A charging station for electric vehicles (EVs) is mounted on a public light post which receives an allotment of electric energy from a distributed power grid. In addition to its electrical connection with the distributed power grid, the charging station is electrically connected with a solar array on the light post that collects solar electric energy. Also mounted on the light post is a wind turbine that produces wind-generated electric energy. The electric energy from all three sources (i.e. solar, wind and grid) is consolidated in a storage battery at the charging station. The consolidated electric energy is then used for charging EVs, with an overriding priority given to electric energy allotted for regulated grid support requirements, such as street lighting and lighting for public venues.

A system for a luminaire comprising a lighting and a non-lighting module. A controller is provided for controlling the operation of a communication unit and a signalling unit in accordance with environmental parameters sensed by a sensor unit, the sensor unit generating an event signal when the environmental parameters exceed a predetermined threshold and the signalling unit providing an alarm.

An assembly comprising at least one electrical device; the at least one electrical device being mounted to a support; at least one solar element for creating electric power from solar power; at least one energy storage device for storing electricity generated by the solar element; at least one wind impacting surface operatively associated with the support; at least one energy converter for generating electric power from the wind; and at least one shaft operatively connected to the at least one energy converter and the support. Optionally, the energy converter comprises at least one motor which operates to rotate the support; the at least one motor being operatively connected to the at least one battery for storing electric power therein.

A lighting fixture control with microprocessors, a transceiver and an expansion connector port system for modular incorporation of components to add functions, capabilities, connectivity and control to an LED light fixture and/or a network of multiple light fixtures; a controller hub coupled to the light fixture, having energy storage modules to provide a power source for emergency backup and/or load shed capability to the light fixture. The controller hub provides for modular incorporation of the one or more accessories and sensors to control light intensity, light brightness, and color of the light fixture.

The invention provides an outdoor projector device for generating a patterned light output, the patterning of the light being achieved at least partly by means of a rotatable beam patterning element being mechanically driven by means of a mechanically coupled wind turbine element.

A solar or self-powered assembly includes a rechargeable battery and photo voltaic panel and/or wind turbine for supplying a battery charging current. A charge controller processor is controls charging current from the photovoltaic panel and/or wind turbine to maintain the battery in a substantially fully charged state of 80% or more state of charge over daily charge and discharge cycle charging is based on a projected target energy input based on the initial bulk energy charge, the level of discharge required to compensate for charging inefficiencies and the battery capacity factor representative of the projected natural charge in the battery over its lifespan.

A a system for a luminaire comprising a lighting and a non-lighting module. A controller is provided for controlling the operation of a communication unit and a signalling unit in accordance with environmental parameters sensed by a sensor unit, the sensor unit generating an event signal when the environmental parameters exceed a predetermined threshold and the signalling unit providing an alarm.

A solar light assembly includes an electrical mount configured for electrically mounting thereon a light device. The electrical mount is positioned underneath a first protective cover, and a wind turbine is mounted above the first protective cover and underneath a second protective cover. The wind turbine is configured to generate electrical power and is in electrical communication with the electrical mount. A solar photovoltaic panel is configured to convert solar energy to electrical energy and is in electrical communication with the electrical mount.

An assembly comprising at least one electrical device; the at least one electrical device being mounted to a support; at least one solar element for creating electric power from solar power; at least one energy storage device for storing electricity generated by the solar element; at least one wind impacting surface operatively associated with the support; at least one energy converter for generating electric power from the wind; and at least one shaft operatively connected to the at least one energy converter and the support;. Optionally, the energy converter comprises at least one motor which operates to rotate the support; the at least one motor being operatively connected to the at least one battery for storing electric power therein.

An outdoor light unit has plural self-contained mechanisms for producing electricity for powering the light unit, the light unit including a support, an electrical lamp, photovoltaic material at its top, an electrical generator, and water impingement blades and wind turbine blades to turn the generator to power the lamp. A rainwater collector collects rainwater running off of the photovoltaic material and directs it onto the water impingement blades. The generator and the rainwater collector are mounted to pivot with respect to the support, and fins cause the wind turbine blades to face into the wind.