Patent application number | Description | Published |
20080283858 | LIGHT-EMITTING DIODE AND METHOD FOR MANUFACTURING SAME - A light-emitting diode includes: a light-emitting structure, a transparent electrically conductive thick film, a first electrical contact and a second electrical contact. The light-emitting structure includes a first-type cladding layer, a second-type cladding layer, and an active layer sandwiched between the first-type cladding layer and the second-type cladding layer. The transparent electrically conductive thick film is formed on the first-type cladding layer. The first electrical contact is located on the transparent electrically conductive thick film. The second electrical contact is located on the second-type cladding layer. The transparent electrically conductive thick film is made from a metal-doped metal oxide. | 11-20-2008 |
20090002982 | OUTDOOR LIGHTING SYSTEM WITH CONTROLLED LUMINANCE - An outdoor lighting system comprises an outdoor light source, a luminance control device, a detection apparatus, a communication network and a main controlling system. The detection apparatus is configured for detecting a luminance of the light source and generating a corresponding detecting signal associated with the luminance of the light source. The main controlling system receives the detecting signal from the detection apparatus via the communication network, and generates a luminance control signal in responsive to the detecting signal; the luminance control device is configured for receiving the luminance control signal via the communication network and regulating the luminance of the light source according to the luminance control signal. | 01-01-2009 |
20090014626 | STREET LAMP - A street lamp includes a lamp holder; a light generating unit, a brightness measuring unit and a display unit. The light generating unit is arranged on the lamp holder for emitting light. The brightness measuring unit is arranged on the lamp holder and exposed to light radiation of the light generating unit. The brightness measuring unit is configured for measuring a brightness of the light generating unit. The display unit is arranged on the lamp holder for displaying information associated with the brightness measured by the brightness measuring unit | 01-15-2009 |
20090021943 | OUTDOOR LIGHTING APPARATUS - An exemplary outdoor lighting apparatus includes a lighting device and a bird expeller. The lighting device includes a supporting pole, a housing and a light emitting unit. The housing is fixed on the top of the supporting pole. The light emitting unit is received in the housing. The bird expeller includes a sensing unit and an expelling signal generating unit. The sensing unit is configured for sensing a bird that is getting close by or in contact with the lighting device, generating a trigger signal and sending the trigger signal to the expelling signal generating unit. The expelling signal generating unit is configured for generating an expelling signal to expel the bird in response to the trigger signal. | 01-22-2009 |
20090034231 | ANTI-ICING OUTDOOR LAMP - An exemplary outdoor lamp includes a light source, a light-pervious cover, and a heating element. The light source is configured for emitting light. The light-pervious cover is for transmission of the light emitted from the light source therethrough. The heating element is in thermal contact with the light-pervious cover and is configured for heating the light-pervious cover. | 02-05-2009 |
20090046472 | LAMP ASSEMBLY - A lamp assembly ( | 02-19-2009 |
20090050912 | LIGHT EMITTING DIODE AND OUTDOOR ILLUMINATION DEVICE HAVING THE SAME - A light emitting diode includes a first electrode, a second electrode, at least a first LED chip, at least a second LED chip, and an encapsulant. The second electrode has an opposite polarity with the first electrode and parallel with the first electrode. The first LED chip is electrically connected to the first electrode and the second electrode, for emitting first light of a first wavelength. The second LED chip is electrically connected to the first electrode and the second electrode, for emitting second light of a second wavelength being in a range from 570 nm to 670 nm. The encapsulant encapsulates the first and second LED chip therein, and has a phosphor material doped therein. The phosphor material is configured for emitting white light by excitation of the first light, and the second light is configured for adjusting a color temperature of the combined white light. | 02-26-2009 |
20090067182 | ILLUMINATING APPARATUS WITH EFFICIENT HEAT DISSIPATION CAPABILITY - An illuminating apparatus ( | 03-12-2009 |
20090078960 | LIGHT EMITTING DIODE WITH AUXILIARY ELECTRIC COMPONENT - An exemplary LED includes a substrate, an LED chip, a light pervious encapsulation, and an auxiliary electric component. The substrate includes a first surface, an opposite second surface, and an accommodating space defined therein between the first surface and the second surface. The LED chip is mounted on the first surface of the substrate. The light pervious encapsulation is formed on the substrate and covers the LED chip. The auxiliary electric component is received in the accommodating space between the first and second surfaces of the substrate. | 03-26-2009 |
20090080205 | LED LAMP HAVING HEAT DISSIPATION STRUCTURE - An LED lamp for lighting purpose includes a lamp base, a heat sink, a plurality of LED modules and a blower. The lamp base encloses an inner space and defines a plurality of vents therein. The vents communicate the inner space with a surrounding atmosphere. The heat sink comprises a cylinder at a centre thereof. The cylinder has a through hole therein, which communicates with the inner space and vents of the lamp base and cooperates therewith to form an air passage. The LED modules are attached to a periphery of the heat sink. The blower generates an airflow circulating through the air passage to thereby dissipate heat generated by the LED modules. | 03-26-2009 |
20090090926 | SOLID STATE LIGHT EMITTING DEVICE - A solid state light emitting device includes a laminated substrate structure ( | 04-09-2009 |
20090116235 | SEMICONDUCTOR SOLID-STATE LIGHT-SOURCE MODULE AND ASSEMBLY HAVING THE SAME - An exemplary semiconductor solid-state light-source module includes a printed circuit board, at least one semiconductor solid state light source mounted on the printed circuit board and a light guide plate optically coupled to the semiconductor solid state light source. The printed circuit board includes a protrusion and a recess. The protrusion is configured for engaging with a recess of the printed circuit board of another similar semiconductor solid-state light-source module. | 05-07-2009 |
20090122570 | ILLUMINATING DEVICE WITH DRYING AGENT - An exemplary illuminating device includes a light source container, a light source and a drying chamber. The light source container includes a receiving room. The light source is received in the receiving room. The drying chamber has desiccant received therein and communicates with the receiving room. The desiccant is configured for absorbing moisture in the illuminating device, therefore, drying the illuminating device. | 05-14-2009 |
20090140277 | SOLIDE-STATE LIGHT SOURCE - A solid-state light source includes a substrate, a solid-state light-emitting chip, a plurality of micro-members and a light-permeable encapsulation. The substrate has a substantially flat surface. The solid-state light-emitting chip is arranged on the substantially flat surface of the substrate and electrically connected to the substrate. The micro-members are arranged on the surface of the substrate and parallel with the solid-state light emitting chip. The light-permeable encapsulation is arranged on the surface of the substrate and covers the solid-state light-emitting chip and the micro-members. | 06-04-2009 |
20090146155 | LIGHT-EMITTING DIODE - An LED includes a substrate having a substantially flat substrate surface, a plurality of electrodes extending through the substrate, an LED chip configured for emitting light, a first and a second coplanar reflective layers formed on the surface, and a light pervious encapsulation member mounted on the substrate surface. The light pervious encapsulation member covers the LED chip and the first reflective layer and a portion of the second reflective layer. The LED chip is mounted on the substrate surface and electrically connected with the electrodes. The first reflective layer and the second reflective layer are configured for reflecting the light emitted from the LED chip. | 06-11-2009 |
20090146173 | SOLID STATE ILLUMINATION DEVICE - A solid state illumination device includes a solid state light emitting diode and a mounting base. The solid state light emitting diode includes encapsulation material, a wafer, and first and second electrodes. The first and second electrodes have first ends electrically connecting with the wafer, and opposite second ends exposed outside the encapsulation material. The wafer and the first ends are encapsulated in the encapsulation material. The mounting base includes a main body with a receptacle defined therein, first and second receiving holes receiving the first and second electrodes. The main body defines an indent communicating with the first receiving holes receiving a bulge extending from the first electrodes. | 06-11-2009 |
20090146561 | SOLID STATE ILLUMINATION DEVICE - A solid state illumination device ( | 06-11-2009 |
20090153007 | LIGHT SOURCE MODULE AND METHOD FOR MANUFACTURING SAME - A light source module includes a light source and an thermoelectric cooler. The thermoelectric cooler includes a first base board, a second base board and a number of thermoelectric cooling units. The first base board includes a first surface and an opposing second surface. The second base board includes a top surface and a bottom surface. The light source is defined on the first surface of the first base board. The thermoelectric cooling units are disposed between the first surface of the first base board and the top surface of the second base board, and are configured for transferring heat generated from the light source from the first base board to the second base board. | 06-18-2009 |
20090154146 | STREETLIGHT SYSTEM - An exemplary streetlight system for illuminating a road surface comprises an illuminating device, an infrared detection device and a controlling device. The illuminating device includes a light source. The infrared detection device is configured for detecting whether there are vehicles or passersby on the road surface and generating a detection signal. The controlling device is configured for receiving the detection signal, generating a controlling signal according to the detection signal and sending the controlling signal to the light source, thereby modulating the brightness of the light source. | 06-18-2009 |
20090154175 | ILLUMINATING DEVICE - An illuminating device includes a circuit board, a light source, and a thermoelectric cooler. The circuit board has a first surface and a second surface at an opposite side of the circuit board to the first surface. The light source is electrically mounted on the first surface of the circuit board. The thermoelectric cooler is attached on the second surface of the circuit board. | 06-18-2009 |
20090160344 | LIGHTING EMITTING DIODE LAMP - A lighting emitting diode (LED) lamp ( | 06-25-2009 |
20090161354 | LIGHTING EMITTING DIODE LAMP - A lighting emitting diode (LED) lamp ( | 06-25-2009 |
20090161362 | SOLID STATE LIGHT ILLUMINATOR - A solid state light illuminator includes a solid state lighting element, a primary coil, and a secondary coil. The secondary coil and the solid state lighting element cooperatively form a circuit. The secondary coil couples electromagnetically with the primary coil. The primary coil is adapted for electrically connecting to an AC power source to generate an alternating magnetic field. The alternating magnetic field generates an induced electromotive force in the secondary coil to apply an electrical current to the solid state lighting element. | 06-25-2009 |
20090167134 | LIGHT SOURCE MODULE WITH HIGH HEAT-DISSIPATION EFFICIENCY - An exemplary embodiment of a light source module includes a thermoelectric cooler, many LED chips, and a circuit layer. The thermoelectric cooler includes a first heat-conducting dielectric plate, a second heat-conducting dielectric plate opposite to the first heat-conducting dielectric plate, and a number of thermoelectric elements located between the first heat-conducting dielectric plate and the second heat-conducting dielectric plate. The thermoelectric elements are connected with each other. The LED chips and the circuit layer are formed on the first heat-conducting dielectric plate and facing away from the second heat-conducting dielectric plate, and the LED chips are electrically connected to the circuit layer. | 07-02-2009 |
20090175035 | LIGHT SOURCE MODULE AND METHOD FOR MANUFACTURING SAME - An exemplary embodiment of a light source module includes a lighting module and a thermoelectric cooler. The lighting module includes a first heat-conducting dielectric plate and a plurality of LED chips arranged on the first heat-conducting dielectric plate. The thermoelectric cooler is formed on an opposite side of the first heat-conducting dielectric plate to the LED chips. The thermoelectric cooler includes a second heat-conducting dielectric plate opposite to the first heat-conducting dielectric plate, and a plurality of thermoelectric elements located between the first heat-conducting dielectric plate and the second heat-conducting dielectric plate. The thermoelectric elements are connected with each other. | 07-09-2009 |
20090189167 | LIGHT EMITTING DEVICE WITH HIGH LIGHT EXTRACTION EFFICIENCY - An exemplary solid-state light emitting device includes a substrate, a light emitting structure, a first electrode and a second electrode have opposite polarities with each other. The light emitting structure includes a first-type semiconductor layer, a second-type semiconductor layer and an active layer between the first-type semiconductor layer and the second-type semiconductor layer. The first electrode electrically is connected with the first-type semiconductor layer. The first electrode includes a first contact pad and a current induced electrode spaced apart and insulated from each other. The second electrode has an opposite polarity with respect to the first electrode. The second electrode includes a transparent conductive layer formed on and electrically connected with the second-type semiconductor layer and a metallic conductive layer formed on the transparent conductive layer and in electrical contact therewith. | 07-30-2009 |
20100129069 | CAMERA DEVICE - An exemplary camera device includes an optical lens module, an image sensor and a light emitting module. The optical lens module is for forming an image of an object on an image plane associated therewith. The image sensor is disposed on the image plane of the optical lens module and for capturing the image formed by the optical lens module. The light emitting module includes a transflective optical element and a light emitting element. The transflective optical element is located between the optical lens module and the image sensor. The light emitting element faces towards the transflective optical element. | 05-27-2010 |
20100148200 | LIGHT EMITTING DIODE WITH LIGHT CONVERSION - An exemplary light emitting diode includes a light emitting diode chip, two optical wavelength converting layers, and an encapsulant layer. The light emitting diode chip has an light emitting surface. The light emitting diode chip is used to emit a monochromatic light from the light emitting surface. The light emitting surface includes a first region, a second region, and a third region. The two optical wavelength converting layers covers the first and the third regions of the light emitting surface. The two optical wavelength converting layers are configured for converting the monochromatic light received from the light emitting diode chip and emitting light with a converted wavelength from the light emitting diode. The encapsulant layer covers the second region of the light emitting surface for directing light therefrom. | 06-17-2010 |
20100151122 | METHOD FOR FORMING PHOSPHOR COATING - An exemplary method for forming phosphor coating includes: providing a substrate; forming a first hydrophilic film on the substrate, the first film being soluble in water; forming a second lipophilic film on the first film, the second film comprised of a phosphor material; submerging the substrate having the first film and the second film formed thereon into water, so that the first film is dissolved in water and the second film is floated on surface of the water; and dipping a light source into the second film to forming a phosphor coating on the light source. | 06-17-2010 |
20100163097 | SOLAR CELL MODULE WITH CONCAVITY SURFACE - An exemplary solar cell module includes a main body, a number of solar cells, and a reflective layer. The main body defines a concavity surface defined thereon. The solar cells are positioned at the concavity surface and generally symmetrically arranged with respect to a central axis of the concavity surface, configured for converting sunlight to electricity. The reflective layer is positioned on the concavity surface, with the solar cells exposed to an exterior of the main body corresponding to the concavity surface. | 07-01-2010 |
20100220397 | INTERNALLY FOCUSING LENS SYSTEM - An exemplary internally focusing lens system includes, in order from the object side to the image side, a first lens group with positive refractive power, a second lens group with negative refractive power, and a third lens group with positive refractive power. The third lens group includes one lens element. The second lens group is movable toward the image side and the first and third lens groups remain stationary during focusing of the lens system from an infinitely distant object to a nearby object. | 09-02-2010 |
20110019404 | REFLECTIVE HOUSING AND LED ILLUMINATOR USING SAME - An exemplary reflective housing for a LED illuminator is provided. The reflective housing includes a plurality of side walls cooperatively forming a hollow shell. The hollow shell has a first opening and a second opening opposite to the first opening. The hollow shell tapers from the first opening to the second opening. Inner surfaces of the side walls are light reflective surfaces. The first opening has a polygonal shape having more than four sides. The first opening includes two parallel sides. Four endpoints of the first opening cooperatively form an imaginary quadrangle. Remaining sides are located at an exterior of the imaginary quadrangle. A line segment obtained by intersecting any straight lines parallel to the parallel sides is shorter than a distance between the two parallel sides. The second opening is configured for accommodating an LED light source therein. | 01-27-2011 |