Patent application number | Description | Published |
20080274665 | Building base plates assembled to build block sets in two or three dimensional configurations - The present invention relates to building base plates assembled to make two or three dimensional pyramids. Eight building base plates ( | 11-06-2008 |
20130043654 | Building Base Plates Assembled to Build Blocks Set in Cube Dimensional Configurations - A set of overturn building block cube, including building block and flat for overturn, which is characterized in that: Said building block is consisted of two to eight cubes, including at least eight corners and twelve ridges; said ridges is designed with balls outside and every balls has the same diameter outside; said flat has the same distance with said hole, which is a dimple, and the distance between two holes equals to the side length of cube ball; thus balls of the building block can function with hole and makes building block stands on the flat after the ball is inserted into the hole; said building block can work with any two balls as rotate axis to rotate 90 degrees of front, back, right and left side on the flat; through many times of overturn, the building block can go from beginning place to the end and reach the effect of fun competition and brain exercise. | 02-21-2013 |
20130277914 | Intellectual Game Model - Present invention provides an intellectual game model which includes a base with several grooves, level selector and 7 chain hexagonal bricks. There are 8 hexagon docks with numbers, and player is capable of selecting the level of difficulty of the game by moving level selector. There is also a hexagonal stud which is for increasing the difficulty of the game. Player uses 7 chain hexagonal bricks with different shapes to complete the shape which is built by empty grooves. The game inspires player's intelligence and is suitable for beginner or the one who want to challenge difficult levels of the game. | 10-24-2013 |
Patent application number | Description | Published |
20130057576 | DISPLAY METHOD AND ELECTRONIC DEVICE USING THE SAME - A display method and an electronic device using the same are provided. The display method is used in an electronic device. The display method includes the following steps. Firstly, a first environmental parameter is sensed by a sensing module. Then, a static layer and a dynamic layer corresponding to the static layer are displayed according to the first environmental parameter. The dynamic layer includes at least one dynamic object, which presents a first displaying state. | 03-07-2013 |
20130103360 | METHOD FOR CONSTRUCTING MODELS OF ANIMALS AND ELECTRONIC APPARATUSES APPLYING THE SAME - A method for constructing models of animals and an electronic apparatus applying the same are disclosed, in which the animal model construction method comprises the step of: using an imaging device for capturing images of a specific animal at different viewpoints so as to form a plurality of animal images; inputting the plural animal images into an animal model construction system, which has an animal species database embedded therein, for allowing the system to perform a species discrimination analysis so as to find a matching animal prototype from the animal species database; adjusting the matched animal prototype according to the distinctive appearance features of the specific animal that are obtained from the plural animal images so as to construct a primary animal model; and enabling the primary animal model to move and give off sound in a manner the same as the real specific animal. | 04-25-2013 |
20130113902 | REMINDING METHOD FOR DAILY LIFE MANAGEMENT - A reminding method of daily life management adapted for an electronic device configured with an imaging unit, a character recognizing unit, a database, and a processing unit, is disclosed, which comprises the steps of: using the imaging unit to capture an image of an object; enabling the character recognizing unit to perform a character recognition process upon the captured image and thus selecting a key word from the characters that are recognized in the character recognition process so as to be used as a file name for the captured image; enabling the processing unit to store the captured image using the file name into the database; and enabling the processing unit to carry out a reminding mode according to the file name stored in the database. | 05-09-2013 |
20130248676 | SUPPORTING COMPONENT - A supporting component comprising a bottom base, a top base, a supporting plate, and a supporting unit is disclosed. An accommodating groove is at a lateral surface of the bottom base. The top base is pivottably connected to the bottom base around a first pivot. The bottom base is movably disposed at the accommodating groove. The supporting unit is pivottably connected to the top base around a second pivot, and the supporting unit is pivottably connected to the supporting plate around a third pivot. When the top base pivots around the first pivot from a closing position to an opening position, the top base pushes the supporting unit so that the supporting unit pushes the supporting plate to stick out from the accommodating groove. Therefore, the supporting component is at a supporting state automatically. | 09-26-2013 |
20140092008 | ELECTRONIC DEVICE - An electronic device includes a portable computing device and a peripheral device. The portable computing device includes a control center and a first sensor, and whereas the peripheral device includes a base, a frame body and a lock set. An input module is located in the base and the frame body, having a closed position and an uncovered position with respect to the base, is pivotally connected to the base. The lock set, having a released position and a locked position, is located in the frame body and includes a second sensor. The control center detects a relative location between the first sensor and the second sensor and uses the relative location for controlling the statuses of the input module and the portable computing device. | 04-03-2014 |
20150034581 | Curved shower rod assembly having flexible mounting base - An adjustable curved shower curtain rod assembly, attached to the walls to form different sizes of shower area, comprises a telescopic curtain rod and a pair of flexible mounting bases, including a pair of flexible mounting adapters. Each adapter comprises a supporting cover coaxially secured to the mounting bracket through a lock mechanism; a flexible joint, consisting of a female joint cover and male joint insert, the male joint insert is substantially spherically shaped and the joint cover, having a spherical central opening, encapsulates the joint insert partially; and an insertion post, projecting from the joint insert, having an outer thread on an outer surface thereof capable of being inserted into one end of the curved curtain rod, wherein the joint insert can move to allow the moveable insertion post change positions pivotally, from a position parallel to the surface to a position having an increasing angle to the surface, or from a position perpendicular to the surface to a position having a decreasing angle to the surface, while the joint insert smoothly fits in the joint cover. | 02-05-2015 |
Patent application number | Description | Published |
20090020658 | Wall-Mount Support - A wall-mount support includes: a wall bracket adapted to be mounted on a wall and having a vertical track; a carrier mounted slidably on the vertical track; a pair of supporting arms, each of which extends from the carrier in a transverse direction relative to the vertical track and each of which is pivoted to the carrier so as to permit angle adjustment therebetween; and a brake mechanism including a friction-providing member connected to the carrier and operable to abut against the vertical track so as to prevent sliding movement of the carrier on the vertical track. | 01-22-2009 |
20090020670 | Wall-Mount Support with Cable Accommodating Capability - A wall-mount support includes: a wall bracket adapted to be mounted on a wall, defining a vertical track, and having front and rear connecting ends disposed outwardly of the vertical track; a carrier mounted slidably on the vertical track; a supporting unit connected to the carrier and adapted to support an electronic device thereon; and an arcuate cover plate having front and rear ends. The front and rear ends of the arcuate cover plate are respectively connected to the front and rear connecting ends of the wall bracket to define an accommodating space between the cover plate and the wall bracket. The arcuate cover plate is pivoted to one of the front and rear connecting ends of the wall bracket so as to be rotatable relative to the wall bracket about an axis parallel to the vertical track between opened and closed positions. | 01-22-2009 |
20090134285 | Monitor Support Device - A monitor support device includes a base, an upright rod that projects upwardly from the base, a first support arm that is pivotable about and movable along the upright rod and that is adapted for supporting a monitor thereon, and a second support arm that is pivotable about the upright rod, that is movable relative to the first support arm along the upright rod, and that is adapted for supporting another monitor thereon. | 05-28-2009 |
20090194649 | ADJUSTABLE SUPPORTING DEVICE FOR A DISPLAY PANEL - An adjustable supporting device for a display panel includes: a coupling seat connected pivotally to a supporting seat mounted on a supporting surface; a mounting frame coupled to the display panel and connected pivotally to the coupling seat; a torsion spring having a first end engaging the mounting frame, and a second end opposite to the first end and engaging movably the coupling seat, and operable to provide a torsional force for supporting an assembly of the mounting frame and the display panel at a desired orientation relative to the coupling seat; and an adjusting member disposed movably in the coupling seat, abutting against the second end of the torsion spring, and operable so as to adjust the torsional force provided by the torsion spring. | 08-06-2009 |
20090194655 | DISPLAY MOUNTING ASSEMBLY - A display mounting assembly includes: a wall bracket; a display-mounting bracket; and a position-adjusting mechanism disposed between and interconnecting the wall bracket and the display-mounting bracket, and including first and second connecting units and a supporting unit that is connected to the wall bracket. The first and second connecting units are provided on the display-mounting bracket and the supporting unit, respectively. Each of the first and second connecting units includes upper and lower connectors. The upper and lower connectors of the second connecting unit cooperatively define a circumferentially extending track. The upper and lower connectors of the first connecting unit are mounted slidably on the upper and lower connectors the second connecting unit so as to be co-slidable along the circumferentially extending track. | 08-06-2009 |
20120056050 | Screen Supporting apparatus - A screen supporting apparatus includes a supporting member and a movable assembly. The supporting member includes a base and an upright supporting rod disposed fixedly on and above the base. The movable assembly includes a mounting member disposed on the supporting rod and including a slideway unit. The sliding member has two spaced-apart engaging portions slidable within the slideway unit of the mounting member to adjust the inclination angle of the sliding member relative to the mounting member. | 03-08-2012 |
20120056057 | MICRO-ADJUSTABLE SUPPORTING DEVICE - A micro-adjustable supporting device includes a mounting seat, a movable unit, and an adjusting unit. The movable unit includes a rotating assembly disposed rotatably in the mounting seat and rotatable about an axis, and a bottom seat assembly disposed under the mounting seat and rotatable about the axis. The adjusting unit includes a pair of spaced-apart first and second tilt-adjusting elements, and an angle-adjusting element. Each of the first and second tilt-adjusting elements extends through the rotating assembly to connect with the bottom seat assembly, and is movable relative to the rotating assembly in a direction parallel to the axis to adjust a tilt angle of the bottom seat assembly relative to the axis. The angle-adjusting element is operable to move relative to the mounting seat to thereby rotate the rotating assembly and the bottom seat assembly about the axis. | 03-08-2012 |
20120091076 | MONITOR SUPPORT DEVICE - A monitor support device includes a base, an upright rod that projects upwardly from the base, a first support arm that is pivotable about and movable along the upright rod and that is adapted for supporting a monitor thereon, and a second support arm that is pivotable about the upright rod, that is movable relative to the first support arm along the upright rod, and that is adapted for supporting another monitor thereon. | 04-19-2012 |
20120318938 | SCREEN SUPPORTING APPARATUS - A screen supporting apparatus includes a supporting member and a movable assembly. The supporting member includes a base and an upright supporting rod disposed fixedly on and above the base. The movable assembly includes a mounting member disposed on the supporting rod and including a slideway unit. The sliding member has two spaced-apart engaging portions slidable within the slideway unit of the mounting member to adjust the inclination angle of the sliding member relative to the mounting member. | 12-20-2012 |
Patent application number | Description | Published |
20100156300 | Plasma excitation module - A plasma excitation module including a chamber, a plurality of coils and a multi-duct gas intake system is provided. The chamber has a dielectric layer. The coils are disposed at an outer side of the dielectric layer, and the coils are separated from each other by an interval and in parallel connection. The multi-duct gas intake system surrounds the dielectric layer and is communicated with the chamber. | 06-24-2010 |
20100207729 | METHOD AND SYSTEM FOR TESTING RFID TAGS - The present invention provides a method and a system for testing RFID tags, which utilizes a way of adjusting the distance between the RFID tags and interrogator or adjusting the power of the interrogator accompanied with a shielding procedure for testing and classifying the RFID tags. By means of the method and the system of the present invention, it is capable of judging the efficacy and good and bad of the RFID tags, while the interrogatable distance of the RFID tags is capable of being tested effectively. | 08-19-2010 |
20120145325 | PLASMA APPARATUS - A plasma apparatus including a chamber, an electrode set and a gas supplying tube set is provided. The chamber has a supporting table for supporting a substrate. The gas supplying tube set is disposed in the chamber and has a plurality of gas apertures. The gas supplying tube set is located between the supporting table and the electrode set. | 06-14-2012 |
20140144382 | PLASMA APPARATUS - A plasma apparatus including a chamber, an electrode set and a gas supplying tube set is provided. The chamber has a supporting table. The gas supplying tube set is disposed in the chamber and located between the supporting table and the electrode set. The gas supplying tube set includes at least one outer gas supplying tube and at least one first inner gas supplying tube. The first inner gas supplying tube is telescoped within the outer gas supplying tube. The outer gas supplying tube and the first inner gas supplying tube both have a plurality of gas apertures, and an amount of the gas apertures of the outer gas supplying tube is greater than an amount of the gas apertures of the first inner gas supplying tube. | 05-29-2014 |
Patent application number | Description | Published |
20130057223 | BATTERY MANAGEMENT SYSTEM AND BATTERY MANAGEMENT METHOD - A battery management system (BMS) for managing discharging of a plurality of battery cells is disclosed. The battery management system comprises a battery monitoring unit, for monitoring statuses of the plurality of battery cells; and a discharge control unit, for controlling the plurality of battery cells to output a plurality of output powers to a load according to the statuses of the plurality of battery cells. | 03-07-2013 |
20130204560 | Gas Gauge Device - The present invention discloses a gas gauge device for measuring a state of charge of a battery. The gas gauge device comprises a first programmable gain amplifier (PGA), for amplifying a battery current of the battery with a first adjustable gain, to generate an amplified battery current; a first analog to digital (ADC) converter, for converting the amplified battery current into a digital amplified battery current with a first adjustable sampling rate; and a micro controller, for adjusting the first adjustable gain and the first adjustable sampling rate to measure the battery current. | 08-08-2013 |
20140062494 | APPARATUS AND METHOD FOR ESTIMATING BATTERY CONDITION OF BATTERY PACK BY SOLELY MONITORING ONE SELECTED BATTERY CELL - A battery condition estimating apparatus for a battery pack having a plurality of battery cells connected in series includes an analog channel switching circuit and a battery gas gauge circuit. The analog channel switching circuit has a plurality of input ports and an output port, wherein the input ports are coupled to the battery cells via a plurality of analog channels, respectively, and the analog channel switching circuit is arranged to couple the output port to a selected input port of the input ports for allowing the output port N | 03-06-2014 |
20140100802 | Method and computer system for measuring remaining battery capacity - A method for measuring a remaining capacity of a chargeable magnetic material includes determining a discharging parameter, obtaining an open-circuit-voltage state-of-charge (OCV SOC) curve according to the discharging parameter, obtaining a discharging curve according to the OCV SOC curve and the discharging parameter, and processing an interpolation operation to measure the remaining capacity according to the OCV SOC curve and the discharging curve. | 04-10-2014 |
20140136177 | CRITICAL PATH EMULATING APPARATUS USING HYBRID ARCHITECTURE - A critical path emulating apparatus includes a critical path emulator (CPE) and an interconnection circuit. The CPE is capable of emulating a critical path of a target device, and supporting a plurality of speed information detection modes. The interconnection circuit is capable of supporting a plurality of interconnection arrangements, wherein when the interconnection circuit is configured to have a first interconnection arrangement, the CPE is capable of being used in a first speed information detection mode, and when the interconnection circuit is configured to have a second interconnection arrangement, the CPE is capable of being used in a second speed information detection mode. | 05-15-2014 |
20150347203 | ELECTRONIC DEVICE CAPABLE OF CONFIGURING APPLICATION-DEPENDENT TASK BASED ON OPERATING BEHAVIOR OF APPLICATION DETECTED DURING EXECUTION OF APPLICATION AND RELATED METHOD THEREOF - An electronic device has a processing system and a management circuit. The processing system executes an application. The management circuit detects an operating behavior of the application during execution of the application, analyzes the detected operating behavior of the application to generate an application identification result, and configures an application-dependent task according to at least the application identification result. | 12-03-2015 |
20160062447 | METHOD AND COMPUTER-READABLE MEDIUM FOR DYNAMICALLY MANAGING POWER OF MULTI-CORE PROCESSOR - A method and a computer-readable medium for dynamically managing power of a multi-core processor of a computing system are provided. The multi-core processor generates a dynamic voltage and frequency scaling (DVFS) table, determines a first index by alternatively selecting either a power budget or a required performance thereof, determines a current thread level parallelism (TLP) of the computing system, selects one of entries according to the current TLP and the first index, and configure first cores and second cores thereof according to a first settings and a second settings of the selected entry. | 03-03-2016 |
20160064968 | Discharge Balancing Device, Discharge Balancing Method, and Power Supply System - A discharge balancing device, for balancing a plurality of electric energy storage units connected in series in a discharge stage, comprising a plurality of bypass units, respectively connected to the plurality of electric energy storage units in parallel, configured to drain bypass currents from the plurality of electric energy storage units according to control signals; an energy condition measurement circuit, coupled to the plurality of the electric energy storage units, configured to measure energy conditions of the plurality of electric energy storage units; and a balancing control unit, coupled to the energy condition measurement circuit and the plurality of bypass units, configured to generate each of the control signals according to the energy conditions measured by the energy condition measurement circuit, so as to control each of the plurality of bypass units whether to drain a bypass current from a corresponding electric energy storage unit. | 03-03-2016 |
Patent application number | Description | Published |
20140084291 | Active Device Array Substrate and Manufacturing Method Thereof - An active device array substrate includes a flexible substrate, a gate electrode, a dielectric layer, a channel layer, a source electrode, a drain electrode, and a pixel electrode. The flexible substrate has at least one transistor region and at least one transparent region adjacent to each other. The gate electrode is disposed on the transistor region of the flexible substrate. The dielectric layer covers the flexible substrate and the gate electrode. A portion of the dielectric layer disposed on the gate electrode has a first thickness. Another portion of the dielectric layer disposed on the transparent region of the flexible substrate has a second thickness. The second thickness is less than the first thickness. The channel layer is disposed above the gate electrode. The source electrode and the drain electrode are disposed on opposite sides of the channel layer and are electrically connected to the channel layer. | 03-27-2014 |
20140284606 | METHOD OF FABRICATING PIXEL STRUCTURE AND PIXEL STRUCTURE THEREOF - A method for fabricating a pixel structure includes the following steps. A patterned semiconductor layer, an insulation layer, and a patterned metal layer are formed on a substrate sequentially. A first inter-layer dielectric (ILD) layer is formed to cover the patterned metal layer. A low temperature annealing process is performed after forming the first ILD layer. A hydrogen plasma treatment process is performed after the low temperature annealing process. A second ILD layer is formed to cover the first ILD layer after the hydrogen plasma treatment process. A third ILD layer is formed to cover the second ILD layer. A source electrode and a drain electrode are formed on the third ILD layer. A passivation layer is formed on the source electrode and the drain electrode. A pixel electrode is formed on the passivation layer. A pixel structure manufactured by the above-mentioned method is also provided. | 09-25-2014 |
20150028336 | Active Device Array Substrate - An active device array substrate includes a flexible substrate, a gate electrode, a dielectric layer, a channel layer, a source electrode, a drain electrode, and a pixel electrode. The flexible substrate has a transistor region and a transparent region adjacent to each other. The gate electrode is disposed on the transistor region. The dielectric layer covers the flexible substrate and the gate electrode. A portion of the dielectric layer disposed on the gate electrode has a first thickness. Another portion of the dielectric layer disposed on the transparent region has a second thickness less than the first thickness. The channel layer is disposed above the gate electrode. The source electrode and the drain electrode are electrically connected to the channel layer. The pixel electrode is disposed on the dielectric layer which is disposed on the transparent region. The pixel electrode is electrically connected to the drain electrode. | 01-29-2015 |
20150162453 | PIXEL STRUCTURE - A pixel structure includes a substrate, a patterned semiconductor layer, an insulation layer, a gate electrode, a first inter-layer dielectric (ILD) layer, a second ILD layer, a third ILD layer, a source electrode and a drain electrode. The patterned semiconductor layer is disposed on the substrate. The insulation layer is disposed on the patterned semiconductor layer. The gate electrode is disposed on the insulation layer. The first ILD layer is disposed on the gate electrode, the second ILD layer is disposed on the first ILD layer, and the third ILD layer is disposed on the second ILD layer. The source electrode and the drain electrode are disposed on the third ILD layer, wherein the source electrode and the drain electrode are electrically connected to the patterned semiconductor layer via a first contact window and a second contact window respectively. | 06-11-2015 |
Patent application number | Description | Published |
20130148040 | PROJECTION SYSTEM - A projection system includes an illumination device, a LCOS microdisplay element, an optical projection lens, a total internal reflection prism, and a polarizer. The polarizer is a reflective polarizer or an absorptive polarizer. The total internal reflection prism is arranged between the illumination device, the LCOS microdisplay element and the optical projection lens. A plurality of lighting paths are created between the illumination device and the LCOS microdisplay element. A plurality of imaging paths are created between the LCOS microdisplay element and the optical projection lens. The polarizer is only located in the lighting paths. | 06-13-2013 |
20130162954 | LCOS PROJECTION SYSTEM - A LCOS projection system includes an illumination device, a LCOS microdisplay element, a polarization beam splitter, an optical projection lens, and a beam recycling module. A first portion of the lighting beams provided by the illumination device are transmissible through the polarization beam splitter and directed to the LCOS microdisplay element. A second portion of the lighting beams provided by the illumination device and from the polarization beam splitter are introduced into the beam recycling module. By the beam recycling module, a polarization state of the second portion of the lighting beams is converted. Consequently, the second portion of the lighting beams in the converted polarization state can also be projected onto the LCOS microdisplay element. The beam recycling module includes a total internal reflection prism, which is arranged in a transmission path of the first portion and the second portion of the lighting beams. | 06-27-2013 |
Patent application number | Description | Published |
20110186909 | ESD PROTECTION CIRCUIT FOR RFID TAG - An electrostatic discharge (ESD) protection circuit structure includes a dual directional silicon controlled rectifier (SCR) formed in a substrate. The SCR includes first and second P-wells laterally interposed by an N-well. A deep N-well is disposed underneath the P-wells and the N-well. First and second N-type regions are disposed in the first and second P-wells, respectively, and are coupled to a pair of pads. First and second P-type regions are disposed in the first and second P-wells, respectively, are coupled to the pads, and are disposed closer to the N-well than the first and second N-type regions, respectively. | 08-04-2011 |
20110260819 | CONTINUOUSLY TUNABLE INDUCTOR WITH VARIABLE RESISTORS - An integrated tunable inductor includes a primary inductor having a plurality of inductor turns, at least one closed loop eddy current coil proximate the primary inductor, and at least one variable resistor integrated in series with the eddy current coil. | 10-27-2011 |
20110286136 | ESD BLOCK WITH SHARED NOISE OPTIMIZATION AND CDM ESD PROTECTION FOR RF CIRCUITS - A RF device includes a RF integrated circuit having a RF input and a RF output. The RF integrated circuit has an NMOS transistor having a gate terminal coupled to the RF input, a drain terminal coupled to a first power supply node and a source terminal coupled to a second power supply node. The RF integrated circuit is vulnerable to damage from an ESD event. A primary ESD protection circuit is coupled to the RF input and between the first and second power supply nodes. A secondary ESD protection circuit is coupled between the RF input and the second power supply node. The secondary ESD protection circuit includes a secondary ESD protection diode coupled between the gate and source terminals of the NMOS transistor. | 11-24-2011 |
20120099228 | ESD PROTECTION FOR RF CIRCUITS - An electrostatic discharge (ESD) circuit, adaptive to a radio frequency (RF) device, which includes a RF circuit coupled between a VDD power rail and a VSS power rail and having a RF I/O pad, includes an ESD clamp circuit coupled between a VDD power rail node and the VSS power rail node and a LC-tank structure coupled between the VDD power rail node and the VSS power rail node and to the RF I/O pad. The LC-tank structure includes a first ESD block between the VDD power rail node and the RF I/O pad, and a second ESD block between the VSS power rail node and the RF I/O pad. At least one of the first and second ESD blocks includes a pair of diodes coupled in parallel with each other and an inductor coupled in series with one of the pair of diodes. | 04-26-2012 |
20120122395 | THROUGH CHIP COUPLING FOR SIGNAL TRANSPORT - Through-chip coupling is utilized for signal transport, where an interface is formed between a first coil on a first integrated circuit (IC) chip and a second coil on a second IC chip. The first coil is coupled to an antenna. The second coil is coupled to an amplifier circuit. The second coil is not in direct contact with the first coil. The first coil and the second coil communicatively transmit signals between the antenna and the first amplifier circuit. | 05-17-2012 |
20120170161 | ELECTROSTATIC DISCHARGE CIRCUIT FOR RADIO FREQUENCY TRANSMITTERS - A representative electrostatic discharge (ESD) protection circuit includes a silicon-controlled rectifier (SCR) that is electrically coupled to the output of a power amplifier; an ESD detection circuit that triggers the SCR responsive to detect an electrostatic discharge on an ESD bus; and an ESD clamp circuit that is coupled to the first voltage line. | 07-05-2012 |
20120176708 | ESD PROTECTION DEVICES AND METHODS FOR FORMING ESD PROTECTION DEVICES - The present disclosure provides a device that includes a signal input that is in electrical communication with an electrostatic discharge (ESD) protection device, wherein the ESD protection device includes a gated diode arranged as a polygon. | 07-12-2012 |
20120176709 | ESD PROTECTION DEVICES AND METHODS FOR FORMING ESD PROTECTION DEVICES - The present disclosure provides a circuit that has an electrostatic discharge (ESD) protection device and a protected circuit in communication with the ESD protection device. The ESD protection device has a first inductor between a signal input terminal and a complimentary power line. The first inductor has a length less than ¼ of a normal operating wavelength of the protected circuit. The ESD protection device also has a first capacitor between the signal input terminal and the protected circuit. | 07-12-2012 |
20120176720 | ESD PROTECTION DEVICES AND METHODS FOR FORMING ESD PROTECTION DEVICES - The present disclosure provides a circuit that has a Radio Frequency (RF) input, an inductor between the RF input and with RF front end circuitry, a first diode coupled to the RF input and the inductor and with a power line, and a second diode coupled to the RF input and the inductor and with a complimentary power line. | 07-12-2012 |
20130163127 | ESD PROTECTION CIRCUIT - An electrostatic discharge protection circuit includes an input node coupled to receive an input signal and an output node coupled to output the input signal to an internal circuit. A first inductor is coupled to the input node and to the output node, and a second inductor is coupled to the output node and to a first power supply node through a resistance. A plurality of protection devices are coupled to the first and second inductors and are disposed in parallel with each other. | 06-27-2013 |
20160043576 | SYSTEM AND METHOD FOR INDUCTIVE WIRELESS SIGNALING - A transformer includes first and second semiconductor substrates. The first semiconductor substrate includes a first circuit, a first coil providing a first impedance, and a first capacitor coupled in parallel with the first coil. The second semiconductor substrate includes a second circuit, a second coil providing a second impedance and inductively coupled with the first coil, and a second capacitor coupled in parallel with the second coil. | 02-11-2016 |
Patent application number | Description | Published |
20110233678 | JUNCTION VARACTOR FOR ESD PROTECTION OF RF CIRCUITS - An ESD protection device includes a first well of a first semiconductor type disposed in a substrate of a second semiconductor type forming a first diode. A second well of the second semiconductor type is formed in the substrate to form a second diode with the first well. A first plurality of doped regions of the first semiconductor type are formed in an upper surface of the first well. A second plurality of doped regions of the second semiconductor type are formed in the upper surface of the first well forming a third diode with the first well. A plurality of STI regions are formed in the upper surface of the first well. Each STI region is disposed between a doped region of the first and second semiconductor types. The third diode provides a current bypass when an ESD voltage spike is received at one of the first or second plurality of doped regions. | 09-29-2011 |
20120126630 | SYSTEM AND METHOD FOR INDUCTIVE WIRELESS SIGNALING - A transformer includes first and second semiconductor substrates. The first semiconductor substrate includes a first circuit, a first coil providing a first impedance, and a first capacitor coupled in parallel with the first coil. The second semiconductor substrate includes a second circuit, a second coil providing a second impedance and inductively coupled with the first coil, and a second capacitor coupled in parallel with the second coil. | 05-24-2012 |
20120208457 | CAPACITIVE PROXIMITY COMMUNICATION USING TUNED-INDUCTOR - A multi-chip module includes a chip stack package including at least one pair of stacked dies, the dies having overlapping opposing faces, and at least one capacitive proximity communication (CPC) interconnect between the pair of stacked dies. The CPC interconnect includes a first capacitor plate at a first one of the overlapping opposing faces and a second capacitor plate at a second one of the overlapping opposing faces spaced from and aligned with the first capacitor plate. The CPC interconnect further includes an inductive element connected in series with the first capacitor plate and second capacitor plate, wherein the capacitor plates form part of a capacitor and the capacitor cooperates with the inductor element to form a LC circuit having a resonant frequency. | 08-16-2012 |
20120212865 | ESD BLOCK ISOLATION BY RF CHOKE - A circuit includes a first node configured to receive a radio frequency (“RF”) signal, a first electrostatic discharge (ESD) protection circuit coupled to a first voltage supply rail for an RF circuit and to a second node, and a second ESD protection circuit coupled to the second node and to a second voltage supply node for the RF circuit. An RF choke circuit is coupled to the second node and to a third node disposed between the first node and the RF circuit. | 08-23-2012 |
20120229318 | DEVICES AND BANDPASS FILTERS THEREIN HAVING AT LEAST THREE TRANSMISSION ZEROES - A bandpass filter comprises a first capacitor, a second capacitor, a third capacitor and at least two resonators. The first and second capacitors are coupled in parallel with each other, and each of the first and second capacitors includes an input. The third capacitor is coupled between the first capacitor and the second capacitor at their respective inputs. The at least two resonators are coupled in parallel with the first capacitor and the second capacitor and are positioned adjacent to each other at a distance such that the at least one component of the resonators are electromagnetically coupled together to provide three (3) transmission zeros. | 09-13-2012 |
Patent application number | Description | Published |
20130026511 | TRANSFER-BONDING METHOD FOR THE LIGHT EMITTING DEVICE AND LIGHT EMITTING DEVICE ARRAY - A transfer-bonding method for light emitting devices including following steps is provided. A plurality of light emitting devices is formed over a first substrate and is arranged in array, wherein each of the light emitting devices includes a device layer and a sacrificial pattern sandwiched between the device layer and the first substrate. A protective layer is formed over the first substrate to selectively cover parts of the light emitting devices, and other parts of the light emitting devices are uncovered by the protective layer. The device layers uncovered by the protective layer are bonded with a second substrate. The sacrificial patterns uncovered by the protective layer are removed, so that parts of the device layers uncovered by the protective layer are separated from the first substrate and are transfer-bonded to the second substrate. | 01-31-2013 |
20130135507 | PHOTOGRAPHY AND PROJECTION APPARATUS AND LIGHT EMITTING AND SENSING MODULE - A photography and projection apparatus including a light emitting and sensing module and a projection lens is provided. The light emitting and sensing module has a light emitting and sensing area, and includes a light emitting unit array and a light sensing unit array. The light emitting unit array includes a plurality of light emitting units arranged in an array. The light emitting units are distributed in the light emitting and sensing area. The light emitting unit array is adapted to provide an image beam. The light sensing unit array includes a plurality of light sensing units arranged in an array. The light sensing units are distributed in the light emitting and sensing area. The projection lens is disposed on a transmission path of the image beam. A light emitting and sensing module is also provided. | 05-30-2013 |
20130214302 | LIGHT EMITTING ELEMENT AND FABRICATING METHOD THEREOF - A fabricating method of light emitting element. A substrate is provided. A plurality of first concaves and a plurality of second concaves are formed on the substrate, wherein a volume of each first concave is different from a volume of each second concave. A plurality of first light emitting diode chips and a plurality of second light emitting diode chips are provided, wherein a volume of each first light emitting diode chip is corresponding to the volume of each first concave, and a volume of each second light emitting diode chip is corresponding to the volume of each second concave. The first light emitting diode chips are moved onto the substrate such that the first light emitting diode chips go into the first concaves, and the second light emitting diode chips are moved onto the substrate such that the second light emitting diode chips go into the first concaves. | 08-22-2013 |
20130250630 | METHOD FOR CONTROLLING ALTERNATING CURRENT OUTPUT OF PHOTOVOLTAIC DEVICE AND ALTERNATING CURRENT PHOTOVOLTAIC DEVICE - A method for controlling an alternating current (AC) output of a photovoltaic (PV) device, and an AC PV device are introduced herein. The method includes: receiving solar radiant energy by using a PV cell array and then converting the solar radiant energy into a direct current (DC) energy output; and selecting an arrangement and combination sequence of the PV cells by using a control module, to vary a voltage according to a timing (frequency), so that a sine-like wave output is obtained at an output terminal. | 09-26-2013 |
20140217955 | CHARGE APPARATUS - A charge apparatus including a natural energy conversion module, an energy converter, an energy transmitter, an energy receiver, and an electricity storage device is provided. The natural energy conversion module receives the natural energy and converts the natural energy into a first electric energy. The energy converter is electrically connected to the natural energy conversion module and converts the first electric energy into a wireless energy. The energy transmitter is electrically connected to the energy converter and transmits the wireless energy. The energy receiver receives the wireless energy and converts the wireless energy into a second electric energy to charge an external apparatus. The energy transmitter monitors the current charge status of the external apparatus so as to adjust transmitting the wireless energy. The electricity storage device is electrically connected to the natural energy conversion module to store the first electric energy. | 08-07-2014 |
20150108508 | DISPLAY PANEL - A display panel comprising a substrate, a meshed shielding pattern, a plurality of light-emitting devices and a solar cell is provided. The substrate has a first surface and a second surface opposite to the first surface, the substrate comprises a first circuit layer disposed over the first surface and a second circuit layer disposed over the second surface. The meshed shielding pattern is disposed on first surface of the substrate to define a plurality of pixel regions over the substrate. The light-emitting devices are disposed on the first surface of the substrate and electrically connected to the first circuit layer, and at least one of the light-emitting devices is disposed in one of the pixel regions. The solar cell is disposed on the second surface of the substrate and electrically connected to the second circuit layer. | 04-23-2015 |
20150111329 | TRANSFER-BONDING METHOD FOR LIGHT EMITTING DEVICES - A transfer-bonding method for light emitting devices including following steps is provided. A plurality of light emitting devices is formed over a first substrate and is arranged in array, wherein each of the light emitting devices includes a device layer and an interlayer sandwiched between the device layer and the first substrate. A protective layer is formed over the first substrate to selectively cover parts of the light emitting devices, and other parts of the light emitting devices are uncovered by the protective layer. The device layers uncovered by the protective layer are bonded with a second substrate. The interlayers uncovered by the protective layer are removed, so that parts of the device layers uncovered by the protective layer are separated from the first substrate and are transfer-bonded to the second substrate. | 04-23-2015 |
20150159837 | ILLUMINATION ASSEMBLY - An illumination assembly and a display panel are provided. The illumination assembly has an optical plate, a pattern layer, and a light source. The optical plate is made of transparent material and has a surface and at least one side connected to the surface. The pattern layer is disposed on the surface and having a plurality of microstructures. The light source is disposed adjacent to the optical plate. | 06-11-2015 |
20150187827 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device includes an epitaxial layer including a first surface and a silicon layer disposed on the first surface and including a second surface opposite to the first surface, wherein the silicon layer includes a plurality of pillars on the second surface, a portion of the plurality of pillars on a predetermined portion of the second surface are in substantially same dimension, each of the plurality of pillars on the predetermined portion of the second surface stands substantially orthogonal to the second surface, the plurality of pillars are configured for absorbing an electromagnetic radiation of a predetermined wavelength projected from the epitaxial layer and generating an electrical energy in response to the absorption of the electromagnetic radiation. | 07-02-2015 |
20150206690 | SYSTEM AND METHOD FOR GENERATING IONS IN AN ION SOURCE - Embodiments of a method for generating ions in an ion source are provided. The method for generating ions in an ion source includes introducing a dopant gas and a diluent gas into an ion source arc chamber. The method for generating ions in an ion source further includes generating plasma in the ion source arc chamber based on the dopant gas and the diluent gas. In addition, the dopant gas includes carbon monoxide, and the diluent gas includes xenon and hydrogen | 07-23-2015 |
20150206915 | IMAGE-SENSOR DEVICE AND METHOD OF MANUFACTURING THE SAME - An image-sensor device includes a first semiconductor substrate. The image-sensor device further includes a second semiconductor substrate under the first semiconductor substrate. The first semiconductor substrate has a first dopant concentration less than a second dopant concentration of the second semiconductor substrate. A ratio of a first resistance of the first semiconductor substrate to a second resistance of the second semiconductor substrate is larger than or equal to about 100. The image-sensor device also includes a diffusion layer positioned between the first semiconductor substrate and the second semiconductor substrate. A ratio of a first thickness of the diffusion layer to a second thickness of the first semiconductor substrate ranges from about 0.1 to about 1. | 07-23-2015 |
20160071899 | METHOD FOR FORMING IMAGE-SENSOR DEVICE - A method for forming an image-sensor device is provided. The method includes providing a first semiconductor substrate having a first surface and a second surface opposite to the first surface. The method includes forming a device layer over the first surface of the first semiconductor substrate. The method includes bonding the first semiconductor substrate to a second semiconductor substrate after the formation of the device layer. The second surface faces the second semiconductor substrate. The method includes forming a diffusion layer between the first semiconductor substrate and the second semiconductor substrate. The diffusion layer has a dopant concentration gradient that increases in a direction from the first semiconductor substrate toward the second semiconductor substrate. | 03-10-2016 |
20160104695 | TRANSFER-BONDING METHOD FOR THE LIGHT EMITTING DEVICE AND LIGHT EMITTING DEVICE ARRAY - A light emitting device array including a circuit substrate and a plurality of device layers is provided. The circuit substrate includes a plurality of bonding pads and a plurality of conductive bumps located over the bonding pads. The device layers are capable of emitting different colored lights electrically connected with the circuit substrate through the conductive bumps and the bonding pads. The device layers capable of emitting different colored lights have different thicknesses and the conductive bumps bonded with the device layers capable of emitting different colored lights have different heights such that top surfaces of the device layers capable of emitting different colored lights are located on a same level of height. | 04-14-2016 |