This Foothills residence spins its' electric meter backwards most days with a new 9 kW photovoltaic system.
This 3 kW DC photovoltaic system provides a good portion of the residents' energy needs while complementing this passive solar home.
The sun sets after having produced 18 kWh for this new construction installation in Catalina.
This 3 kW photovoltaic system was analyzed by a structural engineer to verify that the tile roof could support the weight of the modules.
This battery back-up system offers the benefits of a grid-tied system with the independence of a stand-alone system. This system was the first of its kind in the TEP Sunshare program.
This 4.7 kW DC system produces 90 to 100 percent of the annual electric needs for this residence.
Stacked with panels two-high, this system makes the best of limited roof space.
This 960 watt DC urban stand-alone photovoltaic system allowed the customer to disconnect their utility service.
Mr. Gilmore worked with his HOA to get his 1.5 kW system approved by the community. He made a video of our installation. See it in case studies.
This Barrio Metallico home, set in urban Tucson, utilizes photovoltaics, solar hot water and rainwater catchment.
Stone Curves Cohousing Community benefits from the rainwater safely collected and stored in nine rainwater catchment systems.
This 1.5 kW DC photovoltaic system provides over 90 percent of the family's electricity needs.
This system provides 80 percent of the electricity needs for this household and, combined with a solar hot water heater, reduces their environmental impact.
This Tucson residence benefits from a solar electric system, a solar hot water heating system, as well as multiple rainwater catchment systems.
This 3 kW system complements a solar water heating system to significantly reduce the environmental impact of this northeast Tucson family.
The residents at this central Tucson home have chosen to supplement their electric bill by making some of their own electricity from the sun.