Patent application number | Description | Published |
20110140299 | SEMI-CONTINUITY FIBER PREPREG MATERIAL, MANUFACTURING METHOD THEREOF, AND COMPOSITE MATERIAL MADE OF SEMI-CONTINUITY FIBER PREPREG MATERIAL - The invention provides a semi-continuity fiber prepreg material, a manufacturing method thereof, and a composite material made of the semi-continuity fiber prepreg material. The semi-continuity fiber prepreg material includes a plurality of intermittency notches and/or continuity notches formed on a fiber prepreg material along at least one direction to make the fiber prepreg material soft and suitable for molding. | 06-16-2011 |
20120098154 | SEMI-CONTINUITY FIBER PREPREG MATERIAL, MANUFACTURING METHOD THEREOF, AND COMPOSITE MATERIAL MADE OF SEMI-CONTINUITY FIBER PREPREG MATERIAL - The invention provides a semi-continuity fiber prepreg material, a manufacturing method thereof, and a composite material made of the semi-continuity fiber prepreg material. The semi-continuity fiber prepreg material includes a plurality of intermittency notches and/or continuity notches formed on a fiber prepreg material along at least one direction to make the fiber prepreg material soft and suitable for molding. | 04-26-2012 |
20120100291 | SEMI-CONTINUITY FIBER PREPREG MATERIAL, MANUFACTURING METHOD THEREOF, AND COMPOSITE MATERIAL MADE OF SEMI-CONTINUITY FIBER PREPREG MATERIAL - The invention provides a semi-continuity fiber prepreg material, a manufacturing method thereof, and a composite material made of the semi-continuity fiber prepreg material. The semi-continuity fiber prepreg material includes a plurality of intermittency notches and/or continuity notches formed on a fiber prepreg material along at least one direction to make the fiber prepreg material soft and suitable for molding. | 04-26-2012 |
Patent application number | Description | Published |
20090092041 | Apparatus and Method for Performing a Scan Procedure and Mobile Station Comprising the Same - An apparatus for performing a scan procedure according to an orthogonal frequency division multiple access (OFDMA) signal and a mobile station comprising the same are provided. The characteristic of the apparatus is that it comprises two FIT input buffers. In a first period of a downlink subframe, the first FFT input buffer is used for data transmission. In a second period of the downlink subframe, the second FFT input buffer is used for storing more than one OFDMA sample in advance for further processing. In a third period of an uplink subframe, the stored OFDMA samples can be used to generate a refined frame boundary and calculates a CINR value of each of a plurality of neighboring base stations. Therefore, the apparatus and the MS can perform the scan procedure without downgrading the network efficiency. | 04-09-2009 |
20100317301 | METHODS FOR HANDLING A TRANSMITTING PROCESS AND COMMUNICATION APPARATUSES UTILIZING THE SAME - A communication apparatus is provided. A power amplifier is coupled to an antenna and switched on or off according to a control signal. A baseband processing module is coupled to the power amplifier and a radio transceiver module, receives a bit stream comprising information indicating corresponding transmitting time and sub-carrier frequencies of up-link messages via the radio transceiver module, processes the bit stream to obtain a map profiling allocations of the up-link messages, prepares the up-link messages to be transmitted according to the map, and generates the control signal according to the map. Within a data frame period, when there is no up-link message to be transmitted during a up-link time interval, the power amplifier is switched off in response to the control signal during the up-link time interval. | 12-16-2010 |
20110280354 | FRAME TIMING CONTROLLER AND FRAME TIMING CONTROL METHOD FOR TRIGGERING AT LEAST RECEIVER IN MOBILE STATION TO START RECEIVING TRANSMITTED INFORMATION OF BASE STATION BY REFERRING TO AT LEAST FRAME POINTER - A frame timing controller includes a timer, a frame timing control unit, and a frame pointer processing circuit. The timer is arranged to generate a timer value according to a first clock signal with a first clock frequency. The frame timing control unit is for triggering at least a receiver to start receiving transmitted information of a base station according to at least a frame pointer and the timer value, wherein the receiver processes an input signal to generate first samples at a first sampling rate corresponding to a sampling clock frequency and processes the first samples to generate an output signal including second samples at a second sampling rate corresponding to a second clock frequency of a second clock signal different from the sampling clock frequency. The frame pointer processing circuit is for generating and updating the frame pointer according to the output signal of the receiver. | 11-17-2011 |
Patent application number | Description | Published |
20100090576 | OMNIDIRECTIONAL LIGHT BULB USING LIGHT EMITTING DIODE - The light bulb contains a transparent body member and a contact member at an end of the body member that could be screwed into a conventional light bulb socket for establishing electrical connections. The light bulb also contains at least a disc and a supporting pole. A number of LEDs are back-to-back configured along the circumference of each disc with appropriate distance therebetween. The discs are threaded by the supporting pole with appropriate spacing therebetween. Each disc also contains a circuit for driving the LEDs that is connected to the contact member's electrical connections via an appropriate conduction mechanism in the supporting pole. | 04-15-2010 |
20100244703 | AC-DRIVEN LED LIGHTING DEVICE - The lighting device contains a bridge circuit composed of four diodes. One of the output terminals of an AC source is connected to one of the input terminals of the bridge circuit via a first capacitor for current limiting and stabilization. The other input terminal of the AC source is connected to the other input terminal of the bridge circuit. A second capacitor is connected between the two output terminals of the bridge circuit for filtering ripples. A number of series-connected light emitting diodes are also connected between the two output terminals of the bridge circuit in a forward-biased manner. The major characteristic of the light device lies in the selection of the first capacitor which provides simple yet effective current limiting and stabilization. | 09-30-2010 |
20100254139 | OMNIDIRECTIONAL LIGHT BULB USING LIGHT EMITTING DIODE - The light bulb contains a transparent body member and a contact member at an end of the body member that could be screwed into a conventional light bulb socket for establishing electrical connections. Inside the transparent member, there are a number of circuit boards, each having a circular end and a rectangular body. Around the circumference of a side of the circular end, a number of LEDs are provided at appropriate spacing to project light towards various centrifugal directions, respectively. The circuit boards intersect with each other along a vertical direction so as to form a cross shape, a star shape, or a similar, radiating-from-a-center shape. | 10-07-2010 |
Patent application number | Description | Published |
20120281400 | LIGHT EMITTING DIODE LAMP - A light emitting diode (LED) lamp includes a lamp holder, an optical module, a thermal pad, and a fixing element. The lamp holder has a first recess in which the optical module is configured. The thermal pad is configured in the first recess and between the optical module and the lamp holder, so as to separate the optical module from the lamp holder. The fixing element is locked to the lamp holder, so as to fix the optical module into the lamp holder. The optical module includes a first fixing element, an LED board, and a lens. The first fixing element has an accommodating opening in which the LED board is configured. The LED board includes a circuit board and LEDs, and the LEDs are configured on the circuit board. The lens is fixed to the first fixing element and covers the LEDs. | 11-08-2012 |
20130170229 | LAMP - A lamp including a first case, a second case, a lamp bottom and a pair of friction units is provided. The second case has a first sidewall and a second sidewall perpendicularly to the first sidewall. The first sidewall has a first positioning portion extending along a normal direction to the first sidewall, and the second case is detachably assembled with the first case to form a case assembly having a first opening. The lamp bottom is embedded into the first opening. The lamp bottom has a second opening and a second positioning portion, wherein the second positioning portion is located on the path of the first positioning portion when the case assembly rotates relative to the lamp bottom. The friction units are disposed at opposing sides of the first opening and contact a portion of the lamp bottom embedded into the first opening. | 07-04-2013 |
20130170230 | LAMP - A lamp including a first housing, a second housing assembled with the first housing to form a housing assembly and a bulb base is provided. The second housing includes a first sidewall and a second sidewall perpendicularly connected to the first sidewall. The first sidewall has a first stop portion extending along a normal direction. The bulb base is inserted into a first opening of the housing assembly to be assembled to the housing assembly. The bulb base has a second opening, multiple catches arranged on an outer sidewall of the second opening in a circumference direction and a second stop portion. The second stop portion disposed on the catches is located on a rotation path of the first stop portion when the bulb base rotates relative to the housing assembly for limiting a rotation angle between the housing assembly and the bulb base. | 07-04-2013 |
20130170236 | LAMP - A lamp includes a first housing, a second housing, a bulb base and a positioning part. The first housing has a first sidewall and a second sidewall. The first sidewall is perpendicularly connected to the second sidewall and has a first surface and a first assembling tank penetrating through the first surface. The second sidewall has a first cave. The second housing is detachably assembled to the first housing and has a second cave. These two caves form a first opening. The bulb base is embedded into the first opening. The bulb base has a base opening and multiple slots. The slots are disposed on an inner sidewall of the base opening along a circular direction. The positioning part is disposed in the first assembling tank and suitable to move along a normal direction of the first surface. The positioning part has a first push button and a latch hook. | 07-04-2013 |
20130170237 | LAMP - A lamp including a case assembly, a lamp bottom and a fixing elastomer is provided. The case assembly has a first opening, and the lamp bottom inserts into the first opening to assemble with the case assembly. The lamp bottom has a first surface, a second opening and multiple first positioning structures. The second opening passes through the first surface, and the first positioning structures are located on the first surface. The fixing elastomer is disposed in the case assembly and has a second surface and a pair of second positioning structures suitable for locking with two of the first positioning structures. | 07-04-2013 |
20140009934 | ILLUMINATING DEVICE AND METHOD OF FABRICATING THE ILLUMINATING DEVICE - An illuminating device and method of fabricating the illuminating device are provided. The illuminating device includes a base, a cover, a light source circuit board, a lens and a circle. The base has a circuit board accommodating recess. The cover is assembled to the base and located in the circuit board accommodating recess. The cover has a lens accommodating recess and a first fixing structure located at opposite sides. The light source circuit board is disposed in the circuit board accommodating recess and located between the cover and the base. The light source circuit board has a second fixing structure inserted with the first fixing structure to assemble the light source circuit board with the cover. The lens is disposed in the lens accommodating recess. The circle encircles an edge of the lens and fixes to the base. | 01-09-2014 |
Patent application number | Description | Published |
20100207266 | CHIP PACKAGE STRUCTURE - A chip package structure including a substrate, a plurality of electrodes, a chip, and a plurality of bumps is provided. Each of the electrodes has a bottom portion and an annular element, wherein the bottom portion is disposed on the substrate, the annular element is disposed on the bottom portion, and the bottom portion and the annular element define a containing recess. The chip is disposed above the substrate and has an active surface facing the substrate and a plurality of pads disposed on the active surface. The bumps are respectively disposed on the pads and respectively inserted into the containing recesses. The melting point of the electrodes is higher than that of the bumps. A chip package method is also provided. | 08-19-2010 |
20120168933 | WAFER LEVEL MOLDING STRUCTURE - A wafer level molding structure and a manufacturing method thereof are provided. A molding structure includes a first chip and a second chip and an adhesive layer there between. The first chip includes a first back side, a first front side and a plurality of lateral sides, in which a plurality of first front side bumps are disposed on the first front side. The second chip includes a second back side and a second front side, and a plurality of second back side bumps and second front side bumps are respectively disposed on the second back side and the second front side. A plurality of through-hole vias is disposed in the second chip, and electrically connected the second back side bumps to the second front side bumps. Adhesive materials covering the lateral sides of the first chip, and electrically connect the second back side bumps with the first front side bumps. The adhesive materials include a plurality of conductive particles and/or a plurality of non-conductive particles. | 07-05-2012 |
20130234320 | CHIP STACK STRUCTURE AND METHOD FOR FABRICATING THE SAME - A chip stack structure taking a wafer as a stacking base and stacking chips thereon is provided. The chip stack structure is capable of achieving high density electrode bonding and breaking the bottleneck of requiring interposer to serve as a transferring interface in three dimensional chip package. The chip stack structure is easily fabricated and compatible with wafer level process, so as to reduce processing time and manufacturing cost. A method for fabricating the chip stack structure is also provided. | 09-12-2013 |
Patent application number | Description | Published |
20080216741 | DYNAMIC FILM THICKNESS CONTROL SYSTEM/METHOD AND ITS UTILIZATION - A dynamic film thickness control system/method and its utilization consisting of a minimum of one mask plate arranged between a substrate and a vapor source. A film thickness control device is utilized for real-time control over deposited film thickness and gradually moves the mask plate according to the film thickness control value acquired by the film thickness control device, enabling the mask plate to mask film zones on the said substrate to achieve the film thickness of a design objective. When the required zones of deposition are masked, the deposition of a particular film layer is completed. | 09-11-2008 |
20100147214 | Dynamic Film Thickness Control System/Method and its Utilization - A dynamic film thickness control system/method and its utilization consisting of a minimum of one mask plate arranged between a substrate and a vapor source. A film thickness control device is utilized for real-time control over deposited film thickness and gradually moves the mask plate according to the film thickness control value acquired by the film thickness control device, enabling the mask plate to mask film zones on the said substrate to achieve the film thickness of a design objective. When the required zones of deposition are masked, the deposition of a particular film layer is completed. | 06-17-2010 |
20100147216 | Dynamic Film Thickness Control System/Method and its Utilization - A dynamic film thickness control system/method and its utilization consisting of a minimum of one mask plate arranged between a substrate and a vapor source. A film thickness control device is utilized for real-time control over deposited film thickness and gradually moves the mask plate according to the film thickness control value acquired by the film thickness control device, enabling the mask plate to mask film zones on the said substrate to achieve the film thickness of a design objective. When the required zones of deposition are masked, the deposition of a particular film layer is completed. | 06-17-2010 |
20100224127 | Dynamic Film Thickness Control System/Method and its Utilization - A dynamic film thickness control system/method and its utilization consisting of a minimum of one mask plate arranged between a substrate and a vapor source. A film thickness control device is utilized for real-time control over deposited film thickness and gradually moves the mask plate according to the film thickness control value acquired by the film thickness control device, enabling the mask plate to mask film zones on the said substrate to achieve the film thickness of a design objective. When the required zones of deposition are masked, the deposition of a particular film layer is completed. | 09-09-2010 |
20100224486 | Dynamic Film Thickness Control System/Method and its Utilization - A dynamic film thickness control system/method and its utilization consisting of a minimum of one mask plate arranged between a substrate and a vapor source. A film thickness control device is utilized for real-time control over deposited film thickness and gradually moves the mask plate according to the film thickness control value acquired by the film thickness control device, enabling the mask plate to mask film zones on the said substrate to achieve the film thickness of a design objective. When the required zones of deposition are masked, the deposition of a particular film layer is completed. | 09-09-2010 |
Patent application number | Description | Published |
20080261646 | MOBILE COMMUNICATION DEVICE AND POWER SAVING METHOD THEREOF - A mobile communication device ( | 10-23-2008 |
20090258670 | DUAL-MODE PHONE AND CALLING METHOD - A dual-mode phone includes a mobile phone antenna, a mobile phone module, a WLAN antenna, a WLAN module, a processing module, a memory, and a user interface. The processing module sets a communication mode of the dual-mode phone. The memory stores the communication mode and a phone book, wherein the phone book includes a plurality of mobile phone numbers, a plurality of WLAN phone addresses, mapping relationships between the plurality of mobile phone numbers and the plurality of WLAN phone addresses, and statuses of dual-mode phones corresponding to the plurality of WLAN phone addresses. The user interface receives an input phone number. The processing module further determines if the input phone number is a mobile phone number, determines if the mobile phone number has a mapping WLAN phone address, and calls the mapping WLAN phone address via the WLAN module. | 10-15-2009 |
20090262715 | BRIDGE DEVICE AND METHOD FOR BRIDGING A WLAN TO A WWAN - A bridge device for bridging a wireless local area network (WLAN) and a plurality of wireless wide area networks (WWANs) includes a first communication port, a second communication port, a third communication port, a first media controller, a second media controller, a third media controller and a bridge module. The bridge module includes a flow controller and a data converter. The media controllers receive inbound data packets from corresponding communication ports and transmitting outbound data packets to corresponding communication ports. The flow controller controls data packet flow between the WLAN and the WWANs and records current bandwidths and utilization statuses of the WWANs, and the data converter converts between the inbound data packets and the outbound data packets accordingly. | 10-22-2009 |
20100156821 | ELECTRONIC DEVICE AND METHOD FOR DETECTING MOVING DIRECTION OF INPUTS - An electronic device includes an input apparatus and a processor. The input apparatus includes a plurality of infrared ray (IR) modules, and each of the plurality of IR modules generates a pulse signal when activated by a user input. The processor includes a plurality of interrupt pins, and each of the plurality of interrupt pins is connected to one of the plurality of IR modules to receive a corresponding pulse signal from the one of the plurality of IR modules and to generate a corresponding interrupt signal. The processor determines if the input is a sliding input and a moving direction of the sliding input according to the interrupt signals generated by the plurality of interrupt pins. | 06-24-2010 |
20100253503 | ACTIVE GPS TRACKING SYSTEM AND METHOD FOR REPORTING POSITION THEREOF - An active GPS tracking system and method includes a user setting interface for receiving a reporting distance, a distance trigger module, a GPS module and a wireless communication module. The distance trigger module calculates a moving distance of the active GPS tracking system, and generates and sends an interrupt signals to the GPS module to make it enter a working mode when the moving distance is greater than or equal to the reporting distance. Then, the GPS module determines a current position of the active GPS tracking system and determines whether an actual displacement is greater than or equal to the reporting distance to determine if reporting the current position. If the actual displacement is greater than or equal to the reporting distance, the wireless communication module receives the current position from the GPS module, and reports to a monitor center. | 10-07-2010 |
20110111811 | MOBILE PHONE POWER SUPPLY CIRCUIT - A mobile phone power supply circuit for a mobile phone, including a super capacitor, a photovoltaic module, a comparator, a battery power source, and a single-pole-double-throw (SPDT) switch. The photovoltaic module buffers solar power in the super capacitor. The comparator compares voltage of the super capacitor and a reference voltage and outputs a control signal according to the comparison. The SPDT switch selects either the super capacitor or the battery power source to supply power to the mobile phone according to the control signal. | 05-12-2011 |
Patent application number | Description | Published |
20090028217 | Ultra-wideband (UWB) frequency synthesizer system and method - An ultra-wideband (UWB) frequency synthesizer is provided for use in UWB communication. The UWB frequency synthesizer may include a first section and a second section. The first section may be configured to generate a first plurality of frequencies. The second section may be coupled to the first section and configured to generate a second plurality of frequencies respectively corresponding to individual channels of UWB bandwidth based upon the first plurality of frequencies. Further, the first section is configured to include a voltage-controlled oscillator (VCO) providing a base frequency fvco corresponding to the UWB bandwidth, and to generate the first plurality of frequencies based on a single phase-locked loop (PLL) and a reference frequency provided to the single PLL based on the base frequency fvco. | 01-29-2009 |
20130179103 | BATTERY ANALYSIS DEVICE AND METHOD THEREOF - A battery analysis device for a battery module having at least one battery cell includes a power source supply unit, a signal capturing unit, a signal adjusting unit, a frequency domain analyzing unit, a time domain analyzing unit, and a processing unit. The power source supply unit provides a variable-frequency voltage signal to a battery cell. The signal capturing unit captures a current signal generated by a battery cell in response to the variable-frequency voltage signal. The signal adjusting unit adjusts the variable-frequency voltage signal and the current signal. The frequency domain analyzing unit and time domain analyzing unit analyze both the adjusted variable-frequency voltage signal and the adjusted current signal in frequency domain and time domain respectively for obtaining a frequency domain parameter and a time domain parameter. The processing unit obtains electrochemistry characteristics of the battery cell according to the frequency and the time domain parameters. | 07-11-2013 |
20160094291 | OPTICAL COMMUNICATION DEVICE AND CONTROL METHOD THEREOF - An optical communication device and a control method thereof are provided. The optical communication device includes a driving module, a data transmission module, a light emitting module, and a feedback module. The driving module generates a driving current. The data transmission module generates a data current according to a piece of data. The light emitting module is electrically connected to the driving module and the data transmission module directly and emits visible light according to an illuminating current generated by combining the driving current with the data current. The feedback module adjusts a direct current (DC) potential of one of the driving current and the data current so as to make an average intensity of the visible light equal a preset intensity. | 03-31-2016 |
Patent application number | Description | Published |
20120019314 | CURRENT-MODE ANALOG BASEBAND APPARATUS - A current-mode analog baseband apparatus is provided. The apparatus includes a current-mode low-order filter, a current-mode programmable gain amplifier (PGA) unit and a high-order filter. The input impedance is smaller than the output impedance in the current-mode low-order filter. An input terminal of the current-mode PGA unit is connected to an output terminal of the current-mode low-order filter. An input terminal of the high-order filter is connected to an output terminal of the current-mode PGA unit. | 01-26-2012 |
20120019323 | CURRENT-MODE AMPLIFIER - A current-mode amplifier including an input stage, a feedback circuit and an output stage is provided. The input stage has an input terminal for receiving an input current of the current-mode amplifier. The input stage generates a corresponding inner current in accordance with the input current and a feedback current. The feedback circuit is connected to the input stage. The feedback circuit generates the corresponding feedback current in accordance with the inner current of the input stage. An input terminal of the output stage is connected to an output terminal of the input stage. An output terminal of the output stage serves as an output terminal of the current-mode amplifier. | 01-26-2012 |
20120019325 | CURRENT-MODE AMPLIFIER - A current-mode amplifier including an input stage, a feedback circuit and an output stage is provided. The input stage has an input terminal for receiving an input current of the current-mode amplifier. The input stage generates a corresponding inner current in accordance with the input current and a feedback current. The feedback circuit is connected to the input stage. The feedback circuit generates the corresponding feedback current in accordance with the inner current of the input stage. An input terminal of the output stage is connected to an output terminal of the input stage. An output terminal of the output stage serves as an output terminal of the current-mode amplifier. | 01-26-2012 |
20120262228 | CURRENT-MODE ANALOG BASEBAND APPARATUS - A current-mode analog baseband apparatus is provided. The apparatus includes a current-mode low-order filter, a current-mode programmable gain amplifier (PGA) unit and a high-order filter. The input impedance is smaller than the output impedance in the current-mode low-order filter. An input terminal of the current-mode PGA unit is connected to an output terminal of the current-mode low-order filter. An input terminal of the high-order filter is connected to an output terminal of the current-mode PGA unit. | 10-18-2012 |
20130033906 | Apparatus And Method For Providing An Alternating Current - A system for providing, from a direct current (DC) voltage source, an alternating current (AC) to an electrical grid outputting a grid voltage, the system including: a transformer for coupling to the DC voltage source through a first switch controlled by a first control signal, and configured to provide a converted voltage based on a DC voltage; a rectifier coupled to the transformer, and configured to generate an envelope voltage of the converted voltage; a plurality of switches coupled to the rectifier to receive the generated envelope voltage of the converted voltage, the plurality of switches being controlled by a plurality of control signals, respectively, and configured to generate the AC from the generated envelope voltage of the converted voltage; and control apparatus coupled to the first switch and the plurality of switches, and configured to provide, based on the grid voltage, the first control signal and the plurality of control signals. | 02-07-2013 |
20130181659 | CHARGING DEVICE AND CHARGING METHOD - An exemplary embodiment provides a charging method. The charging method includes detecting a charging current and producing a current-detecting signal according to the charging current; comparing the current-detecting signal with a first reference voltage and producing a current comparison signal accordingly; producing a second reference voltage according to the current comparison signal; comparing a battery voltage of a battery with the second reference voltage and producing a voltage comparison signal accordingly; producing a set of control signals according to the voltage comparison signal; and producing an adjusted charging voltage according to the control signals and a charging voltage, wherein the charging current is produced by the adjusted charging voltage to charge the battery. | 07-18-2013 |
20140159711 | CURRENT SENSING CIRCUIT AND METHOD THEREOF - A current sensing circuit comprises a high frequency signal generator, an electromagnetic exchanger, and a demodulation circuit. The high frequency signal generator generates a high frequency signal. The electromagnetic exchanger couples to the high frequency signal generator, and receives the high frequency signal to generate a high frequency magnetic field. The high frequency magnetic field modulates the magnetic field induced by a current to generate a modulated magnetic field. The electromagnetic exchanger induces the modulated magnetic field to output a modulated signal. The demodulation circuit couples to the electromagnetic exchanger, and performs demodulation to output a sensing result according to the modulated signal. | 06-12-2014 |
20150048853 | Device and Method for Impedance Analysis - An impedance analysis device adapted to an object under test (OUT) includes a signal generator, a signal analysis unit and a processing unit. The signal generator outputs a pulse signal to the OUT. The signal analysis unit acquires a response signal which the OUT responds to the pulse signal, and analyzes the response signal to obtain an analysis parameter. The processing unit coupled to the signal analysis unit receives the analysis parameter, so as to obtain an impedance variation characteristic of the OUT. | 02-19-2015 |
Patent application number | Description | Published |
20100099582 | Biochip Package Structure - A biochip package structure is provided. The biochip package structure includes a substrate, a biochip, at least one wire, and a molding compound. The substrate has a circuit unit electrically connected, by wiring, to the biochip defined with a sensing region. The molding compound covers the wire but leaves the sensing region of the biochip exposed, allowing a cavity to be formed in the sensing region. The cavity delivers a biomedical sample. The biomedical sample reacts in the sensing region. Thus, the biochip package structure is applicable to various medical and biochemical assays. | 04-22-2010 |
20110117747 | METHOD OF FABRICATING SINGLE CHIP FOR INTEGRATING FIELD-EFFECT TRANSISTOR INTO MEMS STRUCTURE - A method of fabricating a single chip for integrating a field-effect transistor into a microelectromechanical systems (MEMS) structure is provided. The method includes the steps of: providing a substrate having thereon at least one transistor structure, a MEMS structure and a blocking structure, wherein the blocking structure encircles the MEMS structure to separate the MEMS structure from the transistor structure; forming a masking layer for covering the transistor structure, the MEMS structure and the blocking structure; forming a patterned photoresist layer on the masking layer; performing a first etching process by using the patterned photoresist layer to remove the masking layer on the MEMS structure; and performing a second etching process by removing a portion of the MEMS structure to form a plurality of microstructures such that a relative motion among the microstructures takes place in a direction perpendicular to the substrate. | 05-19-2011 |
20110133256 | CMOS-MEMS Cantilever Structure - The present invention discloses a CMOS-MEMS cantilever structure. The CMOS-MEMS cantilever structure includes a substrate, a circuit structure, and a cantilever beam. The substrate has a circuit area and a sensor unit area defined thereon. The circuit structure is formed in the circuit area. The cantilever beam is disposed in the sensor unit area with one end floating above the substrate and the other end connecting to the circuit structure. With the above arrangement, the manufacturing process of CMOS-MEMS cantilever structure of this invention can be simplified. Furthermore, the structure of the cantilever beam is thinned down and therefore has a higher sensitivity. | 06-09-2011 |
20120279838 | CMOS-MEMS SWITCH STRUCTURE - A CMOS-MEMS switch structure is disclosed. The CMOS-MEMS switch structure includes a first substrate, a second substrate, a first cantilever beam, and a second cantilever beam. The first and second substrates are positioned opposite each other. The first cantilever beam is provided on the first substrate, extends from the first substrate toward the second substrate, and bends downward. Likewise, the second cantilever beam is provided on the second substrate, extends from the second substrate toward the first substrate, and bends downward. The first and second substrates are movable toward each other to connect a first top surface of the first cantilever beam and a second top surface of the second cantilever beam, and away from each other so that the first top surface of the first cantilever beam and the second top surface of the second cantilever beam are disconnected, thereby closing or opening the CMOS-MEMS switch structure. | 11-08-2012 |
20140035479 | LED DRIVER CIRCUIT STRUCTURE WITH OVER-CURRENT SUPPRESSION - An LED driver circuit structure with over-current suppression is provided. The LED driver circuit includes a DC-DC converter, a voltage detector, a reference voltage supplier module, an error amplifier, a comparator, and an SR-latch. The LED driver circuit structure controls the output voltage and thus the output current of the DC-DC converter by multi-step switching of reference voltages and current levels to achieve over-current suppression, thereby extending an LED endurance period and increasing a PWM dimming frequency range for LED brightness control applications. | 02-06-2014 |
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 |
Patent application number | Description | Published |
20120080704 | METHOD OF PROVIDING A PHOSPHOR WITH A PRECISELY CONTROLLED ELEMENT COMPOSITION, A PHOSPHOR PROVIDED BY THE SAME, A PHOSPHOR, AND A LIGHT EMITTING DEVICE COMPRISING THE SAID PHOSPHOR - A method of providing a phosphor with a precisely controlled element composition, a phosphor provided by the same, and a red phosphor represented by the [formula 1] are disclosed, in which | 04-05-2012 |
20120080999 | PHOSPHOR AND LIGHT EMITTING DEVICE - The present invention provides a phosphor, including a constituent having the formula Ca | 04-05-2012 |
20120091486 | PHOSPHOR AND LIGHT EMITTING DEVICE - The present invention provides a phosphor, including a constituent having the formula Ca | 04-19-2012 |
20120091879 | PHOSPHOR AND LIGHT EMITTING DEVICE - The present invention provides a phosphor, including a constituent having the formula Ca | 04-19-2012 |
20120126687 | NITRIDE PHOSPHOR AND MANUFACTURING METHOD THEREOF, AND LIGHT EMITTING DEVICE USING THE SAME - A phosphor and a manufacturing method thereof, and the light emitting device using the same are provided, wherein the composition formula of the phosphor is I | 05-24-2012 |
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Patent application number | Description | Published |
20110100951 | METHOD AND APPARATUS FOR TRANSFERRING CARBONACEOUS MATERIAL LAYER - In a method and apparatus for transferring carbonaceous material layer, a carbonaceous material layer is grown on a growth substrate, and a first continuous conveying unit is used to feed the growth substrate and a transfer material, so that a gluing layer of the transfer material is attached to the carbonaceous material layer on the growth substrate. Then, a transformation device changes a viscosity of the gluing layer for the latter to adhere to the carbonaceous material layer. A second continuous conveying unit is further used to transfer and then separate the mutually adhered transfer material and growth substrate from each other, so that some part of the carbonaceous material layer is transferred onto the gluing layer while other part of the carbonaceous material layer remains on the growth substrate. Thus, at least a one-layer-thickness of the carbonaceous material layer is transferred. | 05-05-2011 |
20110111202 | MULTILAYER FILM STRUCTURE, AND METHOD AND APPARATUS FOR TRANSFERRING NANO-CARBON MATERIAL - The invention discloses a method and apparatus for transferring nano-carbon material. The nano-carbon material is grown, by chemical vapor deposition, on a catalyst layer provided between a first and a second oxide layer of a multilayer film structure grown on a first substrate through chemical vapor deposition, and then separated from the first substrate by etching away the first and second oxide layers by a wet etching process. The separated nano-carbon material floats on the etchant, and is then pulled up by an etch-resistant continuous conveyance device and transferred to a second substrate. And, in a further imprinting process, large area nano-carbon material can be continuously imprinted onto the second substrate to show a particularly designed pattern. | 05-12-2011 |