Solar-powered EV chargers use inverters to allow for fast charging capabilities. Your solar EV charger may combine DC power from a solar panel and AC power from your grid supply. The result can be a multipurpose fast-charging appliance that can reduce electricity bills. Here are some ways a solar EV charger can provide utility within your household:
Your EV charging system may have battery storage capabilities, which can be advantageous. A battery system allows your charging system to store solar energy for later use during off-grid situations. The energy stored in a battery flows through the inverter and into your home’s electrical system. Extra power redirected into the electricity grid helps offset your household needs.
You can repurpose your solar-powered EV charger to fit other uses regardless of the wiring setup. If a charging point is compatible with solar charging, leverage the power from a solar EV charger system to reduce your charging costs. Solar-powered EV chargers may integrate easy installation, a short setup time, and simplified hardware integration. Your system combines solar energy supply with your home charging needs to help you maximize renewable energy usage. Solar-powered charging can reduce your carbon footprint and help you consume electrical energy more sustainably.
Solar-powered EV charging systems rely on different types of integrated technology, including DC, AC, and the hybrid model. Your system’s DC capabilities can promote cost-effectiveness since fewer converters work between the solar panel and the DC bus. DC modules also have less harmonic interference, protecting household appliances from voltage drops and overheating. Specially designed DC microgrids provide multiple charging points for plug-in hybrid EVs.
Your system’s AC microgrid can share similarities with the DC system, although it may require components for power conversion. An added advantage of the AC microgrid is its vehicle-to-grid (V2G) capabilities. You control your home system’s V2G power reversal capabilities through a switchboard integrated at the point of standard coupling. A hybrid charging system leverages the advantages of AC and DC charging capabilities. A DC microgrid can provide fast charging, while an AC microgrid can allow V2G integration.
Unidirectional V2G controls the charging rate for your household appliances. The one-way relay helps prevent power grid overload, fix overvoltage, and stabilize your charging system. A one-way V2G system monitors communication between household appliances and grid operators to offer protection. Unidirectional V2G can also provide your home with spinning reserves. A spinning reserve taps the extra power outputted by generators to provide additional power to your home. Bidirectional V2G can allow power to flow in two directions—to the solar EV charger and to grid support. A bidirectional V2G system offers energy transfer pliability to help regulate battery energy and improve system reliability and sustainability. The system can provide active power assistance, power factor correction, load leveling, harmonic filtering, and frequency control.
Your EV charging system can come with vehicle-to-load (V2L) technology, which is simpler and may not need a bidirectional charger. V2L allows your electric appliances to directly source power from a standard 10A power plug onboard the EV. V2L technology also gives you an AC power supply for backup use during blackouts or emergencies. An EV solar charger can fully charge an EV, which continuously supplies AC power to your household for several days. A V2L-capable charging system can also help you top up your EV if you need a quick power refill.
Get Your Solar EV Charger Today
Solar energy can provide a cleaner, reliable, and affordable solution to your household needs. Utilizing a solar EV charger at home offers multipurpose utility, flexibility, and enhanced equipment safety. Use a solar-powered EV charging system to alternate your AC and DC power needs.