26th week of 2012 patent applcation highlights part 20 |
Patent application number | Title | Published |
20120161582 | MEMS KINETIC ENERGY CONVERSION - The present disclosure provides a micro device. The device has a micro-electro-mechanical systems (MEMS) movable structure, a plurality of metal loops over the MEMS movable structure, and a piezoelectric element over the MEMS movable structure. Frontside and backside capping wafers are bonded to the MEMS structure, with the frontside and backside capping wafers encapsulating the MEMS movable structure, the plurality of metal loops, and the piezoelectric element. The device further includes a magnet disposed on the frontside capping wafer over the plurality of metal loops. | 2012-06-28 |
20120161583 | PIEZOELECTRIC POWER GENERATOR FOR FEEDING EMERGENCY POWER - A piezoelectric power generator for feeding emergency power, includes a frame; a fixing unit comprising a left fixing body coupled to an upper left side of the frame and a right fixing body coupled to an upper right part of the frame; a first piezoelectric body bonded to a right side of the left fixing body; a second piezoelectric body bonded to a left side of the right fixing body; and a vibration unit bonded between the first piezoelectric body and the second piezoelectric body and vibrating vertically. | 2012-06-28 |
20120161584 | Piezoelectric Power Generation Device - A small-sized piezoelectric power generation device is provided which can generate electric power even with vibrations at low frequencies. The piezoelectric power generation device includes a piezoelectric element formed in a spiral shape and having a center-side end fixed to a first fixing member and an outer-side end fixed to a second fixing member. The piezoelectric element includes a first piezoelectric body formed in a spiral shape and polarized in a radial direction of the piezoelectric element from one side toward the other side. The first and second fixing members are arranged such that the second fixing member is displaceable relative to the first fixing member in a tangential direction x, whereas the second fixing member is restricted from displacing relative to the first fixing member in a perpendicular direction y. | 2012-06-28 |
20120161585 | COMPOSITE SUBSTRATE AND METHOD FOR MANUFACTURING THE COMPOSITE SUBSTRATE - In a composite substrate, a back surface of a piezoelectric substrate and a front surface of a support substrate are bonded to each other with an adhesive layer. The adhesive layer includes a swelling portion at an outer peripheral area thereof, and the piezoelectric substrate is bonded to the support substrate in an area excluding the swelling portion | 2012-06-28 |
20120161586 | ACTUATOR - Provided are an electrode having high conductivity and high durability to driving deformation, and an actuator including the electrode, the actuator having a large amount of displacement. The actuator includes a pair of electrodes arranged oppositely and an intermediate layer arranged between the pair of electrodes, the intermediate layer containing an electrolyte, and the actuator being deformed by applying a voltage to the pair of electrodes, in which at least one of the pair of electrodes includes a porous structure containing a first conductive material and having conductivity, a second conductive material, and an electrolyte, pores of the porous structure being filled with the second conductive material and the electrolyte. | 2012-06-28 |
20120161587 | HAPTIC ACTUATOR USING CELLULOSE ELECTRO-ACTIVE PAPER FILM - A haptic actuator using a cellulose electro-active paper film is provided. The haptic actuator includes a cellulose electro-active paper film exhibiting a piezoelectric phenomenon and a metal electrode for applying electricity to the electro-active paper film, so that the haptic actuator can be provided in the form of a thin film, can manifest high transparency, and can produce displacement to the magnitude of sufficiently stimulating the sensor receptors of a user's skin in response to the applied electricity. Also, the haptic actuator is friendly to the environment and humans thanks to the use of cellulose which is an environmentally friendly material. | 2012-06-28 |
20120161588 | PIEZOELECTRIC CERAMIC, METHOD FOR PRODUCING SAME, AND PIEZOELECTRIC DEVICE - Disclosed is a piezoelectric ceramic which is characterized by containing [K | 2012-06-28 |
20120161589 | BICYCLE GENERATOR HUB STATOR AND BICYCLE GENERATOR HUB - A bicycle generator hub stator has a hub shaft, an annular member and three yokes. The annular member includes a first axial end, a second axial end and a through hole extending between the first and second axial ends. The hub shaft extends through the through hole. The first and second yokes are non-rotatably arranged relative to the annular member. The third yoke is non-rotatably connected to both the annular member and the hub shaft. The first yoke includes a first extended section that extends in an axial direction from the first axial end to the second axial end of the annular member. The second yoke includes a second extended section that extends in the axial direction from the second axial end to the first axial end of the annular member. The third yoke is disposed in the through hole and magnetically couples the first and second yokes together. | 2012-06-28 |
20120161590 | DRIVE DEVICE - A drive device includes a motor, a control unit, a first fastener, and a second fastener. The control unit is arranged on a side of the motor in an axis direction of the motor. The first fastener is arranged in a wall part of a cylindrical motor case of the motor opposing to the control unit, on an inner side of a peripheral wall of the motor case in a radial direction. The second fastener is tightened with the first fastener so as to connect the motor and the control unit with each other. | 2012-06-28 |
20120161591 | GOLDEN COLOR ENCLOSURE AND METHOD FOR MAKING SAME - A golden enclosure for a mobile phone includes a shell, a color layer, and a bonding layer. The color layer is formed over an outer surface of the shell. The color layer is comprised of titanium, chromium, and oxygen. The color layer has coordinates (L, a, b) in the CIE Lab color space. The “L” coordinate is in a range from bout 46.72 to bout 61.45. The coordinate is in a range from about 4.91 to about 16.1. The “b” coordinate is in a range from about 39.49 to about 55.18. The bonding layer is sandwiched between the shell and the color layer. | 2012-06-28 |
20120161592 | MOUNTING APPARATUS FOR EXPANSION CARD - A mounting apparatus includes a chassis, a mounting member, a mounting ray received in the chassis, and a securing device. The chassis includes a front plate and a positioning member attached to the front plate. The mounting member is used to secure an expansion card and includes a flange. The mounting tray includes a front panel and a retaining panel connected to the front panel. The securing device includes a first securing member and a second securing member. The first securing member is rotatably attached to the front plate, and the second securing member is rotatably attached to the first securing member. The flange is located between the retaining panel and the first securing member. The positioning member abuts the second securing member, to prevent the second securing member from being disengaged from the first securing member. | 2012-06-28 |
20120161593 | CHASSIS - A chassis includes a base board and a number of footpads mounted on a bottom of the base board. The base board defines a number of depressed portions corresponding to the footpads. Each footpad includes a fixing member mounted on an inner side of the base board and aligning with a corresponding depressed portion, a receiving member received in and rotatably mounted on a corresponding depressed portion of the base board, and a movable member received in and rotatably mounted on the receiving member. The movable member is rotatable in a first direction relative to the receiving member to extend out from the receiving member, and in a second direction opposite to the first direction relative to the receiving member to withdraw back into the receiving member. | 2012-06-28 |
20120161594 | LAUNDRY TREATING APPARATUS - There may be disclosed a laundry treating apparatus including a cabinet configured to define a profile thereof, the cabinet comprising a laundry introduction opening formed therein, a door configured to open and close the laundry introduction opening, a hinge unit comprising a first pivot to rotate the door along a first rotational direction and a second pivot to rotate a second rotational direction that is different from the first rotational direction, and a securing member configured to secure the door to the first pivot or the second pivot, when the door is rotated. | 2012-06-28 |
20120161595 | ELECTRONIC DEVICE ENCLOSURE - An electronic device enclosure includes a plate, a securing member, a fan module, and a security apparatus. The plate defines an air vent area and a first through hole. The first through hole is located above the air vent area. The securing member is mounted on an inner side of the plate. The securing member is located above the air vent area. The securing member defines an engaging hole and a second through hole, which is in alignment with the first through hole. The fan module includes a clasp. The fan module is aligned to the air vent area. The clasp engages in the engaging hole to mount the fan module on the securing hole. The security apparatus includes a locking piece and a cord. The locking piece is mounted in the first through hole and the second through hole, and the cord is configured to fasten to an unmovable object. | 2012-06-28 |
20120161596 | CONTROLLING AIRFLOW WITHIN AN EXPLOSION-PROOF ENCLOSURE - A system is described herein. The system can include an explosion-proof enclosure having an interior comprising a first region and a second region. The system can also include a heat-generating component positioned within the second region of the explosion-proof enclosure. The system can further include an air moving device positioned within the first region of the explosion-proof enclosure. The air moving device can draw a first portion of intake air from outside the explosion-proof enclosure. The air moving device can also pass the first portion of the intake air over the heat-generating component to generate first exhaust air, where the first portion of the intake air cools the heat-generating component. The air moving device can further remove the first exhaust air from the interior of the explosion-proof enclosure. | 2012-06-28 |
20120161597 | WALL-MOUNTED WORKSTATION - A workstation has a first side and a second side both of which having slats disposed thereon are connected by a hinge. The first side has a plurality of openings therein. The slats create an overhang and an underhang into which a connector fits. A first accessory attaches to a connector for fitting into the underhang or the overhang in the first side or the second side. A second accessory attaches to the first side. | 2012-06-28 |
20120161598 | PIECE OF FURNITURE WITH ACTUATING ARM ARRANGEMENT - The invention relates to a piece of furniture with an actuating arrangement for a flap of the piece of furniture. An actuating arm arrangement includes a lever arrangement for moving the flap and a main spring that acts in the closing direction (SR) to hold the flap closed. The piece of furniture also has an ejecting device for ejecting the flap in the opening direction (OR) by overpressing the flap in the closing direction (SR). At least one support spring acts in the opening direction (OR) and is separate from the ejecting device, and supports the ejecting motion of the ejecting device. At least in an overpressed closed position (US), the spring forces (A, U) are together greater than the closing force (Z) which acts on the flap and which is provided by the main spring acting in the closing direction (SR). | 2012-06-28 |
20120161599 | SERVER HOLDER - An anti-drop structure includes a rail assembly, a drag assembly, and two latching members. The rail assembly includes a pair of L-shaped sliding rails. Each L-shaped sliding rail includes a sidewall and a holding portion bent outwards from an end of the sidewall. One end of the sidewall defines a latching opening. The drag assembly is slidably positioned on the holding portions of the sliding rails and located between the sidewalls of the sliding rails. The drag assembly includes two opposite side plates. Each latching member is positioned on an inner surface of a corresponding one of the side plates, and includes a latching portion passing through a corresponding side plate. The latching portion is configured to slid into a corresponding latching opening to prevent the drag assembly from dropping out of the rail assembly. | 2012-06-28 |
20120161600 | REPLICATION OF PATTERNED THIN-FILM STRUCTURES FOR USE IN PLASMONICS AND METAMATERIALS - The present invention provides templating methods for replicating patterned metal films from a template substrate such as for use in plasmonic devices and metamaterials. Advantageously, the template substrate is reusable and can provide plural copies of the structure of the template substrate. Because high-quality substrates that are inherently smooth and flat are available, patterned metal films in accordance with the present invention can advantageously provide surfaces that replicate the surface characteristics of the template substrate both in the patterned regions and in the unpatterned regions. | 2012-06-28 |
20120161601 | BULB-TYPE LED LAMP AND HEAT DISSIPATION STRUCTURE THEREOF - The LED lamp of the invention includes a base, a heat dissipation assembly and a circuit board. The heat dissipation assembly has a cylindrical casing. Two ends of the casing are formed with a tube connecting the base and a mount portion, respectively. The casing is provided with radial fins which extend from the mount portion but do not connect with the tube. Slots are formed between the fins and the casing. The circuit board which is mounted by LEDs is fastened on one end of the heat dissipation assembly. | 2012-06-28 |
20120161602 | LED BULB - An LED bulb includes a connector, a heat sink disposed on the connector, an LED module, and an envelope secured to the heat sink and covering the LED module. The heat sink includes a tubular body defining a central through hole, a plurality of fins, and a supporting body located in the tubular body and interconnecting inner edges of the fins. The LED module is attached on the supporting body of the heat sink. A fan is received in the tubular body. When the LED bulb is at work, the fan generates an airflow which flows from an outer environment through the tubular body, the through hole, the LED module, the fins and finally the tubular body to return to the outer environment, thereby to effectively take away the heat generated by the LED module. | 2012-06-28 |
20120161603 | OLED DEVICES WITH PROTECTION COVER - The invention relates to an OLED device ( | 2012-06-28 |
20120161604 | FLEXIBLE IGNITOR ASSEMBLY FOR AIR/FUEL MIXTURE AND METHOD OF CONSTRUCTION THEREOF - An ignitor assembly constructed in accordance with one aspect of the invention has an upper inductor subassembly coupled to a lower firing end subassembly for relative pivot movement between the subassemblies. The upper inductor subassembly includes a tubular housing with inductor windings received therein with an upper electrical connector adjacent an upper end of the housing and a lower electrical connector adjacent a lower end of the housing. The lower firing end subassembly includes a ceramic insulator and a metal housing surrounding at least a portion of the ceramic insulator. The ceramic insulator has an electrical terminal extending from a terminal end and an electrode extending from a firing end. A flexible tube couples the upper inductor subassembly to the lower firing end subassembly and maintains the electrical terminal of the lower firing end subassembly in electrical contact with the lower electrical connector of the upper at a pivot joint. | 2012-06-28 |
20120161605 | SPARK PLUG - In a spark plug that has a small sized center electrode, enhancement of corruption-resisting property and heat-resisting property is promoted. The spark plug | 2012-06-28 |
20120161606 | FIELD EMISSION CATHODE STRUCTURE AND FIELD EMISSION DISPLAY USING THE SAME - A field emission cathode structure includes an insulating substrate, a number of strip cathode electrodes, a number of insulators, a number of strip gate electrodes, a number of electron emission units, and a number of fixing layers. The number of insulators is located among and spaced apart from the number of strip cathode electrodes. The field emission cathode structure further satisfies the following conditions: D | 2012-06-28 |
20120161607 | FIELD EMISSION CATHODE DEVICE AND METHOD FOR MAKING THE SAME - A field emission cathode device includes a substrate, a metal plate attached to the substrate, at least one electron emitter electrical connected with the metal plate, and a filler. The metal plate defines at least one through hole extending through the metal plate. The at least one electron emitter is fixed between the substrate and the metal plate and extends through the at least one through hole. The filler is filled into the at least one through hole to fix the at least one electron emitter. | 2012-06-28 |
20120161608 | FIELD EMISSION CATHODE STRUCTURE AND A METHOD FOR FABRICATING THE SAME - A field emission cathode structure includes a first carbon nanotube structure including a plurality of first carbon nanotubes, and a second carbon nanotube structure located on the surface of the first carbon nanotube structure. The second carbon nanotube structure includes a plurality of second carbon nanotubes substantially perpendicular to the first carbon nanotubes structure. The second carbon nanotube structure includes a peak. The heights of the second carbon nanotubes at the peak are tallest. The heights of the carbon second carbon nanotubes gradually decrease along the direction away from the peak. A method for fabricating the field emission cathode structure is also presented. | 2012-06-28 |
20120161609 | VACUUM ULTRAVIOLET LIGHT EMITTING DEVICE - A vacuum ultraviolet light emitting device comprising: a luminescence substrate which is composed of a transparent substrate of lithium fluoride, magnesium fluoride, calcium fluoride, barium fluoride or the like, and a metal fluoride thin-film layer formed on the transparent substrate and being a thin-film layer of a metal fluoride such as LuLiF | 2012-06-28 |
20120161610 | Light Extraction Block with Curved Surface - Light extraction blocks, and OLED lighting panels using light extraction blocks, are described, in which the light extraction blocks include various curved shapes that provide improved light extraction properties compared to parallel emissive surface, and a thinner form factor and better light extraction than a hemisphere. Lighting systems described herein may include a light source with an OLED panel. A light extraction block with a three-dimensional light emitting surface may be optically coupled to the light source. The three-dimensional light emitting surface of the block may includes a substantially curved surface, with further characteristics related to the curvature of the surface at given points. A first radius of curvature corresponding to a maximum principal curvature k | 2012-06-28 |
20120161611 | PIXEL AND ORGANIC LIGHT EMITTING DISPLAY USING THE SAME - A pixel according to an embodiment includes: an organic light emitting diode (OLED); a first transistor coupled between a data line and a first node and configured to be turned on when a scan signal is supplied to a scan line; a third transistor coupled between a reference power source and a second node and configured to be concurrently turned on and off with the first transistor; a storage capacitor coupled between the first node and the second node; a second transistor coupled between a first power source and the OLED and having a gate electrode coupled to the first node; | 2012-06-28 |
20120161612 | NEW HETEROCYCLIC DERIVATIVE AND ORGANIC LIGHT EMITTING DEVICE USING SAME - The present invention relates to a novel heterocyclic derivative and an organic light emitting device using the compound, and the heterocyclic derivative may largely improve a life span, efficiency, electrochemical stability and thermal stability of the organic light emitting device. | 2012-06-28 |
20120161613 | ORGANIC LIGHT-EMITTING DISPLAY APPARATUS INCLUDING IMPROVED POWER SUPPLY LINES - An organic light-emitting display apparatus including improved power supply lines which may sufficiently handle high current. The organic light-emitting display apparatus includes power supply lines outside an encapsulation layer sealing the display unit to a substrate. Because the power supply lines are outside the encapsulation layer their thickness can be increased to increase the current conducting capacity of the power supply lines. | 2012-06-28 |
20120161614 | ELECTROLUMINESCENT DEVICE - An electroluminescent device ( | 2012-06-28 |
20120161615 | AMINOANTHRACENE DERIVATIVE AND AN ORGANIC ELECTROLUMINESCENT ELEMENT EMPLOYING THE SAME - Disclosed are a novel amino anthracene derivative and an organic electro-luminescence device using the same. More specifically, the disclosed amino anthracene derivative has a core (e.g., indenoanthracene core) of an anthracene moiety (with a high device characteristic) linked to a fluorene moiety (with a high fluorescence characteristic), in which in the core is substituted with at least one amine group represented by Formula 2 and the disclosed organic electro-luminescence device uses the amino anthracene derivative as a light emitting layer material so as to be enhanced in efficiency, operating voltage, and life span. | 2012-06-28 |
20120161616 | INTEGRATED ORGANIC LIGHT-EMITTING DEVICE, METHOD FOR PRODUCING ORGANIC LIGHT-EMITTING DEVICE AND ORGANIC LIGHT-EMITTING DEVICE PRODUCED BY THE METHOD - In a device according to the present invention, a first conductive electrode layer being patterned and light transmissive is formed on a light-transmissive substrate and a laminated layer containing a plurality of organic-compound layers is formed so as to cover at least a part of the first electrode layer. The laminated layer is partly removed so that the first electrode layer is partly exposed. At least one layer containing a second conductive electrode layer is formed on the laminated layer and the exposed part of the first electrode layer. A part of the laminated layer and a part of the second electrode layer are simultaneously removed by application of a laser beam from a side of the substrate, so that a plurality of light-emitting sections are electrically connected in series on the substrate. | 2012-06-28 |
20120161617 | ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device including a substrate having thereon a pair of electrodes and at least one organic layer including a light-emitting layer containing a light-emitting material between the pair of electrodes, wherein the light-emitting layer contains at least each of a specific 3,3′-dicarbazolylbiphenyl compound and an iridium complex having a specific structure. | 2012-06-28 |
20120161618 | ORGANIC LIGHT EMITTING DISPLAY PANEL AND METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING DISPLAY PANEL - An organic light emitting display panel is disclosed. In one embodiment, the panel includes a pad portion includes: a protection film disposed on an encapsulation layer for encapsulating a pixel portion and extending to the pad portion, wherein the protection film has conductivity in an area corresponding to the pad portion. | 2012-06-28 |
20120161619 | ENCAPSULATION SHEET, FLAT PANEL DISPLAY DEVICE USING THE SAME, AND METHOD OF MANUFACTURING THE FLAT PANEL DISPLAY DEVICE - An encapsulation sheet, a flat panel display device, and a method of manufacturing a flat panel display device are disclosed. The method includes: forming a getter on a first sheet; forming a sealant having a space corresponding to the shape of the getter on a second sheet; forming an encapsulation sheet by folding the first sheet and the second sheet to enter the getter into the space; and attaching the encapsulation sheet on a substrate on which a display unit is formed. When the flat panel display device is manufactured using the above method, the folded sealant and the getter are simultaneously mounted on the substrate, and thus, a complicated conventional process of mounting the getter in a vacuum state is unnecessary. | 2012-06-28 |
20120161620 | LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode (OLED) display is disclosed. In one embodiment, the OLED display includes i) a display substrate, ii) an OLED array, iii) an encapsulation substrate arranged opposite to the display substrate with respect to the OLED array, iv) a sealing member configured to seal the display substrate and the encapsulation substrate and v) a filler applied in a space formed between the display substrate and the encapsulation substrate. In one embodiment, the height of the filler is more than about 1.2 times the height of the OLED array. | 2012-06-28 |
20120161621 | LIGHT EMITTING DEVICE - A light emitting device includes a base substrate, a light emitting element, and a sealing member. The light emitting element is provided on the base substrate. The sealing member seals the light emitting element. The sealing member contains a parent material and filler particles unevenly distributed in a surface side of the sealing member and has a surface which has an irregular geometry formed associated with the filler particles. | 2012-06-28 |
20120161622 | High-pressure discharge lamp with starting aid - A high-pressure discharge lamp with a starting aid has a discharge vessel, the discharge vessel being held in an outer bulb by means of a frame. A UV enhancer which is fixed directly by means of the frame is used as the starting aid. | 2012-06-28 |
20120161623 | MERCURY-FREE CERAMIC METAL HALIDE LAMP WITH IMPROVED LUMEN RUN-UP - Disclosed herein are mercury free ceramic metal halide high intensity discharge lamps of specified arc tube geometry and composition of ionizable fill. Embodiments herein generally employ a discharge vessel formed of a ceramic material having an aspect ratio satisfied by 12012-06-28 | |
20120161624 | LED BULB - An LED bulb includes a connector for electrically connecting with a power supply, a heat sink disposed on the connector, an LED module mounted the heat sink, and an envelope secured to the heat sink and covering the LED module. The heat sink includes a tubular body, a plurality of first fins extending outwardly from an outer circumference of the tubular body, and a plurality of second fins extending inwardly from an inner circumference of the tubular body. | 2012-06-28 |
20120161625 | LIGHT EMITTING DIODE LIGHTING DEVICE - An LED lighting device is used with a package body. The package body includes at least a connecting part. The LED lighting device includes a shell, an LED module and a controlling circuit board. The LED module is disposed within the shell. The controlling circuit board is disposed within the shell and electrically connected to the LED module. The controlling circuit board includes a connecting unit. The connecting part of the package body and the connecting unit are connected to provide electrical connection between the package body and the controlling circuit board. | 2012-06-28 |
20120161626 | LED LAMP WITH HIGH COLOR RENDERING INDEX - An LED lamp with a high color rendering index (CRI) is disclosed. Example embodiments of the invention provide an LED lamp with a relatively high color rendering index (CRI). In some embodiments, the lamp has other advantageous characteristics, such as good angular uniformity. In some embodiments, the LED lamp is sized and shaped as a replacement for a standard incandescent bulb, and includes an LED assembly with at least first and second LEDs operable to emit light of two different colors. In some embodiments, the lamp can emit light with a color rendering index (CRI) of at least 90 without remote wavelength conversion. In some embodiments, the LED lamp conforms some, most, or all of the product requirements for a 60-watt incandescent replacement for the L prize. | 2012-06-28 |
20120161627 | LED ILLUMINATING DEVICE - An LED illuminating device includes a housing including a first open end and a second open end, and a base including an upper base fixed on the first open end and a bottom base held inside the housing. An LED substrate is mounted on the upper base and includes a number of LEDs. A number of first vents are defined in the upper base, and a number of second vents are defined on the second open end of the housing. A space is formed between the lateral wall of the bottom base and the inside wall of the housing, and communicates with the first vents and the second vents. | 2012-06-28 |
20120161628 | LED ILLUMINATING DEVICE - An LED illuminating device includes a hollow base including a first end and a second end, an LED substrate, a connector, and a driving circuit module accommodated in the base. A plurality of vents are defined in a circumferential wall of the hollow base; a space is formed between a circumferential wall of the driving circuit module and the inner surface of the circumferential wall of the hollow base. The space can communicate with the plurality of vents and serve as a hot air channel, to promote heat exchange between hot air in the base and cool air outside the base. | 2012-06-28 |
20120161629 | PLASMA LIGHTING SYSTEM - A plasma lighting system is disclosed. Interference with an electronic device using the same band as that of the plasma lighting system can be avoided by changing the shape of vanes constituting a magnetron, and a filament current of the magnetron at an initial starting stage and that in a normal state are adjusted to be different, thus avoiding interference with a wireless LAN and attenuating noise, and a resonator has a mash form to increase efficiency. Because a rectangular waveguide is bent substantially at a right angle, and the magnetron and the resonator are disposed at one side on the basis of a waveguide space of the waveguide, thus reducing the size and an installation space of the plasma lighting system. | 2012-06-28 |
20120161630 | LAMP AND LIGHTING APPARATUS - A lamp capable of effectively suppressing increase in the temperature of circuit devices is provided. The lamp includes: an LED module composed of LED chips; a base through which electric power is received; a lighting circuit which includes a circuit device group for generating electric power for causing the LED module to emit light using the electric power received through the base; an inner casing which is a tubular portion made of resin for housing the lighting circuit; and an outer casing which is a tubular portion for housing the inner casing. On the circumferential surface of the inner casing, a protrusion is provided which directly abuts the inner circumferential surface of the outer casing. | 2012-06-28 |
20120161631 | PLASMA LIGHT SOURCE SYSTEM - A plasma light source system includes a plurality of plasma light source | 2012-06-28 |
20120161632 | Scalable Heat Dissipating Microelectronic Integration Platform (SHDMIP) For Lighting Solutions And Method Of Manufacturing Thereof - The present invention provides a Scalable Heat Dissipating Microelectronic Integration Platform (SHDMIP) LED Package having excellent heat dissipation and protection to LED, thus extending the lifespan of the LED. The SHDMIP LED package comprises a dual lead frame assembly comprising bottom and top lead frame, protection and driver circuits conductively attached to the bottom lead frame and a LED conductively attached to the top lead frame. The bottom lead frame comprises heat sink pad for heat dissipation purpose. Plurality of SHDMIP LED packages of the present invention can be configured in a matrix or row, forming a SHDMIP LED array for various lighting solutions. A method to manufacture the SHDMIP LED array of the present invention is provided herein. | 2012-06-28 |
20120161633 | LIGHTING APPARATUS AND LIGHTING FITTING - A lighting apparatus is provided which includes a drive section which applies electric current to a light source which is a semiconductor element emitting light with application of electric current, at least one heat sink which is mounted with the light source and transfers heat generated by the emission of the light source, and a temperature measurement section which is mounted to the heat sink and measures temperature of the heat sink which is used for estimating temperature of the light source. The light source and the drive section are mounted to the same heat sink or to the heat sinks which are thermally coupled to each other. | 2012-06-28 |
20120161634 | Light Emitting Module Driving Circuit and Related Method - A light emitting module driver circuit utilized for driving a light emitting module includes a voltage dividing module, a short circuit detection module, and a driving module. A method of performing short circuit protection in the light emitting module driver circuit includes disabling the driving module during a dimming off cycle of the light emitting module driver circuit, enabling the voltage dividing module during the dimming off cycle, dividing a voltage of the light emitting module to generate a divided voltage during the dimming off cycle, and generating a short circuit protection signal according to the divided voltage during the dimming off cycle. | 2012-06-28 |
20120161635 | ORGANIC LIGHT EMITTING DIODE DISPLAY AND DRIVING METHOD THEREOF - An organic light emitting display device according to the present invention comprises a display unit; a power supply unit; a driving unit including an output buffer generating the reference voltage and applying the reference voltage to the pixels, and generating a current path control signal in a different logic level along with controlling whether to operate the power IC according to an operating mode; and a leakage current cut-off unit switching a current path between the output terminal of the power supply unit and the input terminal of the OLED driving voltage according to the current path control signal. | 2012-06-28 |
20120161636 | OCCUPANCY SENSOR FOR TASK LIGHTING APPLICATION - A method for saving energy in locations using a plurality of luminaires situated in close proximity to each other, the method including providing each luminaire with a sensor for detecting presence of a person in proximity to the luminaire, a component for enabling passage of current through to the luminaire when the presence is detected and disabling the passage of the current through to the luminaire after a predetermined timeout, and a switch coupled between the component and the luminaire for enabling powering of the luminaire ON, wherein passage of power to each luminaire is enabled by the component when the presence is detected and the luminaire is powered ON by the switch. | 2012-06-28 |
20120161637 | Organic Light Emitting Diode Display - An organic light emitting diode (OLED) display includes a display panel including data lines, scan lines crossing the data lines, and light emitting cells, which are arranged in a matrix form and each include an OLED, and a panel driving circuit, which reduces a reference voltage applied to an anode of the OLED to a ground level voltage in a sleep-out mode and adjusts the reference voltage at a voltage level greater than the ground level voltage. The reference voltage is held at a voltage level greater than the ground level voltage in a normal driving mode. | 2012-06-28 |
20120161638 | LED DRIVE CIRCUIT - An LED drive circuit that can increase the amount of light with a compact structure. This circuit includes series-connected LEDs, first and second DC power supplies connected in series so as to apply a forward bias to the LEDs, a coil that is series-connected with the LEDs and can accumulate energy from current generated by the DC power supplies, a rectifying element whose cathode is connected between the DC power supplies, a transfer switching element connected to the anode of the rectifying element, and a control apparatus for controlling the transfer switching element. A first closed circuit is formed by the LEDs, the DC power supplies, and the coil when the transfer switching element is switched on by the control apparatus, and a second closed circuit is formed by the LEDs, the second DC power supply, the coil, and the rectifying element when the transfer switching element is switched off. | 2012-06-28 |
20120161639 | INTEGRATED CIRCUITS, CONTROL METHODS AND LIGHTING SYSTEMS - An integrated circuit is capable of controlling current through several light-emitting diode (LED) chains, each having several LEDs forward-connected in series between a major anode and a major cathode. Each major anode is coupled to a power node. The integrated circuit has several driving circuits, a detection node, a comparator, and a logic controller. The driving circuits can light the LED chains, respectively. Detection voltage at the detection node corresponds to voltage at one of the major cathodes. The comparator asserts a ready signal when the detection voltage exceeds a reference voltage. Receiving a dimming signal and the ready signal, if the dimming signal is asserted and the ready signal has been asserted, the logic controller enables the driving circuits to light the LED chains. | 2012-06-28 |
20120161640 | LED DRIVING APPARATUS - An LED driving apparatus that converts input power into direct-current power and feeds the power to an LED unit, includes: a first transistor that turns current flowing to the LED unit between on-and-off; an LED current detector that detects the current flowing to the LED unit; a controller that outputs a control signal controlling power to be fed to the LED unit, based on an error between a detected voltage obtained by the LED current detector and a burst dimming signal to dim the LED unit; and a second transistor that controls the power to be fed to the LED unit, based on the control signal output from the controller, wherein the first transistor is turned on; based on the burst dimming signal, and wherein the first transistor is turned off, based on a delay signal that is delayed at a predetermined time from the burst dimming signal. | 2012-06-28 |
20120161641 | SAFETY FLASHING DETECTOR FOR TRAFFIC LAMPS - A safety flashing detector that suitably detects unintentional flashing of the LED light engine in a traffic lamp is provided. The LED light engine may flash unintentionally when there are failures (hardware or software) inside a traffic lamp. In certain embodiments, unintentional flashing may be detected using a current sensor. If unintentional flashing is detected, the flashing detector may activate and shut down the LED light engine to remove the hazardous failure and eventually triggers the fuse blowout circuit. Hardware circuitry is suitably employed for both reliability and safety purposes, but software may also be employed. | 2012-06-28 |
20120161642 | LIGHTING CONTROL METHOD AND DEVICE - A device for controlling an LED lighting in an LED lighting control system including a plurality of LED lightings which are connected via a network is provided. A lighting data receiver receives a first lighting control signal and extracts first lighting control data for the LED lighting from the first lighting control signal including a confirmation code. A verifier verifies the first lighting control data based on the confirmation code, and an error processor records error information when the verifier fails to verify the first lighting control data. A driving signal processor converts the first lighting control data to a driving signal when the verifier succeeds to verify the first lighting control data. An LED driver controls lighting of an LED light source based on the driving signal. | 2012-06-28 |
20120161643 | ORBING AND LIGHTING SYSTEMS - A lighting system for areal illumination is disclosed which includes a remote driver and a plurality of fixtures including luminaires, control devices, and/or standalone sensors. The luminaires include a light source whose output light level can be adjusted, a light sensor co-located therewith adapted to measure light received from adjacent fixtures, and a microcontroller capable of transmitting the output of the light sensor over wires to the remote driver. The remote driver is capable of bidirectional communication with the luminaires and provides independently controllable power for the light sources of the luminaires. A movable orb region containing luminaires can also be defined and the light levels of individual luminaires can be set according to their location within the orb region. | 2012-06-28 |
20120161644 | ENERGY-SAVING LAMP - An energy-saving lamp includes a light emitting module, a light sensing module and a control module. The light emitting module includes a plurality of light emitting diodes for emitting light. The light sensing module detects a light intensity of the light emitting module and generates a detection signal according to the light intensity of the light emitting module. The control module receives the detection signal generated by the light sensing module and adjusts the total number of lit up light emitting diodes of the light emitting module according to the detection signal. | 2012-06-28 |
20120161645 | LIGHTING SYSTEM AND METHOD FOR CONTROLLING A LIGHTING SYSTEM - The present invention refers to a lighting system comprising ambient light sources and task light sources, and occupancy sensors for detecting occupancy in a number of occupancy zones and for controlling the ambient light sources and task light sources. Each occupancy sensor is provided to communicate wirelessly with other occupancy sensors. On the detection of occupancy of at least one zone, the occupancy sensors detecting the occupancy active at least one ambient light source and send a control signal to other occupancy sensors to active other ambient light sources, and the intensity of a group of task light sources illuminating the occupied zone is set to a level higher than the intensity of the remaining task light sources. The invention also refers to a respective method for controlling a lighting system of this kind. | 2012-06-28 |
20120161646 | BACKLIGHT CONTROL CIRCUIT - A backlight control circuit includes a driver circuit, a sensing circuit, and a control circuit. The driver circuit adjusts an illumination intensity of a backlight source. The sensing circuit senses an environmental illumination intensity. The control circuit is set between the driver circuit and the sensing circuit. The control circuit controls the driver circuit to adjust an illumination intensity of a backlight source according to the sensed environmental illumination intensity. | 2012-06-28 |
20120161647 | MEDICAL LIGHTING DEVICE AND PROCESS FOR OPERATING A MEDICAL LIGHTING DEVICE - A medical lighting device has an operating area light ( | 2012-06-28 |
20120161648 | CURRENT REGULATING CIRCUIT OF LIGHT EMITTING DIODE (LED) STRING AND LED ILLUMINATION DEVICE - An exemplary current regulating circuit of LED string includes a capacitor, an inductor, a diode, a switch and a detection circuit. First and second terminals of the capacitor respectively are connected to a low voltage and a preset voltage. A first terminal of the inductor is connected to the low voltage. Positive and negative terminals of the diode are respectively connected to a second terminal of the inductor and a high voltage. First and second terminals of the switch are respectively connected to the second terminal of the inductor and the preset voltage. The detection circuit detects the low voltage to thereby switch ON-OFF states of the switch in demand. Moreover, a LED illumination device using the current regulating circuit also is provided. | 2012-06-28 |
20120161649 | LED LIGHTING DEVICE AND ILLUMINATION APPARATUS INCLUDING SAME - An LED lighting device includes a power converter for outputting a variable output voltage, two LED lamps being connected in series between output terminals of the power converter; a current detector for detecting an output current from the power converter; a first detector for detecting the output voltage of the power converter and generating a first detection voltage corresponding to the output voltage; a second detector for detecting an applied voltage to one of the two LED lamps and generating a second detection voltage corresponding to the applied voltage; and a controller for controlling the power converter to adjust the output voltage to thereby make the output current coincide with a target value. The controller controls the power converter to decrease the output voltage if at least one of the second detection voltage and the deference between the first and the second detection voltage does not fall within a range. | 2012-06-28 |
20120161650 | LED DRIVER CIRCUIT - An LED driver circuit includes: a bridge rectifier, a first compensation capacitor, a second compensation capacitor, and an LED module. The bridge rectifier is connected to an AC input power for producing a rectification output power. The first compensation capacitor is connected to a first rectification output terminal and an AC input terminal of the bridge rectifier. The second compensation capacitor is connected to a second rectification terminal and the AC input terminal of the bridge rectifier. The LED module is connected to the first rectification output terminal and the second rectification output terminal of the bridge rectifier. The first and second compensation capacitors in the present invention can effectively improve the total current harmonic distortion of the LED module and its utilization. | 2012-06-28 |
20120161651 | LIGHT-EMITTING DEVICE - This disclosure discloses a light-emitting device. The light-emitting device is capable of receiving a periodic voltage signal comprising a first voltage signal and a second voltage signal. The light-emitting device comprises: a first light-emitting unit; a second light-emitting unit; and a first switching unit comprising at least three switches for receiving the periodic voltage signal. The at least three switches are electrically connected with the first and second light-emitting units such that the first and second light-emitting units are connected in parallel with each other in the first voltage signal, and are connected in series with each other in the second voltage signal. | 2012-06-28 |
20120161652 | LED ILLUMINATION APPARATUS - A light emitting diode (LED) illumination apparatus includes an LED illumination circuit and a constant current drive circuit to provide constant current to the LED illumination circuit. The LED illumination circuit includes at least two lighting branches connected in parallel, and each of the at least two lighting branches includes at least one LED and a current regulative diode connected in series. | 2012-06-28 |
20120161653 | ARRAY CONSTANT-CURRENT MULTI-DRIVING CIRCUIT - An array constant-current multi-driving circuit drives a plurality of light-emitting devices connected in parallel. Each light-emitting device includes a plurality of light-emitting diodes (LED) connected in series. The constant-current multi-driving circuit includes a bias circuit for generating a bias voltage, a Keener diode controlled by the bias voltage and being capable of clamping an output voltage to a predetermined reference voltage value, and an amplifying circuit controlled by the reference voltage value and for outputting a driving current for driving the light-emitting devices. Through the predetermined reference voltage and a second resistor connected to a second transistor in each light-emitting device, the light-emitting devices are enabled to operate under a constant current, thereby achieving a target of driving a plurality of light-emitting devices under a constant current with a single Keener diode. | 2012-06-28 |
20120161654 | CONSTANT CURRENT POWER SUPPLY DEVICE - A constant current power supply device according to the present invention includes: an error amplifier to amplify an error signal of an error voltage between a voltage of a current detection resistor and a reference voltage, and a second control circuit to sample and hold the error signal in an ON period of the external signal, output the error signal to a first control circuit, hold the error signal just before the external signal is turned from ON to OFF, increase an amplification ratio of the error amplifier by a predetermined magnification ratio in an OFF period of the external signal, and output the increased error signal to the first control circuit. | 2012-06-28 |
20120161655 | BALLAST WITH ANTI-STRIATION CIRCUIT - A ballast including an inverter circuit for providing an oscillating power signal for energizing at least one lamp. The inverter circuit includes a first transistor having a first gain and a second transistor having a second gain, each configured for alternately operating between a conductive state and a non-conductive state. The power signal has a waveform cycle comprising a first pulse generated when a first transistor operates in a conductive state, and a second pulse generated when the second transistor operates in a conductive state. The integral value of the first pulse of each waveform cycle of the power signal is different from the integral value of the second pulse of each waveform cycle such that a differential relationship between the first gain and the second gain is greater than or equal to a minimum value in order to minimize lamp striations. | 2012-06-28 |
20120161656 | SOLID STATE LIGHTING APPARATUS - A lighting apparatus includes a solid state lamp including one or more solid state lighting elements, and a power circuit including a current limiting device electrically connected to the lamp. The current limiting device configured to impose a maximum threshold on the current delivered to the lamp, wherein the current limiting device functions as essentially a constant current source. The lighting apparatus includes a housing for the power circuit and lamp, as a module unit. | 2012-06-28 |
20120161657 | Passive Anti-Arcing Protection Device for Fluorescent Lamp Ballast - A passive anti-arcing protection components for electronic ballasts of fluorescent lamps. This protection component is a bridge-rectifier-resistor-capacitor network, containing at least a diode, a resistor, and a capacitor. The component's circuitry is electrically connected to the ballast at the lamp side, acting as a low-resistance redirection path for any sudden change in energy. When an arcing condition is about to occur, this protection circuitry absorbs the spark energy, ceasing the arcing condition. | 2012-06-28 |
20120161658 | SOLAR SIMULATOR - A solar simulator includes a flash lamp | 2012-06-28 |
20120161659 | ACTIVATION MODULE FOR A GAS DISCHARGE LAMP - A driving module for a gas discharge lamp, in particular for headlights in vehicles, comprises a suitable lamp socket, a carrier for electrical components, and an ignition transformer, wherein the component part carrier is populated at least with electrical components of an ignition unit and moreover is designed for accommodating further electrical components that are required for a self-sustaining operation of the driving module. In addition, the lamp socket is made of a high temperature resistant plastic material and has an integrated high-voltage conducting track. | 2012-06-28 |
20120161660 | Driving Integrated Circuit and Display Apparatus Including the Same - A driving integrated circuit (driving IC) connected to a display panel by a chip on glass (COG) method includes a pair of bumps electrically coupled to a test pad of the display panel; a power source electrically coupled to a first bump of the pair of bumps; a circuit device electrically coupled between a ground terminal and a second bump of the pair of bumps; and a node measuring unit for measuring a voltage at a node between the second bump and the circuit device. | 2012-06-28 |
20120161661 | DISPLAY DRIVING CIRCUIT HAVING HALF VDD POWER SUPPLY CIRCUIT BUILT THEREIN AND DISPLAY DRIVING SYSTEM INCLUDING THE SAME - The present invention relates to a display driving circuit and a display driving system, and more particularly, to a display driving circuit having a half-VDD power supply circuit built therein and a display driving system including the same, in which the display driving circuit is further provided with a half voltage VDD terminal in addition to the highest voltage VDD terminal and the lowest voltage VSS terminal, and the half voltage, which is between the highest voltage and the lowest voltage, is generated and supplied by the half voltage power supply from the inside of the display driving circuit, rather than being supplied from an external power supply. | 2012-06-28 |
20120161662 | DIGITAL PWM GENERATOR AND APPARATUS FOR DRIVING LIGHT EMITTING DEVICE - There is provided a digital PWM generator according to a first exemplary embodiment of the present invention including: an A/D converter dividing a predetermined reference voltage into a plurality of sections corresponding to a predetermined first set value, searching a section to which the magnitude of an input voltage Vin corresponds, among the plurality of sections, and converting a value corresponding to the searched section into a digital signal; a frequency selector providing a counting number by counting a predetermined high-speed counting clock during a one-cycle section of a predetermined reference clock; and a PWM signal generator converting the digital signal from the A/D converter into a ratio value corresponding to a ratio for the reference voltage and generating a PWM signal having a controlled duty ratio of the reference clock by using the ratio value and the counting number from the frequency selector. | 2012-06-28 |
20120161663 | ELECTRICALLY DRIVEN SINGLE PHOTON SOURCE - The present invention relates to a single photon source | 2012-06-28 |
20120161664 | DRIVING CIRCUIT AND LIGHTING EQUIPMENT USING THE SAME - A driving circuit and lighting equipment using the same are provided. The driving circuit includes a first power receiving terminal, a second power receiving terminal and a power conversion unit. The first power receiving terminal receives an alternating current (AC) input signal. The second power receiving terminal is electrically coupled to a predetermined potential. The power conversion unit is electrically coupled to the first and second power receiving terminals for transforming the AC input signal into corresponding two AC output signals of different phases, wherein the two AC output signals are with the same current. | 2012-06-28 |
20120161665 | PRECISION LIGHT CONTROL APPARATUS AND METHODS - A method of controlling an illumination apparatus comprises monitoring a dimmer modulated control voltage, controlling the illumination apparatus in a normal mode wherein changes in the dimmer modulated control voltage adjust a light output of the illumination apparatus within a normal range until the dimmer modulated control voltage manifests a first mode change condition, and, when the dimmer modulated control voltage manifests the first mode change condition, switching from the normal mode to a deep dimming mode wherein changes in the dimmer modulated control voltage adjust the light output of the illumination apparatus within a deep dimming range which is smaller than the normal range. | 2012-06-28 |
20120161666 | LIGHT EMITTING DIODE RETROFIT SYSTEM FOR FLUORESCENT LIGHTING SYSTEMS - An light emitting diode (LED) retrofit system for fluorescent lighting systems including a fluorescent lamp fixture is disclosed. The fluorescent lamp fixture includes a frame, an existing ballast configured to be coupled to an AC power source, and at least one connector coupled to an output of the existing ballast. The connector is configured to be coupled to a fluorescent lamp. The LED retrofit system includes at least one pin configured to be removably coupled to the connector, and to receive a high voltage AC signal from the existing ballast. The LED retrofit system includes at least one LED light source, transformer circuitry coupled to the pin and configured to receive the high voltage AC signal and to output a low voltage AC signal, and rectifier circuitry configured to receive the low voltage AC signal and generate a DC voltage to drive the LED light source. | 2012-06-28 |
20120161667 | LUMINAIRE WITH TOUCH PATTERN CONTROL INTERFACE - The present invention relates to a luminaire ( | 2012-06-28 |
20120161668 | LED Driving Circuit - An LED driving circuit is provided in the present invention. The driving circuit includes a load; a control module providing a control signal for regulating a current flowing through the load; a first NMOS; and a first resistor coupled with the control module in parallel so as to generate a clamp voltage providing to the control module. | 2012-06-28 |
20120161669 | FLAG SUPPORT ASSEMBLIES FOR MOTOR VEHICLES - A flag support assembly for a vehicle, the flag support assembly includes a base attaching the flag support assembly to the vehicle and a stanchion comprising a first end and a second end, wherein the second end of the stanchion is attached to the base. An illumination source is at least partially positioned in the stanchion, wherein the illumination source is oriented to direct a divergent light beam substantially upwards and away from the base. An illumination circuit is electrically coupled to the illumination source and provides power to the illumination source. | 2012-06-28 |
20120161670 | Flashlight with momentary function and multiple lighting modes - A flashlight with momentary function and multiple lighting modes wherein a mechanical switch is activated by a pushbutton so that each depression of the pushbutton causes the switch to cycle through a first state, a second state and a third state sequentially. When the switch is in the first state or the second state, it is electrically connected to the respective port of the integrated circuit and the integrated circuit drives the light source to operate in the respective lighting mode; when the switch is in the third state, it is electrically disconnected from the integrated circuit and the integrated circuit drives the light source to operate in a third lighting mode. When the integrated circuit detects that the switch is disconnected from the integrated circuit after a state which corresponds to the OFF mode and is therefore transitioning to a subsequent state, it drives the light source to operate in the lighting mode of the subsequent state. | 2012-06-28 |
20120161671 | PARTICLE ACCELERATORS HAVING ELECTROMECHANICAL MOTORS AND METHODS OF OPERATING AND MANUFACTURING THE SAME - A particle accelerator including an electrical field system and a magnetic field system that are configured to direct charged particles along a desired path within an acceleration chamber. The particle accelerator also includes a mechanical device that is located within the acceleration chamber. The mechanical device is configured to be selectively moved to different positions within the acceleration chamber. The particle accelerator also includes an electromechanical (EM) motor having a connector component and piezoelectric elements that are operatively coupled to the connector component. The connector component is operatively attached to the mechanical device. The EM motor drives the connector component when the piezoelectric elements are activated thereby moving the mechanical device. | 2012-06-28 |
20120161672 | High-Current DC Proton Accelerator - A dc accelerator system able to accelerate high currents of proton beams at high energies is provided. The accelerator system includes a dc high-voltage, high-current power supply, an evacuated ion accelerating tube, a proton ion source, a dipole analyzing magnet and a vacuum pump located in the high-voltage terminal. The high-current, high-energy dc proton beam can be directed to a number of targets depending on the applications such as boron neutron capture therapy BNCT applications, NRA applications, and silicon cleaving. | 2012-06-28 |
20120161673 | PARTICLE ACCELERATOR HAVING A SWITCH ARRANGEMENT NEAR AN ACCELERATOR CELL - A particle accelerator may include at least one accelerator cell and a power supply device. The power supply device may provide electrical energy to the accelerator cell via a feed line. With electrical energy received via the feed line, the accelerator cell may generate an electric field for accelerating an electrically charged elementary particle. The power supply device may have a DC current source and a switch arrangement. The power supply device may be designed such that electrical energy provided by the DC circuit source is capacitively buffered, and upon corresponding actuation of the switch arrangement, is provided to the acceleration cell. The switch arrangement may be disposed near the acceleration cell such that the switch arrangement is exposed to ionizing radiation generated by the particle accelerator at least during operation. The DC circuit source may be connected to the switch arrangement via a first cable. | 2012-06-28 |
20120161674 | DC MOTOR SPEED CONTROLLER OF A RANGE HOOD - A DC motor speed controller of a range hood has a motor driving circuit, a DC brushless motor and a monitoring module. The motor driving circuit has a PWM controller and a phase control circuit electrically connected with the pulse width modulation controller. The DC brushless motor is electrically connected to the motor driving circuit. The monitoring module has a microprocessor that generates and transmits a speed control signal to the motor driving circuit so that the motor driving circuit generates a PWM signal to the phase control circuit, the phase control circuit performs a phase modulation and outputs a speed control voltage to the DC brushless motor, and the DC brushless motor varies a speed thereof according to the speed control voltage. Accordingly, the DC motor speed controller of the present invention can drive the DC motor of a range hold with at least four different speeds. | 2012-06-28 |
20120161675 | ELECTROMAGNETISM-TORQUE FRICTION-BALANCING TRUCKLE FOR MOBILE MEDICAL DEVICES - A truckle for a mobile medical device is provided. The truckle includes at least one electromagnetism torque balancing motor mounted on the truckle and configured to balance out friction generated by the truckle. | 2012-06-28 |
20120161676 | SYSTEMS AND METHODS FOR CONTROLLING AIRCRAFT ELECTRICAL POWER - Systems and methods for controlling aircraft electrical power are disclosed. A system in accordance with one embodiment includes an electric motor, an aircraft load coupled to the electric motor and powered by the electric motor, and a motor controller coupled to the electric motor to vary an output of the electric motor. The motor controller is changeable among a fixed number of preset controller modes, with individual controller modes corresponding to an operation mode of the aircraft and a non-zero output level of the electric motor. In further embodiments, motor controllers can be substituted for each other, e.g., in the event one motor controller becomes unoperational. | 2012-06-28 |
20120161677 | BATTERY MODULE, BATTERY SYSTEM AND ELECTRICALLY DRIVEN VEHICLE - A battery module includes a plurality of battery cells, a detection circuit, a communication unit, and a printed circuit board. The detection circuit and the communication circuit are mounted on the common printed circuit board. The detection circuit detects a voltage of each of the battery cells in the battery module, and feeds the detected voltage to the communication circuit. The communication circuit is connected to a communication circuit in another battery module or a battery ECU. Thus, the communication circuit in the battery module and the communication circuit in the other battery module or the battery ECU can communicate with each other. | 2012-06-28 |
20120161678 | MANAGEMENT APPARATUS OF A ROTATING MOTOR AND AN ANNEXED LOAD DURING POWER LOSS - A management apparatus is described of a rotating motor and a load during power loss; the apparatus comprises a first switching circuit coupled with the rotating motor and a controller of said first switching circuit. The controller is configured to drive the first switching circuit so as to convert a back-electromotive force voltage developed in the rotating motor into a power supply voltage for the load. The first switching circuit is driven in accordance with a first duty cycle. The apparatus comprises a second switching circuit coupled with the load and driven in accordance with a second duty cycle. The controller is configured to vary said first and said second duty cycles to keep the power supply voltage for the load above or equal to a threshold voltage. | 2012-06-28 |
20120161679 | Active High Voltage Bus Bleed Down - A method of actively discharging a common bus ( | 2012-06-28 |
20120161680 | BRUSHLESS MOTOR CONTROL DEVICE AND BRUSHLESS MOTOR - A voltage application unit causes switching elements to apply voltage to flow an electric current into corresponding windings to generate a revolving magnetic field. A period derivation unit derives an energization period of the windings. A signal generation unit generates a PWM signal for causing the voltage application unit to activate and deactivate the switching elements, such that a duty ratio decreases gradually in a predetermined time period subsequent to the derived energization period. A period specifying unit specifies a detection period of an electric current, which is supplied from the switching elements presently switched and deactivated, by a predetermined time period between an edge, which is caused when the PWM signal changes in level to deactivate the switching elements, and a time point in advance of the edge in the energization period. | 2012-06-28 |
20120161681 | MOTOR CONTROL DEVICE AND ELECTRIC POWER STEERING EQUIPMENT HAVING THE SAME - A motor control device detecting short-circuit and disconnection faults of a power relay includes: a drive circuit of a motor; the power relay having first and second switching elements; a capacitor; a voltage detector detecting a voltage of the first switching element; a charger charging the capacitor; and a controller detects a short-circuit fault of the first and second switching elements according to the detection voltage when the first and second switching elements turn off after the charger charges the capacitor, detects a disconnection fault of the second switching element according to the detection voltage when the first switching element turns off, and the second switching element turns on and detects a disconnection fault of the first switching element according to the detected voltage when the first switching element turns on, and the second switching element turns off. | 2012-06-28 |