Solar Supervisor™ is a true Solar Site IoT/IIoT monitoring and preventive maintenance/failure analytics company. Our goal is to deliver problem-solving solar solutions with solar site visibility on a global reach. Through our patent pending innovation, we provide complete Solar Site monitoring, with real-time information on Battery and Site condition and the ability to predict failures with a proven return on investment.
Customers place solar systems in remote locations because it is too costly to run common AC power to remote locations. Uptime is critical. System performance is not typically visible to SCADA operators and the only time an operator learns of a system failure is when the Solar System completely fails, causing a technician to be dispatched and critical down time to site systems such as powering sensors, PLC’s, etc.
Customers are sensitive to the cost and manpower required to dispatch a service truck-roll to troubleshoot an unknown issue, the downtime and the hundreds of dollars of cost per incident.
The number one issue for failed systems is an undersigned system. Solar power engineers typically start the design process by asking basic questions; “How many days do I need the system up in bad weather” and “How big of a solar panel and battery will the system need to safely maintain power for my desired days of autonomy”. This is a paper exercise and does not take into account the addition of equipment over time and aging components such as batteries and panels.
Solar Supervisor™ is a true Solar Site IoT/IIoT monitoring and preventive maintenance/failure analytics company based in the USA. Our products are 100% designed and manufactured in the USA. Our goal is to deliver problem-solving solar solutions with solar site visibility on a global reach. Through our patent pending innovation, we provide complete Solar Site monitoring, with real-time information on Battery and Site condition and the ability to predict failures with a proven return on investment.
Customers place solar systems in remote locations because it is too costly to run common AC power to remote locations. Uptime is critical. System performance is not typically visible to SCADA operators and the only time an operator learns of a system failure is when the Solar System completely fails, causing a technician to be dispatched and critical down time to site systems such as powering sensors, PLC’s, etc.
Customers are sensitive to the cost and manpower required to dispatch a service truck-roll to troubleshoot an unknown issue, the downtime and the hundreds of dollars of cost per incident.
The number one issue for failed systems is an undersigned system. Solar power engineers typically start the design process by asking basic questions; “How many days do I need the system up in bad weather” and “How big of a solar panel and battery will the system need to safely maintain power for my desired days of autonomy”. This is a paper exercise and does not take into account the addition of equipment over time and aging components such as batteries and panels.
Our patent pending innovation estimates the size of Solar Panel and Battery your system requires to maintain your desired system autonomy and gives operators estimates on how long the system will maintain safe battery levels in low sunlight conditions. Dual power outputs allow the system to prioritize power loads under autonomy failing conditions. The system also allows remote functions to cycle power to third-party equipment, reducing the need to dispatch a technician. Our solution pays for itself the very first time you avoid sending technician on site in order to determine failure.
Our patent pending innovation estimates the size of Solar Panel and Battery your system requires to maintain your desired system autonomy and gives operators estimates on how long the system will maintain safe battery levels in low sunlight conditions. Dual power outputs allow the system to prioritize power loads under autonomy failing conditions. The system also allows remote functions to cycle power to third-party equipment, reducing the need to dispatch a technician. Our solution pays for itself the very first time you avoid sending technician on site in order to determine failure.