This invention provides a vision system with an exchangeable illumination assembly that allows for increased versatility in the type and configuration of illumination supplied to the system without altering the underlying optics, sensor, vision processor, or the associated housing. The vision system housing includes a front plate that optionally includes a plurality of mounting bases for accepting different types of lenses, and a connector that allows removable interconnection with the illustrative illumination assembly. The illumination assembly includes a cover that is light transmissive. The cover encloses an illumination component that can include a plurality of lighting elements that surround an aperture through which received light rays from the imaged scene pass through to the lens. The arrangement of lighting elements is highly variable and the user can be supplied with an illumination assembly that best suits its needs without need to change the vision system processor, sensor or housing.

The disclosure provides a portable imaging module detachably connected to a portable imaging device including a camera and an illuminator. The portable imaging module includes a lens assembly and a lens body. The lens body includes a mounting hole, and the lens assembly is at least partially disposed in the mounting hole. The lens assembly includes a lens and a lens enclosure. The lens assembly is disposed on the portable imaging device and is in front of the camera of the portable imaging device. The lens body includes transparent or semitransparent solid material; one end of the lens body includes a reflecting end; a projection area of the reflecting end on a mounting surface of the portable imaging device at least partially covers the illuminator.

A capturing apparatus for an electronic device is provided in the present disclosure. The capturing apparatus for an electronic device may include a lampshade, a camera and a number of flash lamps. The lampshade may include an inner ring portion and an outer ring portion arranged concentrically. An inner rim of the outer ring portion may be connected with an outer rim of the inner ring portion. The camera may be located at a side of the lampshade and corresponding to a hollow area defined by the inner ring portion and positioned at a side of the inner ring portion away from the outer ring portion. A plurality of flash lamps may be disposed at a side of the lampshade close to the camera around a periphery of the camera and corresponding to the outer ring portion.

The present disclosure relates to the field of lens technologies and provides a lens module. The lens module includes: a lens assembly including a lens barrel and a set of lenses received in the lens barrel; and an illumination assembly fixed to the lens assembly, the illumination assembly including an illumination holder surrounding and fixed to the lens barrel and an illumination window arranged on the illumination holder. The illumination window has an annular shape and surrounds the lens assembly. The present disclosure can solve a problem in the related art that the camera and the illumination assembly are separate components, which would otherwise occupy a space.

The present invention relates to an apparatus for that allows a user to support a camera device and provides lighting for an area to be photographed. Beneficially, the invention allows for an engaging portable photobooth experience to provided by event hosts. The apparatus comprises a base assembly with a frame configured to receive and hold a camera device in a first orientation with the camera of the camera device pointing along a first axis with respect to the base assembly. The apparatus also comprises a lighting assembly comprising a power module connected to a plurality of lighting elements which are positioned around the frame and which are configured to direct light in a direction substantially parallel to the first axis. Various implementations of the apparatus of the present invention are also provided.

A light-adjustment module for camera includes a light source unit and a light-adjustment unit. The light source unit includes light-emitting elements disposed around a lens of the camera, and the light-emitting direction of each light-emitting element is parallel to the image-capturing direction of the lens. The light-adjustment unit is disposed above the light source unit and includes secondary optical elements respectively corresponding to the light-emitting elements. Each secondary optical element includes a light-transmitting cover, and each light-emitting element is accommodated inside the corresponding light-transmitting cover. An inner wall of each light-transmitting cover includes a first light-guiding inclined surface and a second light-guiding inclined surface. A first slope of the first light-guiding inclined surface is different from a second slope of the second light-guiding inclined surface. A light emitted by each light-emitting element is deflected through the corresponding first light-guiding inclined surface and the corresponding second light-guiding inclined surface.

A lens device includes a control module having a control circuit board and a photosensitive element, a light emitting module having a light source circuit board and a light emitting element. The lens module is configured to be corresponsive to the photosensitive element and includes a lens barrel and plural lenses; the focusing lens is installed at a front end of the lens module; the reflector is installed between the lens module and the focusing lens; the hood is connected to the lens barrel and has a shading section extending outwardly from a front edge of the lens barrel for blocking a light reflected by the reflector and prevent the light from entering into the lens barrel directly, so as to avoid poor image quality caused by the light with a poor angle that enters into the lens barrel.

Electronic device cases and lighting and power devices and modules are described. A case for a portable electronic device may include a rim portion defining an opening for a display of the portable electronic device and one or more light sources adjacent to the rim portion. A lighting device may include one or more light sources for illuminating a user's face during use of a camera of a portable electronic device, and a power member for providing power to the one or more light sources. A lighting module may include a plurality of lighting devices. A power module having a battery may be configured to provide power to a portable electronic device.

The present disclosure relates to optical systems, vehicles, and methods that are configured to illuminate and image a wide field of view of an environment. An example optical system includes a camera having an optical axis and an outer lens element disposed along the optical axis. The optical system also includes a plurality of illumination modules, each of which includes at least one light-emitter device configured to emit light along a respective emission axis and a secondary optical element optically coupled to the at least one light-emitter device. The secondary optical element is configured to provide a light emission pattern having an azimuthal angle extent of at least 170 degrees so as to illuminate a portion of an environment of the optical system.

Photographic lighting devices, systems, and methods having a plurality of electrical energy storage/discharge (EESD) elements and/or one or more light sources in a single photographic lighting device to perform one or more photographic lighting effects. EESD elements and one or more light sources can be configured to have multiple separate light emissions occur in a single image acquisition window. The multiple light emissions are separated in an image acquisition window by a time period that is about shutter speed exposure time/(N1), where N is the number of light emissions. In one such example, two light emissions are separated by a time period that is about shutter speed exposure time/(N1).