Patent application number | Description | Published |
20130081669 | MULTI SENSOR SOLAR COLLECTION SYSTEM - A system, method, and apparatus for a multi sensor solar collection system are disclosed herein. The disclosed method for controlling the disclosed multi sensor solar collection system involves providing a plurality of different sets of solar cells that have different spectral response properties. The method also involves focusing, with at least one focusing element, a light beam on a first set of the solar cells according to a current light condition. Further, the method involves focusing, with at least one focusing element, the light beam on a second set of the solar cells according to a change in the current light condition. In other embodiments, the method involves moving a planar mounting that the solar cells are mounted on to focus the light beam on the second set of solar cells according to the change in the current light condition. | 04-04-2013 |
20130261849 | SEARCHLIGHT LOCATION SYSTEM - Systems and methods for identifying a location illuminated by an onboard searchlight on a vehicle are presented. A location of interest is illuminated at an illuminated location illuminated by the onboard searchlight, and a vehicle position of the vehicle and the onboard searchlight is determined. A vehicle orientation of the vehicle is determined based on a pitch, roll, and yaw of the vehicle, and an azimuth and an elevation of the onboard searchlight light is recorded to provide a recorded azimuth and elevation data. A pointing coordinate for the onboard searchlight illuminating the illuminated location is computed based on the vehicle orientation, the vehicle position, and the recorded azimuth and the elevation data, and the illuminated location is calculated based on the pointing coordinate. | 10-03-2013 |
20140118718 | Modulated Laser Range Finder and Method - A laser range finder including a laser configured to project a laser beam onto a target object thereby causing a target beam to be reflected from the target object, wherein the laser beam has a frequency, and wherein the frequency is modulated at a known rate, a first beam splitter positioned to split a reference beam from the laser beam, a second beam splitter positioned to receive the target beam and the reference beam, wherein the target beam and the reference beam are coherently combined, the coherently combined beams establishing a difference frequency, and a detector configured to measure the difference frequency. | 05-01-2014 |
20140192367 | Laser Detection and Warning System - A laser detection and warning system and associated methods of warning a pilot of an aircraft of incoming laser radiation and determining a location of a source of laser radiation including a detector configured to be mounted to an aircraft, the detector having an optical subsystem, a detector subsystem, and a processor subsystem to determine characteristics of incoming laser radiation and transmit a laser warning output signal, wherein the laser warning output signal may include wavelength characteristics of the laser radiation, corresponding protective eyewear type, and location of the source of the laser radiation. | 07-10-2014 |
20140307411 | Multi-lamp Solar Simulator - A solar simulator including an array of lamp modules, wherein each lamp module of the array includes a lamp configured to generate light, a homogenizer having an input end and an output end, a beam divergence lens positioned to focus the light onto the input end of the homogenizer, and an imaging lens positioned to receive the light from the output end of the homogenizer and image the light onto a target plane. | 10-16-2014 |
20150252977 | LIGHT ASSEMBLY HAVING LIGHT HOMOGENIZER - A light assembly is configured to provide a uniform light pattern onto a target, and may include a housing, a light source retained within the housing, wherein the light source is configured to generate a generated light beam, and a light homogenizer retained with the housing and disposed within a light path downstream from the light source. The light homogenizer includes a main body having an input end and an output end, and is configured to receive the generated light beam at the input end. The light homogenizer is configured to homogenize the generated light beam and output homogenized light at the output end. A focusing lens may be moveably retained with the housing and disposed within the light path downstream from the light homogenizer. The focusing lens is configured to focus the homogenized light onto the target. | 09-10-2015 |
20160047529 | MULTI-WAVELENGTH LIGHT EMITTING ASSEMBLY - A light assembly may include a reflector having a focal point in space, and a first light source configured to generate a first light at a first wavelength proximate to the focal point during a first illumination mode. The first light reflects off the reflector as a first collimated beam at the first wavelength. One or more second light sources are configured to direct one or more second light beams at one or more different wavelengths towards the focal point during a second illumination mode. The different wavelength(s) differ from the first wavelength. At least a portion of the second light beam(s) reflects off the reflector as one or more second collimated beams at the different wavelength(s). | 02-18-2016 |
20160062027 | REMOTE SOURCE LIGHT-GUIDING LIGHT ASSEMBLY - A light assembly may include a reflector having a reflective surface that defines an internal volume. A focal point is within the internal volume. A light source may be positioned outside of the internal volume of the reflector. The light source is configured to generate at least one light beam. A light guide may include an input end proximate to the light source and an output end proximate to the reflective surface. The light guide is configured to receive the light beam(s) at the input end and direct the light beam(s) out of the output end toward the reflective surface. | 03-03-2016 |
20160071719 | High-intensity Discharge Lamp Assembly and Method - A lamp assembly including a housing defining an internal volume and a lamp positioned in the internal volume, the lamp including a first electrode and a second electrode, wherein the first electrode is both thermally and electrically coupled to the housing, and wherein the second electrode is thermally coupled to the housing by way of a thermally conductive, electrically insulative material and a heat transfer element. | 03-10-2016 |
20160084896 | Flashlamp Degradation Monitoring System and Method - A method for monitoring degradation of a flashlamp including triggering the flashlamp to produce a light pulse, monitoring at least one parameter as a function of time to obtain a pulse waveform of the light pulse, comparing the pulse waveform to at least one reference pulse waveform to determine a difference therebetween, and flagging an end-of-lamp-life condition when the difference exceeds a predetermined threshold. | 03-24-2016 |