a camera-puddle lamp integrated apparatus is disclosed. The apparatus comprising a lens module; an image sensor; and a puddle lamp module, the puddle lamp module includes a light source, a spring, a sliding bar, and a solenoid and is disposed in a second area outside the first area, the light source is formed to be movable to be located in the first area or the second area, the light source is fixed to one side of the sliding bar, a moving part of the solenoid is connected to the other side of the sliding bar, and the spring is formed to be operated to move the sliding bar when the solenoid is switched to a non-operational state so as to move the light source to the second area, the camera-puddle lamp integrated apparatus operates as a puddle lamp when the light source moves to the first area, and the camera-puddle lamp integrated apparatus operates as a camera when the light source moves to the second area.

A device includes a light-emitting device (LED) having at least two vertical light-emitting sides, and a ring-shaped light guide having a bottom side, a top side comprising a light-emitting surface, an inner sidewall, and an outer sidewall defining an indentation having at least two vertical in-coupling surfaces mated to the at least two vertical light-emitting sides of the LED.

A device for illuminating a motif region, comprising a reflector screen that comprises at least one reflection element, wherein the device includes at least one lighting means comprising at least one LED lamp, in particular a plurality of LED lamps, for illuminating a motif region, at least in portions.

an external light source is designed as an external flashgun for mobile devices consisting of a xenon flash tube with associated electronic circuitry, whereby the external light source is arranged to operate in at least two modes, in the single flash mode and in the apparent uniform flash mode. The mode of the external light source's operation is set automatically based on the exposure time set on the linked mobile device. One or several external light source are arranged to connect to a mobile device via a radio link, whereby the external light source sends timestamps to the linked mobile device in regular intervals via the radio link. Based on the timestamps, an algorithm in the software running on the mobile device calculates the time delay between the moment photo capture starts on the mobile device and the moment of the flash of light being triggered by the external light source, resulting in the entire frame/subject/scene being uniformly lighted.

Introduced here are multi-channel light sources able to produce a broad range of electromagnetic radiation. A multi-channel light source (also referred to as a “multi-channel emitter”) can be designed to produce visible light and/or non-visible light. For example, some embodiments of the multi-channel light source include illuminant(s) capable of emitting electromagnetic radiation within the visible range and illuminant(s) capable of emitting electromagnetic radiation in a non-visible range, such as the ultraviolet range or infrared range. By capturing images in conjunction with the visible and non-visible light, additional information on the ambient scene can be gleaned which may be useful, for example, during post-processing.

A multi-eye interchangeable lens is disclosed. In one example, it includes a lens barrel, a movable unit, individual-eye lenses, and a light source. The movable unit is movable along an optical axis with respect to the lens barrel. The individual-eye lenses are integrally movable with the movable unit and are arranged such that emission positions of imaging lights emitted via the individual-eye lenses do not overlap with one another. The light source is configured to be movable along the optical axis integrally with the movable unit and the individual-eye lenses, and is arranged such that an emission position of an irradiation light emitted to an image sensor provided in a camera body does not overlap with the emission position of the imaging light of each of the individual-eye lenses.

An illumination device for an imager for imaging a target includes an objective cover including a light transmissive member to direct light from the target to the imager to allow the imager to image the target, and at least one light source located nearer the imager than the objective cover to illuminate the target through the objective cover. The at least one light source is located outward from an inverted region that is a region formed by substantially inverting, toward the imager and with respect to the objective cover, a region defined by predetermined rays of rays nearer the target from the objective cover in a pencil of rays, the pencil of rays entering, through the imaging lens, the image sensor from the target in contact with the objective cover and in focus with the imaging lens.

Provided herein is an on-camera light or a double-sided light for a camera. Both the on-camera light and the double-sided light have a hollow body with a front light-transmitting surface and a back light-transmitting surface and a plurality of light emitting diodes attached to a pair of circuit boards disposed within the hollow body. A control board is operably connected to the pair of LED circuit boards, to a power source, which is connected to a switch, to a brightness adjustment knob, and to a display. The on-camera light has a camera mount, for example, a cold shoe head with a male mounting foot for attachment on a camera.

An LED stroboscope device synchronized with a camera, which comprises: a power supply unit; a stroboscope unit which receives power from the power supply unit so as to charge the power for generating a flashing light, and then, outputs a flashing light generation signal for electric discharge of the charged power; a continuous light unit which receives the power from the power supply unit so as to output a continuous light generation signal for generating continuous light; a light emitting unit which individually receives the flashing light generation signal and the continuous light generation signal so as to generate the flashing light and the continuous light; and a control unit which receives the power from the power supply unit so as to individually control the stroboscope unit and the continuous light unit, thereby outputting the flashing light generation signal and the continuous light generation signal.

The proposed apparatus, which functions to capture insects for research purposes, incorporates a mesh platform used to gather insects, at least one funnel used to direct insects to the mesh platform, a fan positioned at the base of the apparatus to create a down draft in the air flow which forces insects to gather on the mesh platform. A camera placed above the mesh platform and funnel to collect images of the insects on the mesh platform.