| Patent application number | Description | Published |
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| 20090092946 | Method of generating a digital supplementary device for dental implant planning - A method of generating a digital supplementary device for dental implantation by: preparing a mouth model based on the internal shape of the oral cavity of the patient; performing a 3D scan to obtain digital model of the mouth model, the digital model of the patient's oral cavity and the digital model of the tooth model; defining the digital models as the “positioning object,” “the reference object” and the “attached positioning object”; obtaining characteristic points after joining the positioning object and the attached positioning object and positioning the positioning object and the reference object based on the characteristic points; and then outputting the attached positioning object with the positioning data obtained after positioning of the attached positioning object. The output thus obtained is the desired digital supplementary device for dental implant planning. | 04-09-2009 |
| 20090104583 | Method for Designing an Abutment - A method for designing an abutment tooth which mainly comprises the steps of: setting a reference abutment device with a feature on an analog of a mouth model; positioning a digital abutment with the same configuration as the reference abutment device on the analog to obtain the configuration data of the positioning of the digital abutment on the analog; optimally adjusting the digital abutment by using as a reference the configuration digital data without affecting the configuration of the digital abutment and the analog, thus finishing the design of the abutment. | 04-23-2009 |
| 20090111071 | Method for designing a digital abutment for dental implant - A method for designing a digital abutment for a dental implant includes the steps of: a) implant planning where implant planning is initiated based on digital data obtained from the patient and loaded into a computer system to enable an implant fixture to be implanted at the implant site in the best position, b) establishment of digital reference abutment where a digital reference abutment is established at the implant site and positioned on the implant fixture, c) adjustment of the digital reference abutment where the digital reference abutment has a subgingival part and a supragingival part at the top side of the subgingival part, and the angle between the subgingival part and the supragingival part is adjusted based on the best prosthesis position, and d) finish of digital abutment where the digital reference abutment becomes a digital abutment for placement after the adjustment. | 04-30-2009 |
| 20100316974 | METHOD OF MAKING A SURGICAL TEMPLATE USED FOR A COMPUTER-GUIDED DENTAL IMPLANT SURGERY - A method of making a surgical template comprises: producing a 3-D geometrical image by a CT scanning performed on a patient's jaw and establishing corresponding implant planning data to obtain a 3-D first digital image, making a positive plaster model of the patient's jaw, scanning the plaster model to obtain a 3-D second digital image, overlapping the second digital image on the first digital image to obtain a computer representation of the plaster model and at least one implant to be mounted according to the implant planning data, drilling the plaster model to form at least one pinhole according to the implant planning data, inserting a pin into the pinhole, producing a negative template body from an assembly of the plaster model and the pin with a thermoplastic dental material so that the negative template body has at least one implant guide hole and constitutes the surgical template. | 12-16-2010 |
| 20110123954 | Method of designing dental-implant prosthesis - A method of designing a dental-implant prosthesis includes the steps of arranging a referential jig and combining the referential jig into a fixture installed in a patient's oral cavity, the referential jig having at least one feature point, the fixture having a connection interface, the referential jig having an opposite-joint interface; scanning the patient's oral cavity to acquire an oral digital data and a referential-jig digital data having at least one feature-point digital data; selecting one digital dental-implant prosthesis from a prosthetic database in a computer, a digital positioning jig overlapping the digital dental-implant prosthesis for combination with the connection interface, and proceeding with overlapping and localization of the digital positioning jig and the referential jig digital data to combine the referential jig digital data into the connection interface; and adjusting the position, size, and angle of the digital dental-implant prosthesis to acquire the digital dental-implant prosthesis which is most suitable to the patient. | 05-26-2011 |
| 20110123955 | Method of preparing digital model and artificial tooth applied to dental implant - A method of preparing a digital model and an artificial tooth applied to dental implant includes the steps of a) combining a jig into a fixture in a patient's oral cavity and scanning the patient's oral cavity by an oral scanner to acquire a first oral digital data and saving it in a computer; b) operating the computer to select one of digital prostheses from a prosthetic database in the computer, arranging a digital positioning jig to correspond to the jig in the first oral digital data, and then combining the selected digital prosthesis with the first oral digital data to generate a second oral data; c) generating a digital oral model based on the second oral digital data; and d) creating a solid oral model. | 05-26-2011 |
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| 20080237562 | PHASE CHANGE MEMORY DEVICES AND FABRICATION METHODS THEREOF - Phase change memory devices and fabrication methods thereof. A phase change memory device comprises a stacked heating element with a conductive portion and a relatively high resistive portion, wherein the relatively high resistive portion includes a nitrogen-containing metal silicide part. The heating stacked element such as a highly resistive nitrogen-containing metal silicide (MSi | 10-02-2008 |
| 20080251498 | PHASE CHANGE MEMORY DEVICE AND FABRICATIONS THEREOF - A method for forming a memory device is disclosed. A dielectric layer is formed on a substrate. A Sn doped phase change layer is formed on the dielectric layer. A patterned mask layer is formed on the Sn doped phase change layer. The Sn doped phase change layer is etched by an etchant comprising fluorine-based etchant added with chlorine using the patterned mask layer as a mask to pattern the Sn doped phase change layer. An electrode is formed, electrically connecting the patterned Sn doped phase change layer. | 10-16-2008 |
| 20080311699 | PHASE-CHANGE MEMORY AND FABRICATION METHOD THEREOF - A phase-change memory comprises a bottom electrode formed on a substrate. A first isolation layer is formed on the bottom electrode. A top electrode is formed on the isolation layer. A first phase-change material is formed in the first isolation layer, wherein the top electrode and the bottom electrode are electrically connected via the first phase-change material. Since the phase-change material can have a diameter less than the resolution limit of the photolithography process, an operating current for a state conversion of the phase-change material pattern may be reduced so as to decrease a power dissipation of the phase-change memory device. | 12-18-2008 |
| 20090278546 | SOLAR CELL TESTING APPARATUS - A solar cell testing apparatus including a stage, a movable chuck, a light source and a plurality of probes is provided. The movable chuck is disposed on the stage and capable of carrying a sample sheet to move. The sample sheet has a light incident side, a rear side opposite to the light incident side, and a plurality of electrodes disposed on the rear side. The light source is disposed above the stage and capable of providing testing light to the light incident side of the sample sheet. The probes are located on the rear side of the sample sheet and capable of contacting the electrodes of the sample sheet. The present invention not only can be used to test a substrate type solar cell, but also can be used to test a superstrate type solar cell. | 11-12-2009 |
| 20100047960 | METHOD OF FABRICATING A PHASE-CHANGE MEMORY - A phase-change memory comprises a bottom electrode formed on a substrate. A first isolation layer is formed on the bottom electrode. A top electrode is formed on the isolation layer. A first phase-change material is formed in the first isolation layer, wherein the top electrode and the bottom electrode are electrically connected via the first phase-change material. Since the phase-change material can have a diameter less than the resolution limit of the photolithography process, an operating current for a state conversion of the phase-change material pattern may be reduced so as to decrease a power dissipation of the phase-change memory device. | 02-25-2010 |
| 20100154882 | SOLAR CELL - A solar cell is provided and includes a front contact, a first conductive type layer, an intrinsic (I) layer, a second conductive type layer, and a back contact. The first conductive type layer is a material layer of low refractive index which has a refractive index lower than 3. The material layer with low refractive index was used to increase light transmittance of the solar cell and decrease reflection which occurs at interfaces in the solar cell, and thus the solar cell has an optimum sunlight utility rate. Therefore, the solar cell has a large short circuit current (Jsc) and high efficiency. | 06-24-2010 |
| 20100200040 | DEVICE AND METHOD FOR REPAIRING SOLAR CELL MODULE - A device for repairing a solar cell module is described. The solar cell module includes a first solar cell and a second solar cell serially connected to each other. The device for repairing the solar cell module includes a first terminal, a second terminal, and a power supply device. The power supply device applies a biased voltage signal to the solar cells via the first terminal and the second terminal. The biased voltage signal includes a forward biased voltage part and a reversed biased voltage part. The reversed biased voltage part has multiple voltage bands arranged by time, and a voltage value of each voltage band is a fixed value. The voltage value of the earlier-generated voltage band is greater than the voltage value of the later-generated voltage band, and a duration of the reversed biased voltage part is longer than a duration of the forward biased voltage part. | 08-12-2010 |
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| 20100110022 | TOUCH DISPLAY PANEL - A touch display panel including a first substrate, a second substrate and a liquid crystal layer is provided. The first substrate includes sensing areas and a non-sensing area outside the sensing areas. Each sensing area is provided with a first electrode thereon. The second substrate includes main spacers, sensing protrusions, first sub-spacers and second sub-spacers. The main spacers are connected to the non-sensing area. The sensing protrusions are corresponding to the sensing area and respectively have a second electrode. A sensing gap exists between each second electrode and the corresponding first electrode. The first sub-spacers are corresponding to the non-sensing area and respectively keep a first sub-spacer gap from the first substrate. The second sub-spacers are corresponding to the non-sensing area and respectively keep a second sub-spacer gap from the first substrate. The sensing gap is greater than the first sub-spacer gap and less than the second sub-spacer gap. | 05-06-2010 |
| 20100315362 | TOUCH-SENSING LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY - A touch-sensing liquid crystal display (LCD) panel including an active device array substrate, an opposite substrate, and a liquid crystal layer disposed therebetween is provided. The active device array substrate includes a first substrate, a pixel array, a plurality of touch-sensing pads, and an electric field shielding layer. The pixel array is disposed on the first substrate and includes a plurality of sub-pixels arranged in an array, a plurality of scan lines, and a plurality of data lines. The touch-sensing pads are disposed on the first substrate. The electric field shielding layer is disposed on the pixel array and arranged between sub-pixels adjacent to each other, and the electric field shielding layer includes a pattern. The opposite substrate includes a common electrode and a plurality of touch-sensing protrusions disposed above the touch-sensing pads. Therefore, when the touch-sensing LCD panel is pressed, press mura is substantially eliminated. | 12-16-2010 |
| 20110134053 | TOUCH DISPLAY PANEL, PIXEL STRUCTURE AND MULTI-SENSING STRUCTURE - A touch display panel which includes a first substrate, a second substrate, at least a multi-sensing structure, a display medium and at least a display controlling device is provided. The multi-sensing structure is disposed between the first substrate and the second substrate, and the multi-sensing structure includes a sensing upper electrode and a plurality of first sensing lower electrodes. The sensing upper electrode is disposed on the second substrate. The first sensing lower electrodes are disposed on the first substrate and electrically connected to each other in serious, wherein a plurality of first sensing gaps are designed between the first sensing lower electrodes and the sensing upper electrode, and the first sensing gaps have different distances. The display medium is sandwiched between the first substrate and the second substrate. The display controlling device is disposed on the first substrate for controlling the display medium. | 06-09-2011 |
| 20110199316 | SENSOR STRUCTURE AND TOUCH DISPLAY PANEL - A touch display panel including a first substrate and a second substrate is provided. A plurality of sensing units is disposed on the first substrate, and each sensing unit includes a main-sensing pattern and at least one sub-sensing pattern. The at least one sub-sensing pattern is electrically connected to the main-sensing pattern, and the size of the at least one sub-sensing pattern is smaller than the size of the main-sensing pattern. A plurality of sensing electrodes is disposed on the second substrate, and each of the sensing electrodes is disposed corresponding to one of the sensing units on the first substrate. | 08-18-2011 |
| 20110291094 | DISPLAY PANEL - A display panel including a first substrate, a second substrate opposite to the first substrate and a display medium between the first substrate and the second substrate is provided. The first substrate has a scan line, a data line and an active device electrically connected to the scan line and the data line. The second substrate has a common electrode layer, an insulting layer covering the common electrode layer, a pixel electrode on the insulating layer and a contact structure on the insulating layer. More specifically, the contact structure is electrically connected to the pixel structure and electrically connected to the active device on the first substrate. | 12-01-2011 |
| 20110309397 | PIXEL STRUCTURE AND MANUFACTURING METHOD THEREOF - A pixel structure including a substrate, a color filter layer, a conductive light-shielding layer, a buffer layer, a scan line, a data line, an active device, and a pixel electrode is provided. The substrate has a pixel region. The color filter layer is disposed corresponding to the pixel region. The conductive light-shielding layer is disposed corresponding to the periphery of the pixel region. The buffer layer covers the conductive light-shielding layer and color filter layer. The scan line and the data line are disposed on the buffer layer. The active device is disposed on the buffer layer and electrically connected to the scan line and data line. The pixel electrode is disposed on the buffer layer and electrically connected to the active device, wherein an overlapping area between the pixel electrode and the conductive light-shielding layer constitutes a storage capacitor. A method for manufacturing the pixel structure is also provided. | 12-22-2011 |
