Abstract: The present invention provides a light semiconductor device comprising a substrate and a first semiconductor structure on the substrate. A light emitting structure is on a first portion of the first semiconductor structure. A first contact structure is on a second portion of the first semiconductor structure. The second portion is separated from the first portion of the first semiconductor structure. The first contact structure has a first shape. A second semiconductor structure is on the light emitting structure. A transparent contact is on the second semiconductor structure and has a cut-off portion to expose the portion of the second semiconductor structure and a second shape. A second contact structure is on the cut-off portion of the transparent contact. The second contact structure contacting the second semiconductor has a third shape.

Abstract: An adaptor assembly for coupling light guide connectors of varying configurations to a structure housing a source of focused light includes an internal adaptor having an internal optic guide element, a coupling structure, a housing, and a connector locking mechanism. The coupling structure can be inserted into and releasably retained within the structure housing the focused light. A light guide connector is inserted into a light guide receiving channel formed in the housing and is releasably retained therein by the connector locking mechanism. An internal optic guide element extends through the coupling structure to transmit focused light from the source of focused light to the light guide connector inserted into the connector-receiving channel. The housing includes heat dissipating elements to facilitate dissipation of heat generated at the interface between the optic guide element and the light guide of the connector.

Abstract: An optical system includes a coupling for transmitting light between one single fiber light guide and multiple single fiber light guides. The interface surfaces coupling the single fiber light guide to the multiple light guides have polygonal cross-sectional shapes, and the interface surface of the single fiber light guide is substantially covered by the interface surfaces of the multiple single fiber light guides. The single fiber light guide on one side of the coupling and the multiple single fiber light guides on the opposite side of the coupling each have a smoothly tapered contracting section extending away from the respective interface surfaces.

Abstract: An optical device for increasing the brightness of electromagnetic radiation emitted by a source and coupled into a target by folding the electromagnetic radiation back on itself. The optical device includes the source of electromagnetic radiation, which has a first width; a first light pipe with a first input end and a reflective end, the first input end having a second width; a second light pipe disposed parallel to the first light pipe, the second light pipe further having a second input end juxtaposed to the first input end of the first light pipe and an output end, the second input end having a third width; a first reflector having a first optical axis and a first focal point on the first optical axis; and a second reflector having a second optical axis and a second focal point on the second optical axis disposed substantially symmetrically to the first reflector such that the first optical axis is substantially collinear with the second optical axis.

Abstract: An optical coupling element for use in large numerical aperture collecting and condensing systems. The optical coupling element includes a lens having a curved surface and a tapered light pipe. The curved surface reduces the angle of incidence of the light striking the input end of the optical coupling element such that the Fresnel reflection is greatly reduced. Electromagnetic radiation emitted by a source is collected and focused onto a target by positioning the source of electromagnetic radiation at a first focal point of a first reflector so that the source produces rays of radiation reflected from the first reflector that converge at a second focal point of the second reflector. The optical coupling element is positioned so that a center of the lens is substantially proximate with the second focal point of the second reflector and the curved surface is between the second reflector and the center.

Abstract: The present invention provides a connector assembly comprising (1) a first adapter that releasably connects to light source and transmits optical energy received from the light source along a first optical waveguide; (2) a second adapter that releasably connects to first adapter to receive and transmit optical energy along a second optical waveguide; and (3) an output optical waveguide that receives the transmitted optical energy from the second waveguide and has a proximal connector adapted to fixedly engage the second adapter. In one embodiment, the proximal connector has a slot that allows for the insertion of a clip, and the second adapter has a detente that mechanically engages the clip when it is inserted into the slot in the proximal connector. In this way, the second adapter is fixedly coupled to the proximal connector but may also rotate in relation to the output connector.

Abstract: A fluorescent lamp containing zinc amalgam and a method of precisely controlling the amount of mercury introduced into a temperature controlled fluorescent lamp. Precise quantities of mercury may be introduced into a fluorescent lamp in the form of solid zinc amalgam pellets that are in a metastable, non-equilibrium state.

Abstract: A method and system for condensing and collecting electromagnetic radiation comprised generally of a radiation source, a reflector and a target is disclosed. The reflector has a reflecting surface for reflecting the radiation from the source which is in the shape of a cut out portion of an ellipsoid. The reflector surface has a substantially ellipsoidal curvature which is concave relative to both the target and the source, and which has a major axis, a minor axis, and a first and second focal points. The system of the present invention redirects radiation emitted from the source, located near the first focal point of the ellipsoid, to produce a magnified image of the source at the target, located near the second focal point of the ellipsoid. To acheive this spot size magnification, the ellipsoidal reflector surface comprises a portion of an ellipsoid which lies between the major and minor axes of the ellipsoid.

Abstract: A method and system for condensing and collecting electromagnetic radiation onto a target surface comprised generally of a radiation source, a primary reflector and a retro-reflector having a shape complementary to the shape of the primary reflector is disclosed. The primary reflector has a reflecting surface for reflecting the radiation from the source which is substantially concave in shape. The radiation source emits substantially uniform radiation flux in substantially all directions which is collected by the primary reflector and redirected toward the target surface. The retro-reflector, having a complementary shape which depends upon the shape of the primary reflector, is positioned so as to intercept a portion of the radiation redirected toward the target surface. The retro-reflector reflects the intercepted portion of the radiation back toward said primary reflector along the same path such that the redirected radiation is channeled back through the source.

Abstract: A rare gas illumination system and method are configured to provide a sweeping illumination effect. In one embodiment, the rare gas illumination system includes a tube containing a gas and having a first electrode at a first end and a second electrode at a second end. A first boot having a first transformer is coupled to the first end of the tube. A second boot having a second transformer is coupled to the second end of the tube. The system includes a controller having a microcontroller, a memory, and an output power driver. The memory is configured to store a plurality of control codes corresponding to a plurality of illumination patterns. The microcontroller controls the illumination pattern of the tube by executing the corresponding control code to selectively activate the output driver to provide a voltage signal to at least one of the first boot and the second boot.

Abstract: An electronic ballast having a through-lamp ground fault sensor that may also function as an end-of-lamp-life sensor is disclosed. The electronic ballast has an inverter that receives power from a dc power supply, and delivers a high-frequency output voltage to a resonant tank circuit through a dc blocking capacitor. The ground fault sensor includes a filter circuit connected to a voltage sensor circuit. An input terminal of the filter circuit is connected to the resonant tank so as to be in communication with a voltage signal that exists between a ballast output terminal and a dc power supply output terminal. The filter provides a filtered voltage signal by attenuating high frequency ac voltage components of the voltage signal, and passing low frequency ac voltage components, such as a 60 Hz signal, and possibly also passing a dc voltage component. A through-lamp ground fault will generate a voltage signal at the power line frequency.

Abstract: A dimming system and method suitable for any type of magnetic ballast operating a gaseous discharge lamp. The dimming system operates to selectively vary the number of turns of the ballast winding in operative connection with the lamp to thereby effect a change in the impedance of the ballast, the power provided to the lamp, and ultimately the brightness of the lamp. The system may be operated such that the brightness of the lamp is selected responsive to the detection of an external stimulus such as motion or sound within the space to be illuminated.

Abstract: A rare gas illumination system and method are configured to provide a sweeping illumination effect. In one embodiment, the rare gas illumination system includes a tube containing a gas and having a first electrode at a first end and a second electrode at a second end. A first boot having a first transformer is coupled to the first end of the tube. A second boot having a second transformer is coupled to the second end of the tube. The system includes a controller having a microcontroller, a memory, and an output power driver. The memory is configured to store a plurality of control codes corresponding to a plurality of illumination patterns. The microcontroller controls the illumination pattern of the tube by executing the corresponding control code to selectively activate the output driver to provide a voltage signal to at least one of the first boot and the second boot.

Abstract: An electromagnetic radiation collecting and condensing optical system includes a plurality of cascaded concave paraboloid reflectors and a plurality of electromagnetic radiation or light sources which radiate light energy onto the concave reflectors in such manner that the energy from each source is combined by the reflectors into an output target, such as the end of a single core optical fiber.

Abstract: A portion of a first paraboloid collects and concentrates randomized light from a lamp into parallel beams directed to a portion of a second paraboloid which refocuses the light onto a homogenizer. The second paraboloid has a shape that is substantially similar to the first paraboloid reflector. The source and the target are located at the respective foci of the paraboloids such that the optical flux from the source is imaged to the target with minimal distortion in an approximately no magnification imaging system. The system may be configured to control wavelength and intensity by inserting an additional filter. In addition, a retro-reflector may be added to increase the overall flux density at homogenizer. The output is particular suitable for providing light to the light engine of projectors.

Abstract: A system and method distribute a resin disposed between a top substrate and a bottom substrate. Each substrate has a center hole, and the top and bottom substrates and the resin define an interior region. A top substrate assembly forms a seal over the center hole of the top substrate and creates a vacuum at the interior region. A bottom substrate assembly receives the top and bottom substrates with the resin disposed in-between. A spinning assembly causes the top and bottom substrates to spin according to a predetermined spin profile.

Abstract: An electromagnetic radiation source, such as an arc lamp, is located at a point displaced from the optical axis of a concave toroidal reflecting surface. The concave primary reflector focuses the radiation from the source at an off-axis image point that is displaced from the optical axis. The use of a toroidal reflecting surface enhances the collection efficiency into a small target, such as an optical fiber, relative to a spherical reflecting surface by substantially reducing aberrations caused by the off-axis geometry. A second concave reflector is placed opposite to the first reflector to enhance further the total flux collected by a small target. In accordance with one embodiment, the present invention is directed to devices in which the square of the off-axis distance divided by the radius of curvature is equal to or less than the extent of the source of electromagnetic radiation (y02/r≦s0).

Abstract: A surgical tool with surgical field illuminator includes a light-conveying fiber optic member having a body portion, a light-receiving end optically connectable to a source of light, and a light-delivering end. A surgical tool can be attached to, or surround, part of the body portion of the fiber optic member, and the surgical tool can be connected to the body portion of the fiber optic member. A light-transmitting member is positioned adjacent the light-delivering end of the fiber optic member. A light-delivering port in the surgical tool can be provided. When the light-receiving end of the fiber optic member is optically connected to the source of light, light is transmitted through the fiber optic member to the light-delivering end of the fiber optic member, and through the light-transmitting member at a light density, to illuminate a surgical region adjacent the light-transmitting member.

Abstract: A system and method dispense resin between substrates. A top substrate device holds a top substrate concave up. A bottom substrate device holds a bottom substrate concave down. A resin dispensing device has a needle and dispenses a trajectory of resin defined by an arc having a tangent that touches a tangent of a concave-up-shaped top substrate. The top substrate device may be arranged to include a dampening mechanism to cause a dampened release of the top substrate. Moreover, the top substrate device may be arranged to hold a top substrate so that the top substrate has a continuous concave-up shape extending from a center portion of the top substrate to its outer diameter, and the bottom substrate device may be arranged to hold a bottom substrate so that the bottom substrate has a continuous concave-down shape extending from a center portion of the bottom substrate to its outer diameter.

Abstract: A system and method cures a combination of a top and a bottom substrate with a resin disposed in-between. A cure device inherently warps the combination in one direction as a result of a curing operation that the cure device performs on the combination. A temperature gradient inducing device is disposed closer to one of the top and bottom substrates to create a temperature gradient between the top and bottom substrate and thereby warp the combination in a direction opposite to the one direction.