Residential

Why Solar Electricity?

Many homeowners are installing solar power systems to reduce their reliance on Eskom, lower their electricity bills, and make their homes more environmentally friendly. Most electricity in a home is used in the early mornings and evenings and not during the day when solar power production is at it’s maximum.  For this reason we recommend using an off grid or hybrid system with lithium battery storage to store solar power generated during the day and make use of all this stored energy to power your household lighting and appliances at night.

Reduce Grid Dependency
Avoid Load Shedding
Reduce Electricity Bill
Increase Safety

How It Works

Solar panels collect energy from the sun and convert it into electricity which is sent to the inverter.  The inverter is one of the most important components of a solar power system and has two very important functions. It takes the electricity from the solar panels and charges the batteries as well as convert the DC from the batteries and solar panels into 230V AC. The AC electricity is then fed into your home to power your lighting and household appliances. There is no need to change any of your lighting or appliances.

Any excess solar power that is not used during the day is used to charge your battery storage system. The battery storage system supplies power to your inverter at night or when there is insufficient solar power available to satisfy your power needs. The system uses an automatic change over switch to ensure you still have power from Eskom on occasion when there is not enough solar and battery power available. This way you are almost certain to have power available at all times, day and night.

Choose System

House 1

R 140 000

Starting from
Average Daily Consumption
20–25 units per day
50% grid dependancy

House 2Average Household

R 180 000

Starting from
Average Daily Power Consumption
30–35 units per day
50% grid dependancy

House 3

R 220 000

Starting from
Average Daily Power Consuption
35 –45 units per day
50% grid dependancy