Achieve true energy independence. Store your solar energy in lithium batteries and use it when the sun goes down — or when the grid goes out.
A hybrid solar system combines solar panels with a lithium battery storage system and a hybrid inverter. During the day, your panels generate electricity. Instead of all surplus going to the grid, the hybrid inverter charges your batteries first. In the evening and at night, you draw from the batteries rather than the grid. During a power cut, the system automatically switches to battery backup — your home or business continues running without interruption.
| Component | Options / Brands |
|---|---|
| Hybrid Inverter | Huawei SUN2000-Hybrid, Fronius Symo GEN24, SMA Sunny Tripower |
| Battery — LFP | BYD Battery-Box Premium HVS/HVM |
| Battery — LFP | Pylontech US3000C / Force H2 |
| Battery Capacity | 5 kWh – 100+ kWh (modular) |
| Battery Chemistry | LFP (Lithium Iron Phosphate) — safest, longest life |
| Battery Cycles | 6,000+ @ 80% DoD (≈16 years) |
| Backup Capability | Whole-home (EPS) or critical-loads only |
Modern LFP (Lithium Iron Phosphate) batteries used by BYD and Pylontech are rated for 6,000+ cycles at 80% depth of discharge. Cycling once daily, this equals 16+ years of useful life. All batteries we supply carry a 10-year manufacturer warranty.
Yes, if you have a compatible hybrid inverter. If your current system has a standard string inverter, it needs to be replaced with a hybrid inverter when adding batteries. We can assess your existing system and advise on the most cost-effective upgrade path.
A typical Antalya home consuming 20–30 kWh/day needs 10–15 kWh of battery storage to cover evening and overnight needs. For full energy independence (accounting for cloudy days), 20–30 kWh is recommended. We size batteries based on your actual consumption data.
LFP chemistry is the safest lithium battery chemistry — no thermal runaway risk under normal conditions. All batteries we install are CE-certified and comply with IEC 62619 safety standards. They are typically wall-mounted in a utility room, garage or basement. Operating temperature range: -10°C to +50°C.
Get a free hybrid system design based on your actual energy consumption and goals.
A hybrid system is an architecture that pairs photovoltaic panels with lithium-ion battery storage. The difference from a standard grid-tied (on-grid) system is straightforward: instead of being exported to the grid, the surplus generated during the day is stored in the battery and drawn on in the evening or overnight when you need it. Hybrid systems also keep running during a grid outage — so a single system gives you both day-to-day savings and emergency backup power.
Well suited to adding a battery to an existing on-grid system after the fact. The retrofit cost is lower, though energy-conversion losses are slightly higher (8–12%).
Sends panel output straight to the battery as DC, keeping conversion losses to a minimum (3–5%). The recommended architecture for new installations.
DoD: Depth of Discharge. For both safety and longevity, LFP batteries are the first choice for residential and commercial applications.
A hybrid system is not necessary for every project. In the following circumstances, however, adding a battery has a strong financial and operational rationale:
When specifying a hybrid system, inverter-and-battery integration is critical. The solutions we recommend include:
For the growing number of electric-vehicle (EV) owners, a hybrid system offers a real advantage. You can direct your surplus solar energy first to the battery and then to the car charger. In this configuration, the running cost of both your home and your vehicle falls significantly, and you are no longer tied to overnight grid tariffs. We size the system correctly with your vehicle charging needs factored in from the start.