This disclosure relates to a handheld camera mount and reflector system. The reflector system includes a collapsible rod member having a collapsible reflector attached at one end of the rod. A handle is connected at the other end of the rod. A camera mount is attached to the rod between the reflector and the handle. The surface of the reflector can be adapted to adjust reflectivity, diffusion and color spectrum.

An optical lighting accessory is described for use with a handheld mobile device in photography or videography applications. The handheld mobile device includes at least a rear-facing camera and light source. The optical lighting accessory includes an accessory case having optical light ports and an attachment member for securing the device to the accessory case, an optical element coupled to at least one of the optical light ports, the optical element configured to receive, capture and communicate a plurality of light rays emitted by the light source, and a light diffuser layer coupled to the optical element and configured to receive the light rays communicated by the optical element, the light diffuser layer transforms the light rays into a diffused light source, the diffuser layer is configured to communicate the diffused light source to the rear-facing camera.

An electronic camera having an electronic flash including a plurality of light emitting diodes (LEDs) that emit different wavelength light is disclosed. Electric energy is supplied to a capacitor to the LEDs. A system controller controls light emitting amounts of the LEDs so that a color temperature of the electronic flash light becomes a color temperature that has been manually set with a color temperature setting switch or a color temperature of a light source determined by color temperature sensors.

An optical lighting accessory is described for use with a handheld mobile device in photography or videography applications. The handheld mobile device includes at least a rear-facing camera and light source. The optical lighting accessory includes an accessory case having optical light ports and an attachment member for securing the device to the accessory case, an optical element coupled to at least one of the optical light ports, the optical element configured to receive, capture and communicate a plurality of light rays emitted by the light source, and a light diffuser layer coupled to the optical element and configured to receive the light rays communicated by the optical element, the light diffuser layer transforms the light rays into a diffused light source, the diffuser layer is configured to communicate the diffused light source to the rear-facing camera.

An electronic camera having an electronic flash including a plurality of light emitting diodes (LEDs) that emit different wavelength light is disclosed. Electric energy is supplied to a capacitor to the LEDs. A system controller controls light emitting amounts of the LEDs so that a color temperature of the electronic flash light becomes a color temperature that has been manually set with a color temperature setting switch or a color temperature of a light source determined by color temperature sensors.

An electronic camera having an electronic flash including a plurality of light emitting diodes (LEDs) that emit different wavelength light is disclosed. Electric energy is supplied to a capacitor to the LEDs. A system controller controls light emitting amounts of the LEDs so that a color temperature of the electronic flash light becomes a color temperature that has been manually set with a color temperature setting switch or a color temperature of a light source determined by color temperature sensors.

An electronic camera having an electronic flash including a plurality of light emitting diodes (LEDs) that emit different wavelength light is disclosed. Electric energy is supplied to a capacitor to the LEDs. A system controller controls light emitting amounts of the LEDs so that a color temperature of the electronic flash light becomes a color temperature that has been manually set with a color temperature setting switch or a color temperature of a light source determined by color temperature sensors.

This disclosure relates to a handheld camera mount and reflector system. The reflector system includes a collapsible rod member having a collapsible reflector attached at one end of the rod. A handle is connected at the other end of the rod. A camera mount is attached to the rod between the reflector and the handle. The surface of the reflector can be adapted to adjust reflectivity, diffusion and color spectrum.

An electronic camera having an electronic flash including a plurality of light emitting diodes (LEDs) that emit different wavelength light is disclosed. Electric energy is supplied to a capacitor to the LEDs. A system controller controls light emitting amounts of the LEDs so that a color temperature of the electronic flash light becomes a color temperature that has been manually set with a color temperature setting switch or a color temperature of a light source determined by color temperature sensors.

A book-light for illuminating photo and film scenes with soft illumination light, comprising: a three-dimensional structure having a rectangular first face and a rectangular second face; wherein the rectangular first face is configured for attachment of a lamp, and wherein the first face includes a first edge and a second edge opposite the first edge; wherein the rectangular second face includes a first edge extending adjacent to the first edge of the first face and along the first edge of the first face, and a second edge opposite the first edge, and wherein an inner surface of the second face is provided by a material that is configured to diffusely reflect light incident on the inner surface of the second face; and wherein the book-light further comprises at least one inflatable tube extending between the second edge of the first face and the second edge of the second face and which, in its inflated state, holds the second edge of the first face at a distance from the second edge of the second face, so that light reflected from the inner surface of the second face can leave the book-light between the second edge of the first face and the second edge of the second face.