastic polyurethane. | 10-30-2008 |
20090143518 | FIRE RESISTANT MATERIAL AND FORMATION THEREOF - The invention provides a fire resistant material and a formulation thereof. The formulation comprises a liquid suspension of a modified inorganic particle and an organic component. The modified inorganic particle comprises an inorganic particle with hydroxyl groups and a surface modifier coupled to the inorganic particle via a urethane linkage, wherein the surface modifier has an ethylenically unsaturated end group. The organic component comprises a monomer, oligomer, prepolymer, polymer, or combinations thereof, capable of reacting with the ethylenically unsaturated end group. | 06-04-2009 |
20090143603 | MODIFIED INORGANIC PARTICLES AND METHODS OF PREPARING THE SAME - Disclosed are modified inorganic particles and methods of preparing the same. The modified inorganic particle comprises an inorganic particle with hydroxyl groups, and a surface modifier coupled to the inorganic particle via a urethane linkage, wherein the surface modifier has an ethylenically unsaturated end group. The method comprises providing an inorganic particle with hydroxyl groups; providing a surface modifier with an isocyanate group at one end and an ethylenically unsaturated group at the other end; and mixing the inorganic particle with the surface modifier for reaction such that the surface modifier is coupled to the inorganic particle. | 06-04-2009 |
20110082226 | MULTI-ISOCYANATE PREPOLYMER - Disclosed is a multi-isocyanate prepolymer formed by reacting diisocyanate and/or diisocyanate trimer with diol and/or triol. Because the prepolymer and the diol/triol have similar molecular weights, additional crosslink agents such as diamine, multi-amine, or combinations thereof are not necessary. Furthermore, the prepolymer can be blown to form foam, or directly gelled to form an unbubbled product such as film. | 04-07-2011 |
20110288203 | FIRE RESISTANT MATERIAL AND FORMULATION THEREOF - The invention provides a fire resistant material and a formulation thereof. The formulation comprises a liquid suspension of a modified inorganic particle and an organic component. The modified inorganic particle comprises an inorganic particle with hydroxyl groups and a surface modifier coupled to the inorganic particle via a urethane linkage, wherein the surface modifier has an ethylenically unsaturated end group. The organic component comprises a monomer, oligomer, prepolymer, polymer, or combinations thereof, capable of reacting with the ethylenically unsaturated end group. | 11-24-2011 |
Patent application number | Description | Published |
20110169056 | HYDROGEN ION-SENSITIVE FIELD EFFECT TRANSISTOR AND MANUFACTURING METHOD THEREOF - A hydrogen ion-sensitive field effect transistor and a manufacturing method thereof are provided. The hydrogen ion-sensitive field effect transistor includes a semiconductor substrate, an insulating layer, a transistor gate, and a sensing film. A gate area is defined on the semiconductor substrate having a source area and a drain area. The insulating layer is formed within the gate area on the semiconductor substrate. The transistor gate is deposited within the gate area and includes a first gate layer. Further, the first gate layer is an aluminum layer, and a sensing window is defined thereon. The sensing film is an alumina film formed within the sensing window by oxidizing the first gate layer. Thus, the sensing film is formed without any film deposition process, and consequently the manufacturing method is simplified. | 07-14-2011 |
20130146899 | CMOS SENSOR WITH IMAGE SENSING UNIT INTEGRATED THEREIN - A complementary metal-oxide semiconductor (CMOS) sensor with an image sensing unit integrated therein is provided. The CMOS sensor includes a first substrate, a CMOS circuit, and a sensing device. The first substrate has the image sensing unit formed thereon. The CMOS circuit is disposed on the first substrate and has a receiving space. The sensing device is disposed in the receiving space. The image sensing unit is located at a position from which the image sensing unit can monitor the sensing device. Accordingly, the image sensing unit monitors the sensing device by sensing its image. | 06-13-2013 |
20130153969 | STRUCTURE FOR MOSFET SENSOR - A structure for a metal-oxide-semiconductor field-effect transistor (MOSFET) sensor is provided. The structure includes a MOSFET, a sensing membrane, and a reference electrode. The reference electrode and the sensing membrane are formed on the first surface of the MOSFET and are arranged in such a way that the reference electrode and the sensing membrane are uniformly and electrically coupled to each other. Thus, the electric field between the sensing membrane and the reference electrode is uniformly distributed therebetween to stabilize the working signal of the MOSFET sensor. | 06-20-2013 |
20130335132 | CIRCUIT SHARING TIME DELAY INTEGRATOR - The present invention discloses a circuit sharing time delay integrator structure. The major composing elements of this circuit sharing time delay integrator structure are: a sharing circuit, a first control block, a plurality of second control blocks and a timing set generated by a timing generator circuit. The sharing circuit can be an OP-AMP, an active load, or any of a variety of combinations used in signal accumulation applications. With the implementation of the present invention to applications of signal accumulations, the necessity of an adder circuitry is eliminated, the overall circuitry and hence the total amount of transistors required when producing the integrated circuit is massively reduced, and thus a great cost reduction and better timing and power efficiency can all be thereof achieved. | 12-19-2013 |
Patent application number | Description | Published |
20110155230 | MULTI-BANDGAP SOLAR CELL AND METHOD PRODUCING THE SAME - A multi-bandgap solar cell is produced by using a transparent intercellular layer to bind two solar cells with different bandgaps. The intercellular layer has at least an adhesive layer. | 06-30-2011 |
20110159629 | METHOD OF FORMING THREE-TERMINAL SOLAR CELL ARRAY - A method for manufacturing three-terminal solar cell array is provided. In this method, only four major scribing or etching steps are needed to expose the three conductive layers of the three-terminal solar cell and isolate the individual solar cells. | 06-30-2011 |
20110308569 | MULTI-TERMINAL SOLAR PANEL - A multi-terminal solar panel includes a first substrate, a first solar cell layer, a transparent intercellular layer, a second solar cell layer and a second substrate. The first solar cell layer is disposed on the first substrate and has a first bandgap. The first solar cell layer includes two first terminal outputs, arranged substantially in parallel with each other, at two opposite edges thereof. The transparent intercellular layer is disposed on the first solar cell layer and exposes the two first terminal outputs. The second solar cell layer is disposed on the transparent intercellular layer and has a second bandgap. The second solar cell layer includes two second terminal outputs, arranged substantially in parallel with each other, at two opposite edges thereof. The second substrate is disposed on the second solar cell layer, wherein the two second terminal outputs are substantially perpendicular to the two first terminal outputs. | 12-22-2011 |
20110315215 | COLOR BUILDING-INTEGRATED PHOTOVOLTAIC (BIPV) MODULE - The present invention provides a color backsheet for a building-integrated photovoltaic (BIPV) module comprising a polyethylene terephthalate (PET) film, a barrier layer and a fluorine-containing polymer film, at least one of the films being doped with dyes or pigments. The present invention also provides a color BIPV module comprising the color backsheet according to the present invention. | 12-29-2011 |
20110315216 | COLOR BUILDING-INTEGRATED PHOTOVOLTAIC (BIPV) MODULE - The present invention provides a color backsheet for a building-integrated photovoltaic (BIPV) module comprising a polyethylene terephthalate (PET) film and a fluorine-containing polymer film, at least one of the films being doped with dyes or pigments. The present invention also provides a color BIPV module comprising the color backsheet according to the present invention. | 12-29-2011 |
Patent application number | Description | Published |
20110163994 | TOUCH SENSING SYSTEM, CAPACITANCE SENSING APPARATUS AND CAPACITANCE SENSING METHOD THEREOF - A touch sensing system includes a touch input interface and at least one capacitance sensing apparatus. The capacitance sensing apparatus includes a plurality of switch units and a differential sensing circuit. Each of the switch units is coupled to a corresponding sensing capacitor. A sensing input end of the differential sensing circuit receives a capacitance under test provided by at least one of the sensing capacitors. A reference input end of the differential sensing circuit receives a reference capacitance provided by at least one of the sensing capacitors. The differential sensing circuit compares the capacitance under test and the reference capacitance to output a first difference between the capacitance under test and the reference capacitance through an output end of the differential sensing circuit. A capacitance sensing method is also provided. | 07-07-2011 |
20110187390 | TOUCH SENSING SYSTEM, CAPACITANCE SENSING CIRCUIT, AND CAPACITANCE SENSING METHOD - A touch sensing system including a touch input interface and a capacitance sensing circuit is provided. The touch input interface includes a plurality of sensing capacitors for outputting a capacitance under test and a reference capacitance. The capacitance sensing circuit includes a first sensing channel, a second sensing channel, and a difference comparing unit. During a first period of the sensing period, the first sensing channel senses the capacitance under test, and the second sensing channel senses the reference capacitance. During a second period of the sensing period, the first sensing channel senses the reference capacitance, and the second sensing channel senses the capacitance under test. The difference comparing unit outputs a difference according to the capacitance under test and the reference capacitance. Additionally, a capacitance sensing method is also provided. | 08-04-2011 |
20110187663 | OBJECT SENSING APPARATUS, TOUCH SENSING SYSTEM, AND TOUCH SENSING METHOD - An object sensing apparatus including an object sensing unit, a signal selecting unit, at least one signal sensing unit, and a control unit is provided. The object sensing unit outputs a plurality of sensing signals. The signal selecting unit selects at least one of the sensing signals as a signal under test and selects at least one of the unselected sensing signals as a reference signal. The signal sensing unit outputs a difference signal according to the signal under test and the reference signal. The control unit determines an object position relative to the object sensing unit according to the difference signal. Additionally, a touch sensing apparatus and a method thereof are also provided. | 08-04-2011 |
20110193571 | TOUCH SENSING SYSTEM, CAPACITANCE SENSING CIRCUIT AND CAPACITANCE SENSING METHOD THEREOF - A touch sensing system which includes a touch input interface and a capacitance sensing circuit is provided. The touch input interface includes a plurality of sensing capacitors which output at least one waveform under test and at least one reference waveform. The capacitance sensing circuit includes a difference comparing unit. The difference comparing unit receives the waveform under test and the reference waveform and outputs a differential signal according to at least one positive edge difference and at least one negative edge difference between the waveform under test and the reference waveform. Furthermore, a capacitance sensing method is also provided. | 08-11-2011 |
20110199323 | TOUCH SENSING METHOD AND SYSTEM USING THE SAME - A touch sensing system includes a touch interface and a control unit. The touch interface senses at least one area change generated on the touch interface by at least one object. The control unit defines a touch gesture corresponding to the at least one object according to the at least one area change, so as to perform a touch operation according to the touch gesture. On the other hand, a touch sensing method is also provided. For users, the touch sensing method in the invention employs a pseudo three-dimensional touch sensing technology, such that applications of the touch sensing technology become more diverse. | 08-18-2011 |
20110210930 | SENSING AND DRIVING APPARATUS, TOUCH SENSING SYSTEM, AND SENSING AND DRIVING METHOD - A sensing and driving apparatus suitable for a sensing interface is provided. The sensing and driving apparatus includes a driving module and a sensing unit. The driving module outputs a first reference signal and a second reference signal which have different polarities with each other, and respectively transmits the first reference signal and the second reference signal to a first driving line and a second driving line of the sensing interface so as to generate a first sensing signal during a first period. The sensing unit receives the first sensing signal and detects a change of the first signal so as to generate a sensing result. A sensing and driving method, a touch sensing system and a device using the same are also provided herein. | 09-01-2011 |
20110234522 | TOUCH SENSING METHOD AND SYSTEM USING THE SAME - A touch sensing system including a touch interface and a control unit is provided. The touch interface senses at least one edge change of at least one region on the touch interface corresponding to at least one object. The control unit defines a touch gesture corresponding to the object according to the edge change so as to perform a touch operation corresponding to the touch gesture. Additionally, a touch sensing method is also provided. In the touch sensing method, whether the touch gesture is a moving gesture, a rotation gesture, a flip gesture, a zoom-in gesture, or a zoom-out gesture is determined according to any change of a touch region. | 09-29-2011 |
20110234523 | TOUCH SENSING SYSTEM, ELECTRONIC TOUCH APPARATUS, AND TOUCH SENSING METHOD - A touch sensing system including a touch interface, at least one sensing unit, and a switching unit is provided. The sensing unit is coupled to the touch interface. The touch sensing system is switched to a first sensing mode or a second sensing mode by the switching unit according to a control signal. When the touch sensing system is in the first sensing mode, the sensing unit senses a first sensing signal and a second sensing signal of the touch interface. On the other hand, when the touch sensing system is in the second sensing mode, the sensing unit senses the first sensing signal according to a driving signal. An electronic touch apparatus and a touch sensing method are also provided. | 09-29-2011 |
20110260992 | PANEL CONTROL DEVICE AND OPERATION METHOD THEREOF - A panel control device and an operation method thereof are provided. The panel control device includes a touch controller and a display controller. The display controller drives a touch display panel module to display an image. The touch controller senses a touch event of the touch display panel module. Wherein, the sensing operation of the touch controller is enabled/disabled in accordance with the driving operation of the display controller. | 10-27-2011 |
20120188175 | Single Finger Gesture Determination Method, Touch Control Chip, Touch Control System and Computer System - A single finger gesture determination method is disclosed. The single touch gesture determination method includes steps of detecting one or more trigger signals, determining respective categories under a plurality of gesture groups to which the one or more trigger signals belong according to the one or more trigger signals, and deciding a finger gesture represented by the one or more trigger signals according to the determined respective categories under the plurality of gesture groups. | 07-26-2012 |
20120223895 | Single-Finger and Multi-Touch Gesture Determination Method, Touch Control Chip, Touch Control System and Computer System - A single-finger and multi-touch gesture determination method is disclosed. The single touch and multi-touch gesture determination method includes steps of: for each of one or more touch points, judging a respective category under a first group to which the touch point belongs, according to an initial position of the touch point; for each of the one or more touch points, judging a respective category under a second group to which the touch point belongs, according to a moving pattern of the touch point, wherein the moving pattern is respectively defined in the judged category under the first group to which the touch point belongs; and determining a gesture represented by the one or more touch points according to the judged categories under the second group respectively to which the one or more touch points belong. | 09-06-2012 |
20120313871 | TOUCH PANEL AND DISPLAY APPARATUS - A touch panel and a display apparatus are provided. The touch panel includes a substrate, first sensing lines, second sensing lines, first extending portions, second extending portions, and insulation pads. The first sensing lines are disposed on the substrate in parallel with a first direction. The second sensing lines are disposed on the substrate in parallel with a second direction. The first sensing lines intersect the second sensing lines to define meshes. The first extending portions are connected to the first sensing lines and extended toward the meshes. The second extending portions are connected to the second sensing lines and extended toward the meshes. The first extending portions and the second extending portions are distributed next to each other in the meshes. The insulation pads are disposed at where the first sensing lines intersect the second sensing lines to insulate the first sensing lines from the second sensing lines. | 12-13-2012 |
20120314392 | CAPACITOR ARRAY SUBSTRATE - A capacitor array substrate includes a substrate, first traces, second traces, capacitors, connecting lines, and signal lines. The substrate has a first, a second, and a third side. The first side is connected with the second and the third side. The first traces are disposed on the substrate in parallel and are not vertical or parallel to the first side. The second traces are disposed on the substrate in parallel. The capacitors are disposed on the substrate at intersections of the first and the second traces and are connected to the first and the second traces. The connecting lines are disposed on the second and the third side of the substrate. Each connecting line is connected to a first and a second trace. The signal lines are disposed on the substrate. Each signal line is connected to a first or a second trace and transmits signals from the first side. | 12-13-2012 |
20120319967 | SINGLE FPC BOARD FOR CONNECTING MULTIPLE MODULES AND TOUCH SENSITIVE DISPLAY MODULE USING THE SAME - A single flexible printed circuit (FPC) board for connecting multiple modules including a thin film is provided. The thin film has a first module connecting portion, a second module connecting portion and a third module connecting portion. The first module connecting portion is located on a first side of the thin film. The second module connecting portion and the third module connecting portion are located on a second side of the thin film. The first side is opposite to the second side. At least one first line is disposed between the first module connecting portion and the second module connecting portion. At least one second line is disposed between the first module connecting portion and the third module connecting portion. | 12-20-2012 |
20140002115 | CAPACITANCE SENSING METHOD | 01-02-2014 |
20150022744 | SINGLE FPC BOARD FOR CONNECTING MULTIPLE MODULES AND TOUCH SENSITIVE DISPLAY MODULE USING THE SAME - A single flexible printed circuit (FPC) board for connecting multiple modules including a thin film is provided. The thin film has a first module connecting portion, a second module connecting portion and a third module connecting portion. The first module connecting portion is located on a first side of the thin film. The second module connecting portion and the third module connecting portion are located on a second side of the thin film. The first side is opposite to the second side. At least one first line is disposed between the first module connecting portion and the second module connecting portion. At least one second line is disposed between the first module connecting portion and the third module connecting portion. | 01-22-2015 |
Patent application number | Description | Published |
20100131188 | Navigation system and control method thereof - A navigation system includes a touch screen for receiving a touch input and displaying a navigation map, mode-switching means for issuing a mode-switching command to switch the navigation system into an input mode, a memory for storing a database, and a controller to recognize a handwriting input or a gesture input to acquire an input information, search the database for a facility information corresponding to the input information, and show facilities represented by the facility information in the navigation map. | 05-27-2010 |
20100261505 | CONTROL METHOD FOR A CELL PHONE - Control methods for a cell phone are provided upon occurrence of a particular event, which receive a contact-related information from a touch screen of the cell phone, analyze the contact-related information to identify the contact position, the number of contact objects, or a gesture, to determine a further step to deal with the particular event. The particular event may include receipt of a call, sounding of an alarm of the cell phone, displaying of a short message on the touch screen, receipt of an interrupting call, or a standby mode of the cell phone. | 10-14-2010 |
20110012862 | SENSING METHOD AND CIRCUIT FOR A CAPACITIVE TOUCH PANEL - A sensing method for a capacitive touch panel includes charging a measure capacitor, setting the voltage across a mutual capacitor at the intersection of two traces of the capacitive touch panel, and then injecting partial charges of the measure capacitor into the mutual capacitor. When the intersection is touched, the capacitance value of the mutual capacitor is changed, and consequently the amount of charges injected into the mutual capacitor is changed. Hence, the voltage of the measure capacitor could be detected to determine whether or not the intersection is touched. | 01-20-2011 |
Patent application number | Description | Published |
20080265238 | PHASE CHANGE MEMORY DEVICES AND METHODS FOR MANUFACTURING THE SAME - Phase change memory devices and methods for manufacturing the same are provided. An exemplary embodiment of a phase change memory device includes a first electrode disposed in a first dielectric layer. A second dielectric layer is disposed over the first dielectric layer and the first electrode. A phase change material layer disposed in the second dielectric layer to electrically contact the first electrode. A third dielectric layer is disposed over the second dielectric layer. A second electrode is disposed in the third dielectric layer to electrically connect the phase change material layer and at least one gap disposed in the first dielectric layer or the second dielectric layer to thereby isolate portions of the phase change material layer and portions of the first or second dielectric layer adjacent thereto. | 10-30-2008 |
20080283814 | PHASE-CHANGE MEMORY ELEMENT - A phase-change memory element for reducing heat loss is disclosed. The phase-change memory element comprises a composite layer, wherein the composite layer comprises a dielectric material and a low thermal conductivity material. A via hole is formed within the composite layer. A phase-change material occupies at least one portion of the via hole. The composite layer comprises alternating layers or a mixture of the dielectric material and the low thermal conductivity material. | 11-20-2008 |
20090008695 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device is provided. The semiconductor device comprises a substrate. A lamination structure is on the substrate along a first direction. The lamination structure comprises a plurality of conductive layers arranged from bottom to top and separated from each other, and each of the conductive layers has a channel region and an adjacent source/drain doped region along the first direction. A first gate structure is on a sidewall of the channel region of each conductive layer. The first gate structure comprises an inner first gate insulating layer and an outer first gate conductive layer. | 01-08-2009 |
20090194759 | PHASE CHANGE MEMORY DEVICE - A phase change memory device is disclosed, including a substrate, a phase change layer over the substrate, a first electrode electrically connecting a first side of the phase change layer, a second electrode electrically connecting a second side of the phase change layer, wherein the phase change layer composes mainly of gallium (Ga), antimony (Sb) and tellurium (Te) and unavoidable impurities, having the composition range of Ga | 08-06-2009 |
20100117050 | PHASE-CHANGE MEMORY ELEMENT - A phase-change memory element with an electrically isolated conductor is provided. The phase-change memory element includes: a first electrode and a second electrode; a phase-change material layer electrically connected to the first electrode and the second electrode; and at least two electrically isolated conductors, disposed between the first electrode and the second electrode, directly contacting the phase-change material layers. | 05-13-2010 |
20110140067 | RESISTANCE SWITCHING MEMORY - A resistance switching memory is introduced herein. The resistance switching memory includes a highly-insulating or resistance-switching material formed to cover the sidewall of a patterned metal line, and extended alongside a dielectric layer sidewall to further contact a portion of the top surface of the lower electrode. The other part of the top surface of the lower electrode is covered by an insulating layer between the top electrode and the lower electrode. An oxygen gettering metal layer in the lower electrode occupies a substantial central part of the top surface of the lower electrode and is partially covered by the highly-insulating or resistance-switching material. A switching area is naturally very well confined to the substantial central part of the oxygen gettering metal layer of the lower electrode. | 06-16-2011 |
20110155992 | PHASE-SEPARATION TYPE PHASE-CHANGE MEMORY - A eutectic memory includes a eutectic memory material layer, a top and a bottom electrodes, or a left and a right electrodes. Materials of the eutectic memory layer are represented by M | 06-30-2011 |
20130009124 | RESISTIVE RAM HAVING THE FUNCTION OF DIODE RECTIFICATION - A type of resistance random access memory structure having the function of diode rectification includes a first electrode, a second electrode and a resistance conversion layer. The resistance conversion layer is disposed between the first electrode and the second electrode; and it includes a first oxidized insulating layer which is adjacently connected to the first electrode; a second oxidized insulating layer which is adjacently connected to the second electrode; as well as an energy barrier turning layer disposing between the first oxidized insulating layer and the second oxidized insulating layer. An energy barrier high can be adjusted and controlled to change the resistance by voltage between the energy barrier turning layer and the first oxidized insulating layer. A fixed energy barrier is formed between the second oxidized insulating layer and the energy barrier turning layer, so that the resistance random access memory element features the function of diode rectification. | 01-10-2013 |
Patent application number | Description | Published |
20110296530 | ELECTRONIC READING APPARATUS AND THE DATA SECURITY METHOD THEREOF - Present invention relates to an electronic reading apparatus with data security and anti-theft functions. The electronic reader apparatus has a code input unit for receiving a security code, and a code determining unit for determining an authenticity of the security code. When no security code, no authentic security code or even no operational signal has been received during the predetermined periods of time, a central control unit may stop a power supply unit from outputting power in order to turn off the electronic reader apparatus and clear the image shown on a display unit. As such, a content of sensitive or confidential data stored in the electronic reading apparatus may not be intruded. | 12-01-2011 |
20110315032 | TRANSFER PRINT STRUCTURE AND THE MANUFACTURING METHOD THEREOF - A transfer print structure is provided. The transfer print structure comprises a substrate; a color ink layer including a functional region; and an adhesive device combining the functional region with the substrate. | 12-29-2011 |
20110315989 | DISPLAY DEVICE, LASER TRANSFER PRINTING METHOD AND LASER TRANSFER COLOR DONOR SHEET - A display device includes a thin film transistor substrate, a display layer, a patterned color resist layer, a patterned UV block layer and a transparent protective layer. The thin film transistor substrate has a substrate and a plurality of thin film transistors. The display layer is disposed on the thin film transistor substrate. The patterned color resist layer is disposed on the display layer. The patterned UV block layer is disposed on the patterned color resist layer. The transparent protective layer is disposed on the patterned UV block layer. The present invention also provides a laser transfer printing method for fabricating the color resist layer and the patterned UV block layer. | 12-29-2011 |
20120070984 | METHOD FOR FORMING ELECTRODE STRUCTURE - In a method for forming an electrode structure in a display device, e.g. a source, drain or gate electrode or a pixel electrode, a photoactive conductive layer, which includes conductive material containing photoactive material, is formed above a substrate of the display device. The photoactive conductive layer is then patterned with a photo-mask and partially removed without the presence of a photo-resist to form the electrode structure. | 03-22-2012 |
20120162583 | FLEXIBLE ELECTRONIC PAPER DISPLAY APPARATUS AND MANUFACTURING METHOD THEREOF - A flexible electronic paper display apparatus includes a drive substrate and a display layer. The display layer is disposed on the drive substrate. The drive substrate includes a plastic substrate, a stainless steel layer, an insulation layer and a circuit unit. The stainless steel layer is disposed on the plastic substrate, the insulation layer is disposed on the stainless steel layer, and the circuit unit is disposed on the insulation layer. Production yield of the flexible electronic paper display apparatus can be increased. Additionally, a manufacturing method for the flexible electronic paper display apparatus is also provided. | 06-28-2012 |
20120194898 | E-PAPER DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A display device includes a substrate, a driving circuit, an E-paper display layer and a protective coating layer. The driving circuit is arranged on the substrate. The E-paper display layer is disposed on and driven by the driving circuit. The protective coating layer is coated on and in contact with the E-paper display layer. The protective coating layer can provide protection and better optical performance, and it is advantageous to the manufacturing method to overcome the problems such as bubbles and low light transmittance occurring in the conventional manufacturing method. | 08-02-2012 |
20120293882 | COLOR FILTER, APPLICATIONS THEREOF AND METHOD FOR MANUFACTURING THE SAME - A color filter suitable for being disposed on a substrate is provided. The color filter includes a plurality of pixel units separately disposed on the substrate so as to define a plurality of blank regions thereon. | 11-22-2012 |
20130143358 | METHOD FOR MANUFACTURING OXIDE THIN FILM TRANSISTOR - A method for manufacturing an oxide thin film transistor with leakage currents less than 10 | 06-06-2013 |
20130207099 | DISPLAY APPARATUS - A display apparatus includes a driving substrate and an organic light emitting diode device. The driving substrate includes a display area, a non-display area, a substrate and a transparent driving element. The transparent driving element is disposed in the non-display area to form a transparent region. The organic light emitting diode device is disposed over the driving substrate and located in the display area to form a non-transparent region. | 08-15-2013 |
Patent application number | Description | Published |
20090256991 | Flexible Display Apparatus - A flexible display apparatus includes a flexible display panel and a flexible printed circuit board (FPCB). The flexible display panel includes a display body and a peripheral circuit. The peripheral circuit is adjacent to the display body, and the FPCB is connected to the peripheral circuit. The FPCB includes a first portion and a second portion, wherein the first portion is connected between the peripheral circuit and the second portion. Bending modulus of the first portion is lower than that of the second portion. The flexible display apparatus has better reliability. Another flexible display apparatus is also provided. | 10-15-2009 |
20090310314 | Flexible Display Module and Method of Manufacturing the same - A flexible display module includes a flexible display panel and at least one flexible circuit board. The flexible display panel includes a flexible plastic substrate, a first driving circuit layer, a display layer and a second driving circuit layer. The thickness of the flexible plastic substrate is smaller than 30 micrometers. The first driving circuit layer having a view area and a peripheral circuit area is disposed on the flexible plastic substrate. The display layer is disposed on the first driving circuit layer and corresponding to the view area. The second driving circuit area is disposed on the display layer. The flexible circuit board is electrically connected to the peripheral circuit area through an anisotropic conductive film. In addition, a method of manufacturing a flexible display module is also provided. | 12-17-2009 |
20100028565 | Flexible Display Apparatus - A flexible display apparatus includes a waterproof layer, an insulation layer and a display unit, wherein the insulation layer is disposed on the waterproof layer and the display unit is disposed on the insulation layer. Furthermore, material of the waterproof layer includes organic compound. The flexible display apparatus has better reliability. | 02-04-2010 |
20100033451 | Flexible Display Panel and Fabricating Method thereof - In a flexible display panel and a fabricating method thereof, the flexible display panel includes a flexible substrate, a plurality of electro-phoretic pixel units, a plurality of electro-wetting pixel units, a transparent protective layer and a driving circuit. The electro-phoretic pixel units and the electro-wetting pixel units are formed in a first displaying area and a second displaying area of the flexible substrate respectively. The transparent protective layer is formed on the electro-phoretic pixel units and the electro-wetting pixel units, and the driving circuit is formed in the non-displaying area of the flexible substrate and electrically connected to the electro-phoretic pixel units and the electro-wetting pixel units. The flexible display panel may display static pictures through the electro-phoretic pixel units and display animation through the electro-wetting pixel units. Therefore, the flexible display panel has both the abilities for saving power and displaying animation. | 02-11-2010 |
20100053139 | Bistable Display Device - In a bistable display device having a driver circuit, the driver circuit has multiple electrical ports for electrically connecting to external circuits. The electric potential difference between any two neighboring ports is less than 10 volts so that electrical punch-through caused by great electric potential difference and short distance between the electrical ports is substantially avoided. | 03-04-2010 |
20100060841 | Flexible Display Panel - A flexible display panel comprises a flexible substrate, a display module, a driving unit and at least one anisotropic conductive film. The display module is disposed on the flexible substrate, and has a display area and a peripheral circuit area beside the display area. The anisotropic conductive film is connected between the peripheral circuit area and the driving unit, and the driving unit is electrically connected to the peripheral circuit area through the anisotropic conductive film. In addition, the anisotropic conductive film has an insulation film and a plurality of conductive particles disposed in the insulation film. Diameters of the conductive particles are in a range from 4.5 micrometers to 7 micrometers, and a distribution density of the conductive particles is a range from 45000 grains per square millimeter to 65000 grains per square millimeter. Therefore, the flexible display panel has high reliability. | 03-11-2010 |
20120075813 | FLEXIBLE DISPLAY APPARATUS - A flexible display apparatus includes a flexible display panel and a flexible printed circuit board (FPCB). The flexible display panel includes a display body and a peripheral circuit. The peripheral circuit is adjacent to the display body, and the FPCB is connected to the peripheral circuit. The FPCB includes a first portion and a second portion, wherein the first portion is connected between the peripheral circuit and the second portion. Bending modulus of the first portion is lower than that of the second portion. The flexible display apparatus has better reliability. Another flexible display apparatus is also provided. | 03-29-2012 |
20120212797 | FLEXIBLE DISPLAY DEVICE - A flexible display device includes a flexible substrate, a display layer, a first protecting layer, and at least one light-pervious polymer film. The display layer is arranged on the flexible substrate. The first protecting layer is arranged on the display layer. The at least one light-pervious polymer film is arranged on the first protecting layer. The light-pervious polymer film is used to protect the flexible display device from being damaged by external force. | 08-23-2012 |
20130027853 | ELECTRONIC DEVICE WITH IMPACT-RESISTANT DISPLAY MODULE - An electronic device includes a shell, a display module and a cushion. The shell includes a bottom plate and a top plate. The top plate defines an opening The display module is disposed in the shell and faces the opening The display module is spaced from the bottom plate of the shell. The cushion is disposed between the display module and the bottom plate of the shell, and brought into contact with the display module for cushioning the display module when an external force is applied to the display module. | 01-31-2013 |
Patent application number | Description | Published |
20110038202 | CONTROL DRIVER FOR MEMORY AND RELATED METHOD - A control driver for non-volatile memory includes a driving circuit, a level shift up circuit, and a select circuit. The select circuit receives a plurality of decoding signals, asserts a select signal when all of the decoding signals are asserted, and does not assert the select signal when any of the decoding signals is not asserted. The level shift up circuit receives the select signal, outputs the pull-up signal at a first voltage when the select signal is asserted, and outputs the pull-up signal at a second voltage when the select signal is not asserted. The driving circuit has a pull-up transistor for pulling up a control line signal according to the pull-up signal, and a pull-down transistor for pulling down the control line signal according to the pull-up signal. | 02-17-2011 |
20120087192 | Non-Volatile Memory Device with Program Current Clamp and Related Method - A method of programming a nonvolatile memory cell which comprises a select transistor and a memory transistor includes applying a preset limit current to a first input of the memory cell, applying a limit voltage to a current limiting circuit electrically connected to a second input of the memory cell, applying a limit voltage to stabilize a voltage drop of the memory cell, and applying a ramped gate voltage to the memory cell to program the memory cell with a preset limited current determined by the current limiting circuit. | 04-12-2012 |
20120230109 | Method of Setting Trim Codes for a Flash Memory and Related Device - A flash memory device with auto-trimming functionality includes a memory cell array comprising first memory cells and a fuse sector, a read circuit for reading a memory state of the first memory cells, an offset circuit for outputting offset current values, and an auto-trimming circuit. The auto-trimming circuit has a register for storing a current characteristic, a current control module for modifying input current applied to a first memory cell under test at a first address according to the memory state, and updating the current characteristic to the modified input current, an address counter for starting application of the modified input current to a second memory cell at a second address for test when reading the first memory cell passes, and a programming circuit for programming the fuse sector according to the current characteristic and the offset current values. | 09-13-2012 |
20130176808 | WORD LINE BOOST CIRCUIT - A word line boost circuit including a first address transfer detector, a second address transfer detector and a boost operation unit is provided. The first address transfer detector generates a first detection pulse in response to variation of a row address signal. The second address transfer detector generates a second detection pulse in response to variation of a column address signal. Moreover, the boost operation unit generates a selection voltage by using a boost voltage according to the first detection pulse, and determines whether or not to use the boost voltage to generate the selection voltage according to a delay time between the first detection pulse and the second detection pulse. | 07-11-2013 |
20130343126 | FLASH MEMORY APPARATUS WITH REFERENCE WORD LINES - The invention provides a flash memory apparatus including at least one flash memory array block and a sense amplifying module. The flash memory array block comprises N storage columns, N reference word-line cell units and a reference storage column, wherein N is a positive integer. Each of the reference word-line cell units disposed in each of the storage columns, wherein, the reference word-line cell units further coupled to a reference word line and a dummy word line. The reference storage column includes a plurality of reference bit-line cells, the reference word line and the dummy word line, one of the reference bit-line cells which coupled to the reference word line is coupled to a reference bit line. The sense amplifying module compares currents from one of the bit lines and the corresponding reference bit line to generate at least one sensing result. | 12-26-2013 |
20140006885 | MEMORY ARCHITECTURE AND ASSOCIATED SERIAL DIRECT ACCESS CIRCUIT | 01-02-2014 |
20140016414 | FLASH MEMORY - The present invention provides a flash memory including a memory cell, a current limiter and a program voltage generator. The memory cell is programmed in response to a program current and a program voltage. The current limiter reflects amount of the program current by a data-line signal, e.g., a data-line voltage. The program voltage generator generates and controls the program voltage in response to the data-line voltage, such that the program current can track to a constant reference current. | 01-16-2014 |
20140119125 | FLASH MEMORY - The present invention provides a flash memory including a memory cell, a current limiter and a program voltage generator. The memory cell is programmed in response to a program current and a program voltage. The current limiter reflects amount of the program current by a data-line signal, e.g., a data-line voltage. The program voltage generator generates and controls the program voltage in response to the data-line voltage, such that the program current can track to a constant reference current. | 05-01-2014 |
20140211562 | FLASH MEMORY AND ASSOCIATED PROGRAMMING METHOD - A flash memory includes a program voltage generator, plural memory units, a current limiter, and a multi-bit program control unit. The program voltage generator is used for providing a constant program voltage during a detecting cycle and providing a dynamically-adjustable program voltage during a program cycle. The plural memory units output plural drain currents and plural data line voltages to plural data lines. The current limiter is used for receiving a reference current and a reference voltage, thereby controlling the plural drain currents. During the detecting cycle, a specified data line voltage of the plural data line voltages with the minimum voltage level is detected by the multi-bit program control unit. During the program cycle, the specified data line voltage is used as a feedback voltage, and the dynamically-adjustable program voltage is generated by the program voltage generator according to the feedback voltage. | 07-31-2014 |
20140355353 | CURRENT SENSING AMPLIFIER AND SENSING METHOD THEREOF - A sensing method of a current sensing amplifier is provided used for determining a storing state of a cell of a non-volatile memory device during a read cycle. After a sensing node and a reference node are adjusted to a constant voltage, the sensing node and the reference node are maintained in a floating state. Then, the sensing node is connected with a data line to receive a cell current from the cell, and the reference node is connected with a reference current source to receive a reference current from the reference current source. When a reference voltage of the reference node reaches a preset voltage, the storing state of the cell is determined according to a relationship between a sensing voltage of the sensing node and the preset voltage. | 12-04-2014 |