AEPL follows strict quality and regulatory standards across all projects.
Our installations are aligned with MNRE guidelines, utilise IEC and BIS-certified components, and comply with DISCOM and net metering regulations. We adhere to electrical safety norms, rooftop structural load standards, and ISO-aligned internal processes.
Reliability is not claimed—it is engineered.
Our Vision
To become a trusted energy partner in India’s clean energy transition by delivering solar solutions that are technically sound, financially viable, and operationally reliable.
We aim to set benchmarks where every installation is bankable, every estimate is honest, and every watt generated is accountable.
Why AEPL
Engineering-driven system design
Bankable components and compliant execution
Clear savings, ROI, and payback visibility
Strong post-installation accountability
Professional, end-to-end project delivery
While solar panels generate electricity, that electricity cannot be used directly in homes or industries. This is where the solar inverter becomes essential.
The inverter converts DC electricity from the panels into alternating current (AC), which is the type of power used by electrical appliances and the grid. Beyond conversion, the inverter also manages voltage, synchronizes with the grid, optimizes power output, and ensures system safety.
In simple terms, if solar panels are the muscles of the system, the inverter is the brain.
What our clients say about our services
Ashley Jonathon
Miami, USA
Olivia Bennett
Califonia, USA
Eris Stocklin
Texas, USA
Sophia Brooks
Washington, USA
Max Weber
Califonia, USATypes of Solar Power Systems Different Systems for Different Needs
Solar power systems are designed in different configurations based on how electricity is consumed and whether backup power is required.
On-Grid Solar Systems are connected directly to the electricity grid. Solar power is used first, and any excess energy is sent to the grid through a net meter. When solar generation is low, electricity is drawn from the grid. These systems offer the highest financial savings and the fastest return on investment.
Hybrid Solar Systems combine solar panels with battery storage and grid connection. During the day, solar powers the loads and charges batteries. During power cuts, stored energy is used. These systems are ideal for locations with unreliable grid supply or critical power needs.
Off-Grid Solar Systems operate completely independently of the grid, relying entirely on batteries. They are primarily used in remote areas where grid electricity is unavailable. For most urban users, off-grid systems are unnecessary.