Abstract: A second light device (4b) starts emission of a light pattern B after a first light device (4a) has started emission of a light pattern A. Elements included in the light pattern B and an element included in the light pattern A are arranged on the same straight line.

Abstract: An object of the present application is to thin a thick lens used in an automobile headlamp optical system and a projector lighting optical system while maintaining the optical properties of the lens. A diffractive lens includes, on at least one surface, an optical surface with a plurality of areas defined by a plurality of steps. A blaze wavelength of the diffractive lens is within a wavelength spectral range of a light source used. An optical path difference between adjacent areas at the blaze wavelength is larger than a coherence length of the light source. The diffractive lens substantially acts as a Fresnel lens at a wavelength other than the blaze wavelength.

Abstract: Implementations of an apparatus including a housing having therein at least one light source, the at least one light source oriented to direct light out one side of the housing, and an arc-shaped reflector connected to the housing, the arc-shaped reflector having a reflecting surface optically coupled to the at least one light source to reflect light from the at least one light source to a position adjacent to the housing.

Abstract: An LED vehicle light assembly providing a ring of diffuse light for taillight functions surrounding an area of non-diffuse light for stop and turn functions.

Abstract: An optical system comprising a first optical unit and a first sensor unit for sensing electromagnetic radiation. The optical system also comprises a micromirror matrix unit which is arranged in the beam path between the first optical unit and the first sensor unit. The micromirror matrix unit is arranged to be able to be set in at least a first and a second state. In the first state, the micromirror matrix unit reflects incident electromagnetic radiation such that it reaches the first sensor unit. In the second state, the micromirror matrix unit reflects incident electromagnetic radiation such that it does not reach the first sensor unit. The invention also concerns a target-seeking system comprising such an optical system.

Abstract: An encoder that includes a code strip and an emitter-detector module is disclosed. The code strip has alternating reflective and opaque stripes and an imaging element in contact with a surface of the code strip. The optical element directs light incident thereon to the code strip. The emitter-detector module includes a light source that generates light and directs a portion of the generated light to the imaging element. The emitter-detector module also includes a photodetector that generates a signal representing an intensity of light received by the photodetector. The imaging element images light reflected from the code strip onto the photodetector. The imaging element can include a lens having a planar surface in contact with the surface of the code strip. The imaging element can be structured such that the imaging element collimates light from the light source such that collimated light is incident on one of the reflective stripes.

Abstract: A reflective rear light for a truck includes a bottom base, a light base, a circuit board, a reflective plate unit and a light lens unit. The circuit board is formed integral, provided with plural LED lights divided into plural indicting sections. Further the LED lights of all the indicating sections are matched with a reflective plate for reflecting light to reinforce the LED lights and to gain better effects.

Abstract: In a process for the production of a plate, in particular a motor vehicle licence plate, in which at least a layer sequence forming an electroluminescence flat capacitor (4, 5, 6, 7) and a reflection film (10; 10?) are applied to a carrier (1), a reflection film (10; 10?) is selected whose reflection value is higher than the maximum value permitted by statute, and said reflection value is reduced by further production steps to such an extent that it is below the maximum value permitted by statute.

Abstract: The invention relates to a reflector, including at least one flexible reflective element wrapped around a bicycle member, a backing in contact with an first end of the at least one flexible reflective element along a portion of a periphery of the backing, thereby defining a pocket, and a second end of the at least one flexible reflective element placed in between the backing and the at least one flexible reflective element by cooperation of the a second end being held in place by the pocket.

Abstract: The invention proposes a method of manufacturing a hollow optical reflector of the type which comprises a rear body overmolded around the convex rear external face of a front insert, the concave front internal face of which is covered with a reflective layer, the method comprising:

Abstract: The invention relates to a reflector, including at least one flexible reflective element wrapped around a bicycle member, a backing in contact with an first end of the at least one flexible reflective element along a portion of a periphery of the backing, thereby defining a pocket, and a second end of the at least one flexible reflective element placed in between the backing and the at least one flexible reflective element by cooperation of the a second end being held in place by the pocket.

Abstract: An optical switching system is disclosed which can achieve high speed optical switching with a simple configuration. Light from a light irradiation section is irradiated into an optical transmission line made of a material having a nonlinear optical effect and disposed on the upstream side with respect to an optical switch provided for performing switching of a transmission line to cause the nonlinear optical effect to occur. Thereupon, light is emitted externally from the optical transmission line by the nonlinear optical effect between the light irradiated by the light irradiation section and light propagating in the optical transmission line. The light emitted is received by a light reception section to acquire intensity information of the light propagating in the optical transmission line. The intensity information is used as driving signal for driving the optical switch.

Abstract: Retroreflective sheeting and articles are formed in which the size of the retroreflective and non-retroreflective surfaces may be varied across an array of microprisms. This is accomplished by varying the location of the reflective coating applied to the microprism side facets, such that, some prism side facets are completely coated with reflective material while others are coated only at the apex area; and still others are coated with a non-reflective coatings, such as, a colored adhesive.

Abstract: A reflective marker is disclosed. The marker comprises at least one rotatable reflective element contained within an interior volume of an at least partially transparent container, such that the at least one reflective element is visible from outside the container. A drive motor is provided for rotating the at least one reflective element within the container to create a visually striking appearance. The drive motor is powered by at least one rechargeable power source; a recharging device is associated with the at least one rechargeable power source and further with at least one photovoltaic cell, the recharging device operative to recharge the at least one rechargeable power source using electricity supplied by the at least one photovoltaic cell.

Abstract: The present invention relates to a marker for indicating wheel rotation for a truck. The marker fits onto the wheel and turns with the wheel. The marker has a reflective end to allow vision during less visible occasions. The marker is mounted on the wheel stud and when the wheel stud is fastened the wheel marker is pressed between the rim and the wheel nut. The marker's reflective end rests on the outer portion of the rim.

Abstract: An electromagnetic signaling reflector includes a housing (30) having an active position and a stowed position. A plurality of reflective surfaces (32) are contained in the housing (30) and the plurality of reflective surfaces (32) form a retroreflector (34). A modulation device (40) is coupled to the reflective surfaces (32).

Abstract: Diffractive optics using surface relief profiles, also known as blazed gratings having ramps and edges or steps (also referred to as blazed facets with discontinuities at the interfaces between adjacent facets) defining grating lines and phase delays to which light propagating through the grating are subject. Diffractive lenses which are known as phased Fresnel zone plate lenses or kinoforms, also have annular blazed facets with discontinuities, steps at the interface between adjacent facets at the steps which facets define the zones of the lens. These steps are either aligned parallel to the light incident on the grating or coated with an optically opaque material, thereby preventing the transmission of incident light which is not diffracted, but would be scattered or transmitted at the steps. The contrast and quality of an image provided by the diffractive lens at a plane spaced from the grating, which may be the focal plane of the diffractive lens, is therefore enhanced.