Patent application number | Description | Published |
20130048530 | BIOSENSOR DISPOSABLE APPARATUS - A disposal apparatus for biosensor includes a coupling member and a capsular wrapper. The capsular wrapper includes a space having a closed end and an open end to hold a biosensor. The coupling member has a coupling portion connecting to the closed end and a test strip adapter with two ends respectively formed a test strip insertion end and a test strip extended slot. The test strip insertion end passes through the slot and inserts into a test strip loading port of the biosensor. The capsular wrapper encases the biosensor to allow the test strip insertion end to insert into the test strip loading port. Through coupling of the test strip adapter, the biosensor can perform testing. After the testing is finished, the coupling member and the test strip can be wrapped together by the capsular wrapper and be discarded, thus avoiding user being contaminating with samples on the test strip. | 02-28-2013 |
20130280800 | Filter Test Strip - A filter test strip to filter and test a specimen in liquid includes a test element and a specimen filter assembly which is located on the test element and includes a filter cotton holding layer, a filter cotton layer and a cotton bonding layer. | 10-24-2013 |
20140031636 | ELECTROCHEMICAL AND OPTICAL TEST SPECIMEN - An electrochemical and optical test specimen includes an electrochemical test portion and an optical test portion. The electrochemical test portion has an electrochemical blood sampling port. The optical test portion has an optical blood sampling port. The electrochemical test portion and optical test portion abut each other, and the electrochemical blood sampling port and optical blood sampling port are located on the same side. Thus one blood sampling operation at the electrochemical blood sampling port and optical blood sampling port can be finished simultaneously to perform electrochemical test and optical test at the same time. Therefore the advantages of the electrochemical and optical tests can be integrated to achieve higher accuracy and lower cost to meet test requirements. | 01-30-2014 |
20140216918 | METHOD FOR FABRICATING GOLD/TITANIUM DIOXIDE CORE-SHELL STRUCTURED PHOTOCATALYST AND APPLICATION THEREOF TO PHOTOCATALYTIC DECOMPOSITION OF ORGANIC COMPOUNDS - This invention discloses a method for fabricating a gold/titanium dioxide core-shell structured photocatalyst and the application thereof to photocatalytic decomposition of organic compounds under ultraviolet irradiation. The method comprises steps: fabricating a solution of gold ions; fabricating gold/titanium dioxide core-shell structured nanoparticles; and crystallizing the gold/titanium dioxide core-shell structured nanoparticles, wherein gold and titanium dioxide are mixed by a weight ratio of 0.005 to 0.03. The gold/titanium dioxide core-shell structured photocatalyst can effectively decompose organic compounds and dyes under ultraviolet irradiation. | 08-07-2014 |
Patent application number | Description | Published |
20130078501 | THIN TYPE BATTERY AND ENCAPSULATION STRUCTURE THEREOF - An encapsulation structure of a thin type battery for encapsulating a battery is provided. The battery includes a battery body and a top sealing area having a thickness smaller than that of the battery body. The encapsulation structure of a thin type battery includes a frame body and an extending wall. The frame body includes a first sidewall, a second sidewall, a third sidewall, and a fourth sidewall. Two ends of the third sidewall are connected to the first sidewall and the second sidewall, respectively. The fourth sidewall is opposite the third sidewall. Two ends of the fourth sidewall are connected to the first sidewall and the second sidewall, respectively. The extending wall is connected to one side of the first sidewall and clamped at the third sidewall and the fourth sidewall. In addition, a thin type battery is also provided. | 03-28-2013 |
20130171887 | ELECTRIC CONNECTOR - An electric connector is provided, including a first insulating body and a plurality of conductive terminals. The first insulating body includes two positioning grooves and a plurality of terminal grooves. Each positioning groove has a first socket and a second socket. A concave portion, a first guiding groove, and a second guiding groove are disposed at a groove wall of each positioning groove. The first guiding groove extends from the first socket in a first direction to the concave portion. The second guiding groove extends from the second socket in a second direction to the concave portion. The terminal grooves are disposed at an interval between the two positioning grooves. Each terminal groove has a third socket and a fourth socket. The conductive terminals are disposed individually in the terminal grooves. A joint connector is capable of being plugged into the electric connector in the first or second direction. | 07-04-2013 |
20130177800 | THIN TYPE BATTERY - A thin type battery is provided, including a shell body, a soft packaging cell, and an electric connector. The soft packaging cell is disposed in the shell body and includes a battery body and a top sealing area. The electric connector is connected electrically to the soft packaging cell. The electric connector can be plugged by a joint connector in a first direction or a second direction, so that by disposing the joint connector on a mobile electronic device, the thin type battery can be plugged into the mobile electronic device through the electric connector in the first direction or the second direction, supplying power. | 07-11-2013 |
20130178079 | COMBINATION OF THIN TYPE BATTERY AND CIRCUIT BOARD - A combination of a thin type battery and a circuit board is provided, including a thin type battery, a circuit board, and a joint connector. The thin type battery includes a shell body, a soft packaging cell, and an electric connector. The joint connector is disposed at the circuit board and connected electrically to a circuit of the circuit board. The soft packaging cell of the thin type battery is disposed in the shell body and includes a battery body and a top sealing area. The electric connector is connected electrically to the soft packaging cell. The electric connector can be plugged into the joint connector in a first direction or a second direction, so that the thin type battery can be plugged into the mobile electronic device through the electric connector in the first direction or second direction, to supply power. | 07-11-2013 |
20140093749 | THIN BATTERY - A thin battery having an electric connector is provided. The electric connector can be used for plugging a mating connector along a first direction or a second direction. Therefore, when a mating connector is provided on mobile electronic equipment, the thin battery according to the present disclosure can be connected to the mobile electronic equipment along the first direction or second direction through the electric connector, thereby supplying power to it. Apart from the electric connector, the thin battery also includes a base plate, a first flange, a second flange, a third flange, a cover plate, at least two positioning blocks, a battery cell, and a circuit board. The cover plate can be bent toward the base plate and be clamped with the base plate. The electric connector is disposed between the base plate and a top sealing area, and is exposed from the opening. | 04-03-2014 |
20140093750 | THIN BATTERY - A thin battery integrating an electric connector and a battery cell is provided, including a battery cell, a circuit board, an electric connector, and an adhesive tape. The battery cell includes a top sealing area, a first electrode bar, and a second electrode bar. The first electrode bar and the second electrode bar are disposed in the top sealing area of the battery cell. The circuit board is disposed in the top sealing area and includes a first and a second electrode welding pad. The electric connector is disposed in the top sealing area and connected electrically to the circuit board. The adhesive tape wraps the battery cell and the circuit board. The thin battery can be connected to the mobile electronic equipment, having a mating connector, along a first direction or a second direction through the electric connector, thereby supplying power. | 04-03-2014 |
Patent application number | Description | Published |
20120282730 | Ink composition, Chalcogenide Semiconductor Film, Photovoltaic Device and Methods for Forming the same - An ink composition includes a solvent system, a plurality of metal chalcogenide nanoparticles, at least one of metal ions and metal complex ions and a sodium source. The at least one of the metal ions and the metal complex ions are distributed on the surface of the metal chalcogenide nanoparticles and adapted to disperse the metal chalcogenide nanoparticles in the solvent system. The sodium source is dispersed in the solvent system and/or is included in at least one of the metal chalcogenide nanoparticle, the metal ions and the metal complex ions. The metals of the metal chalcogenide nanoparticles, the metal ions and the metal complex ions are selected from a group consisted of group I, group II, group III, group IV elements of periodic table, and sodium and include all metal elements of a chalcogenide semiconductor material. | 11-08-2012 |
20130327377 | Thin Film Chalcogenide Photovoltaic Device and Method for Forming the Same - A thin film chalcogenide photovoltaic device and method for forming the same are disclosed. The thin film chalcogenide photovoltaic device includes a first electrode, a second electrode and an active layer disposed between the first electrode and the second electrode, wherein the active layer includes a p-type chalcogenide semiconductor layer, an n-type inorganic semiconductor layer, and an n-type carbon-containing material layer formed between the p-type chalcogenide semiconductor layer and the n-type inorganic semiconductor layer. | 12-12-2013 |
20140335649 | Compound semiconductor precursor ink composition, method for forming a chalcogenide semiconductor film, and method for forming a photovoltaic device - A compound semiconductor precursor ink composition includes an ink composition for forming a chalcogenide semiconductor film and a peroxide compound mixed with the ink composition. A method for forming a chalcogenide semiconductor film and a method for forming a photovoltaic device each include using the compound semiconductor precursor ink composition containing peroxide compound to form a chalcogenide semiconductor film. | 11-13-2014 |
Patent application number | Description | Published |
20090207901 | DELAY CIRCUIT AND METHOD CAPABLE OF PERFORMING ONLINE CALIBRATION - A delay circuit includes a first reference delay module, a second reference delay module and a first delay module. The first reference delay module delays a reference signal and generates a first reference delayed signal, and the second reference delay module delays the reference signal and generates a second reference delayed signal according to a reference control signal and the first reference delayed signal. The first delay module delays a first input signal and generates a first output signal according to a first control signal and the second reference delayed signal. | 08-20-2009 |
20090278574 | Frequency Divider, Frequency Dividing Method Thereof, and Phase Locked Loop Utilizing the Frequency Divider - A frequency divider reduces jitter and power consumption, and includes a phase selector for receiving a plurality of clock signals and outputting an intermediate signal corresponding to phase characteristic of at least one of the clock signals, and an adjustable delay circuit for receiving the intermediate signal and generating an output signal by delaying the received intermediate signal. | 11-12-2009 |
20090278579 | Delay Line Calibration Mechanism and Related Multi-Clock Signal Generator - A delay line calibration mechanism includes a delay line, a phase detector, and a controller. The delay line receives an input pulse, a calibration pulse, a first delay selection signal, and a second delay selection signal, delays the input pulse for a delay period according to the first delay selection signal to output a delayed pulse, and delays the calibration pulse for a calibration delay period according to the second delay selection signal to output a delayed calibration pulse. The controller is for generating the input pulse, the calibration pulse, and a reference pulse. The controller also generates the first delay selection signal, and generates the second delay selection signal according to a phase difference signal. The phase detector is for generating the phase difference signal indicating the difference between the delayed calibration pulse and the reference pulse by comparing the delayed calibration pulse and the reference pulse. | 11-12-2009 |
20090310716 | CHANNEL BIT DETECTION SYSTEM - A channel bit detection system is provided. The channel bit detection system includes an RF front end, an analog-to-digital converter, a combiner, a length estimator, a length accumulator, an offset control, and a channel bit detector. The RF front end receives an RF signal, and is then digitized at a sampling rate R into a plurality of samples by the analog-to-digital converter. The combiner produces combined samples by shifting the plurality of samples an offset value. The length estimator estimates a length of each two consecutive combined samples. The length accumulator produces land lengths and pit lengths of the combined samples according to length of each two consecutive combined samples. The offset control provides the offset value according to the land lengths and the pits lengths. The channel bit detector recovers the channel bit from the plurality of combined samples. | 12-17-2009 |
20100310020 | DATA RECOVERY SYSTEM AND METHOD THEREOF - A data recovery system and method is disclosed. Said data recovery system comprises a maximum-likelihood detector, a non-maximum likelihood detector, signal-length calculator, a determining unit and a selecting unit. The maximum-likelihood detector transforms a digital signal into a first binary signal. The non-maximum likelihood detector transforms the digital signal into a second binary signal. The signal-length calculator calculates a length of the first binary signal and a length of one previous to the first binary signal. The determining unit generates a selecting signal when the length of the first binary signal and the length of one previous to the first binary signal meet a criterion. The selecting unit coupled to the maximum-likelihood detector and the non-maximum likelihood detector, selectively outputs the first binary signal or the second binary signal based on the selecting signal. | 12-09-2010 |
20110089985 | Delay Line Calibration Mechanism and Related Multi-Clock Signal Generator - A delay line calibration mechanism includes a first delay line, a second delay line, a phase detector, and a controller. The first delay line receives a first pulse and a first delay selection signal, and delays the first pulse for a first delay period according to the first delay selection signal to output a first delayed pulse. The second delay line receives a second pulse and a second delay selection signal, and delays the second pulse for a second delay period according to the second delay selection signal to output a second delayed pulse. The phase detector generates a phase difference signal indicating the phase difference between the first delayed pulse and the second delayed pulse by comparing the first delayed pulse and the second delayed pulse. The controller generates the second delay selection signal, and generates the first delay selection signal according to the phase difference signal. | 04-21-2011 |
20110254606 | Frequency Divider, Frequency Dividing Method Thereof, and Phase Locked Loop Utilizing the Frequency Divider - A frequency divider reduces jitter and power consumption, and includes a phase selector for receiving a plurality of clock signals and outputting an intermediate signal corresponding to phase characteristic of at least one of the clock signals, and an adjustable delay circuit for receiving the intermediate signal and generating an output signal by delaying the received intermediate signal. | 10-20-2011 |
Patent application number | Description | Published |
20140266549 | PRINTED CIRCUIT BOARD PACKAGE STRUCTURE AND MANUFACTURING METHOD THEREOF - A printed circuit board package structure includes a substrate having a first surface and a second surface, a ring-shaped magnetic element, an adhesive layer, conductive portions and conductive channels. The first and second surfaces respectively have first and second metal portions. A ring-shaped concave portion is formed on a position not covered by the first metal portions of the first surface. The ring-shaped magnetic element is placed in the ring-shaped concave portion. The adhesive layer covers the first metal portions and the ring-shaped magnetic element. The conductive portions are formed on the adhesive layer. The conductive channels penetrate the conductive portions, the adhesive layer, and the substrate, and are respectively located in an inner wall and outside an outer wall of the ring-shaped concave portion. Each of the conductive channels includes a conductive film electrically connects to the aligned conductive portion and second metal portion. | 09-18-2014 |
20150107883 | PRINTED CIRCUIT BOARD PACKAGE STRUCTURE AND MANUFACTURING METHOD THEREOF - A printed circuit board package structure includes a substrate, plural ring-shaped magnetic elements, a support layer, and first conductive layers. The substrate has two opposite first and second surfaces, first ring-shaped recesses, and first grooves. Each of the first ring-shaped recesses is communicated with another first ring-shaped recess through at least one of the first grooves, and at least two of the first ring-shaped recesses are communicated with a side surface of the substrate through the first grooves to form at least two openings. The ring-shaped magnetic elements are respectively located in the first ring-shaped recesses. The support layer is located on the first surface, and covers the first ring-shaped recesses and the first grooves. The support layer and the substrate have through holes. The first conductive layers are respectively located on surfaces of support layer and substrate facing the through holes. | 04-23-2015 |