Find answers to common questions about SupliGo’s platform, financing model, energy monitoring, and solar asset support.
Frequently Asked Questions about inverters.
The best inverter depends on your system size, load requirements, and whether you need backup storage. SupliGo partners with trusted inverter brands and helps installers select systems that deliver reliable performance and long-term value.
Costs vary based on capacity, brand, and features such as hybrid capability or battery integration. Through SupliGo, clients can access flexible payment plans instead of paying the full amount upfront.
Yes, provided the system is properly sized. Air conditioners require significant power, so SupliGo ensures system designs account for peak load demands and battery support where necessary.
Some systems support standard batteries, but modern lithium batteries provide better efficiency, lifespan, and safety. SupliGo solutions are designed for optimal compatibility and performance.
Yes. Grid-tied systems can operate without batteries, though backup power will not be available during outages. SupliGo helps determine the best configuration for each use case.
Frequently Asked Questions about batteries.
Not when a proper charge controller or hybrid inverter is used. SupliGo systems include safeguards to protect batteries and extend lifespan.
Direct connection is not recommended. A charge controller is required to regulate voltage and prevent damage.
It can charge small batteries slowly, but larger systems require higher-capacity panels to be practical for real-world use.
Solar energy is stored in battery systems, allowing electricity to be used at night or during outages.
Yes for areas with unreliable power supply or high electricity costs. They provide backup power, stability, and long-term savings.
Frequently Asked Questions about solar panels.
Yes. Panels generate electricity from daylight, not just direct sunlight, though output is lower during cloudy conditions.
No. When properly designed and installed, solar systems provide long-term energy savings and reliability.
Depending on system size and grid connection, some users may still pay minimal charges, though consumption costs are greatly reduced.
Most panels last 25–30 years or more while gradually losing efficiency over time.
Monocrystalline panels are generally more efficient and compact, while polycrystalline panels are typically more affordable but slightly less efficient.
