Abstract: An optical collection apparatus includes a plurality of light transmissive optical reflectors and a plurality of planar bifacial solar cells. Each light transmissive optical reflector is configured to transmit indirect light impinging on first and second collection sides thereof. First and second photovoltaic sides of each of the plurality of bifacial solar cells are positioned to collect indirect light impinging thereon. The planar bifacial solar cells are arranged such that at least one light transmissive optical reflector of the plurality of light transmissive optical reflectors is positioned between consecutive ones of the planar bifacial solar cells. Each light transmissive optical reflector of the plurality of light transmissive optical reflectors is configured to reflect direct incoming light impinging on the first collection side thereof towards the first photovoltaic side of a corresponding one of the planar bifacial solar cells. A solar collection and shading system is also contemplated.

Abstract: Device for harvesting direct sunlight, transmitting diffuse sunlight and for scattering light from a light source to provide illumination, including: a receiving layer including at least one solar energy collector and at least one light source; at least one optical component disposed on a first side of the receiving layer, the optical component including at least one plano-convex refracting element; a second optical component disposed on a second side of the receiving layer, the second optical component comprising at least one optical element; wherein the at least one plano-convex element is positioned to receive direct light and refract it towards the at least one optical element of the second optical component, and wherein the optical element is positioned to reflect light towards the solar energy collector; wherein the at least one optical element is positioned to refract and emit indirect light impinging thereon towards the exterior of the apparatus.

Abstract: Device for harvesting direct sunlight, transmitting diffuse sunlight and for scattering light from a light source to provide illumination, including: a receiving layer including at least one solar energy collector and at least one light source; at least one optical component disposed on a first side of the receiving layer, the optical component including at least one plano-convex refracting element; a second optical component disposed on a second side of the receiving layer, the second optical component comprising at least one optical element; wherein the at least one plano-convex element is positioned to receive direct light and refract it towards the at least one optical element of the second optical component, and wherein the optical element is positioned to reflect light towards the solar energy collector; wherein the at least one optical element is positioned to refract and emit indirect light impinging thereon towards the exterior of the apparatus.

Abstract: Device for concentrating and harvesting sunlight comprising: A panel having rigid layer having a patterned electrical circuit thereon. An array of sunlight concentrating and harvesting units, each unit being formed by at least one rigid element and a portion of the rigid layer; and including: a rigid optical concentrating element, a photovoltaic cell sandwiched within the panel for converting sunlight into electrical energy, and an electrical conductor. The electrical conductor being the primary heat sink for the photovoltaic cell, the photovoltaic cell being primarily cooled via conduction. The electrical conductor and the optical concentrating element being dimensioned and arranged within the unit such that the electrical conductor does not materially impede transmission of sunlight to the photovoltaic cell. The electrical conductor transmitting electrical and thermal energy received from the photovoltaic cell away from the unit.

Abstract: Illumination panel comprises: (1) a receiver substrate assembly including: (a) a rigid sheet of light transmissive material having a first surface, a second surface opposite the first surface, and a conductor pattern attached to the first surface; and (b) at least one receiver assembly affixed to the rigid sheet, each receiver assembly including a light source in electrical communication with the conductor pattern; and (2) at least one light-guide optic attached to and supported by the receiver substrate assembly, each light-guide optic in optical communication with the photovoltaic cell of an associated one of the at least one receiver assembly for guiding light for output via the rigid sheet.

Abstract: Device for providing comprising: A panel having rigid layer having a patterned electrical circuit thereon. An array of illuminating units, each unit being formed by at least one rigid element and a portion of the rigid layer; and including: a rigid optical dispersing element, a light source sandwiched within the panel for generating light from electrical energy, and an electrical conductor. The electrical conductor being the primary heat sink for the light source, the light source being primarily cooled via conduction. The electrical conductor and the optical dispersing element being dimensioned and arranged within the unit such that the electrical conductor does not materially impede transmission of light generated by the light source to the outside of the device. The electrical conductor transmitting electrical and thermal energy received from the light source away from the unit.

Abstract: Device for harvesting light from a light source, comprising: First photovoltaic cell having an upper surface, a lower surface, and an array of optical passages therein. Array of optical concentrating elements above the upper surface defining a light acceptance area, each being associated with one of the optical passages, and being structured/arranged to concentrate direct light towards theretowards. Concentrated direct light passing through the first photovoltaic cell via an optical passage and exiting as a non-parallel light beam. Array of optical redirecting elements below the lower surface, each being associated with one of the optical passages; each receiving the light beam from the optical passage with which it is associated and redirecting it optically towards a second photovoltaic cell. Diffuse light passing through the array of optical concentrating elements to upper surface of first photovoltaic cell. Second photovoltaic cell having an active area being smaller than the light acceptance area.

Abstract: Light panels, and methods of providing the light panels, are described. The described light panels are substantially transparent and can operate as an illumination device or as a solar panel. An example light panel includes a first optic layer for transmitting light; a second optic layer with a reflective surface configured for one of directing light from the first optic layer and directing light to the first optic layer; and a receiving assembly disposed between the first optic layer and the second optic layer. The receiving assembly includes a first receiving layer adjacent to the first optic layer; a second receiving layer adjacent to the second optic layer and separated from the first receiving layer; and a light device coupled to the first receiving layer. The light device can be configured to receive light from the reflective surface or to provide light to the reflective surface.

Abstract: A concentrated photovoltaic panel comprises at least one rigid sheet, one or more first optical elements disposed adjacent a first side of the at least one rigid sheet, one or more second optical elements disposed adjacent a second side of the at least one rigid sheet, and one or more photovoltaic elements. Each photovoltaic element is disposed between a respective first optical element and a respective second optical element. Each first optical element comprises at least one lens configured to focus light impinging thereon onto a corresponding reflecting surface of the respective second optical element. Each second optical element is configured to reflect light focused by the first optical element to the photovoltaic element disposed therebetween.

Abstract: A photovoltaic light guide solar concentration apparatus has a deflecting layer, a light-guide layer optically coupled to the deflecting layer, a secondary optic and a photovoltaic cell. The photovoltaic concentration apparatus has a central optical axis that, in operation, is parallel to incident sunlight. A deflecting layer includes a plurality of focusing elements symmetrically arranged with respect to the central optical axis. The light-guide layer is optically coupled to the plurality of focusing elements of the deflecting layer. The light-guide layer has a reflective surface and a plurality of opposite facets symmetrically arranged with respect to the central axis and focused sunlight from the deflection layer enters the light-guide layer and is directed and trapped by the reflective surface and the opposite facets and guided inside the light-guide layer towards an exit aperture through total internal reflections.

Abstract: The present invention is that of a solar energy system that uses a light-guide solar panel (LGSP) to trap light inside a dielectric or other transparent panel and propagates the light to one of the panel edges for harvesting by a solar energy collector such as a photovoltaic cell. This allows for very thin modules whose thickness is comparable to the height of the solar energy collector. This eliminates eliminating the depth requirements inherent in traditional concentrated photovoltaic solar energy systems. A light guide solar panel has a deflecting layer, a light guide layer and a solar cell in optical communication with the light guide layer. The deflecting layer receives light at a first surface and inputs the light into the light guide layer. The light guide layer propagates the light to the solar cell, which is aligned generally parallel to the input surface.

Abstract: A solar cell array including a matrix of solar cells arranged on a substrate in rows and columns; and a plurality of conductor elements connecting the solar cells within each column in parallel and the solar cells of each row in series. The conductor elements are arranged on the substrate in an optical path of light to the solar cells. The conductor elements are physically dimensioned to reduce interference with the optical path and have current-carrying capacity configured to conduct current within a predetermined range of anticipated operating currents.

Abstract: Light panels, and methods of providing the light panels, are described. The described light panels are substantially transparent and can operate as an illumination device or as a solar panel. An example light panel includes a first optic layer for transmitting light; a second optic layer with a reflective surface configured for one of directing light from the first optic layer and directing light to the first optic layer; and a receiving assembly disposed between the first optic layer and the second optic layer. The receiving assembly includes a first receiving layer adjacent to the first optic layer; a second receiving layer adjacent to the second optic layer and separated from the first receiving layer; and a light device coupled to the first receiving layer. The light device can be configured to receive light from the reflective surface or to provide light to the reflective surface.

Abstract: Illumination panel comprises: (1) a receiver substrate assembly including: (a) a rigid sheet of light transmissive material having a first surface, a second surface opposite the first surface, and a conductor pattern attached to the first surface; and (b) at least one receiver assembly affixed to the rigid sheet, each receiver assembly including a light source in electrical communication with the conductor pattern; and (2) at least one light-guide optic attached to and supported by the receiver substrate assembly, each light-guide optic in optical communication with the photovoltaic cell of an associated one of the at least one receiver assembly for guiding light for output via the rigid sheet.

Abstract: Concentrated photovoltaic panel comprises: (1) a receiver substrate assembly including: (a) a rigid sheet of light transmissive material having a first surface, a second surface opposite the first surface, and a conductor pattern attached to the first surface; and (b) at least one receiver assembly affixed to the rigid sheet, each receiver assembly including a photovoltaic cell in electrical communication with the conductor pattern; and (2) at least one light-guide optic attached to and supported by the receiver substrate assembly, each light-guide optic in optical communication with the photovoltaic cell of an associated one of the at least one receiver assembly for guiding light received via the receiver substrate assembly toward said photovoltaic cell.

Abstract: Device for providing comprising: A panel having rigid layer having a patterned electrical circuit thereon. An array of illuminating units, each unit being formed by at least one rigid element and a portion of the rigid layer; and including: a rigid optical dispersing element, a light source sandwiched within the panel for generating light from electrical energy, and an electrical conductor. The electrical conductor being the primary heat sink for the light source, the light source being primarily cooled via conduction. The electrical conductor and the optical dispersing element being dimensioned and arranged within the unit such that the electrical conductor does not materially impede transmission of light generated by the light source to the outside of the device. The electrical conductor transmitting electrical and thermal energy received from the light source away from the unit.

Abstract: A concentrated photovoltaic panel comprises at least one rigid sheet, one or more first optical elements disposed adjacent a first side of the at least one rigid sheet, one or more second optical elements disposed adjacent a second side of the at least one rigid sheet, and one or more photovoltaic elements. Each photovoltaic element is disposed between a respective first optical element and a respective second optical element. Each first optical element comprises at least one lens configured to focus light impinging thereon onto a corresponding reflecting surface of the respective second optical element. Each second optical element is configured to reflect light focused by the first optical element to the photovoltaic element disposed therebetween.

Abstract: Device for concentrating and harvesting sunlight comprising: A panel having rigid layer having a patterned electrical circuit thereon. An array of sunlight concentrating and harvesting units, each unit being formed by at least one rigid element and a portion of the rigid layer; and including: a rigid optical concentrating element, a photovoltaic cell sandwiched within the panel for converting sunlight into electrical energy, and an electrical conductor. The electrical conductor being the primary heat sink for the photovoltaic cell, the photovoltaic cell being primarily cooled via conduction. The electrical conductor and the optical concentrating element being dimensioned and arranged within the unit such that the electrical conductor does not materially impede transmission of sunlight to the photovoltaic cell. The electrical conductor transmitting electrical and thermal energy received from the photovoltaic cell away from the unit.