BE A GREEN ENERGY PROMOTER:
PURE SUSTAINABILITY - HOOK YOUR HOME CHARGER TO SOLAR:
Plenty of Home EV Chargers are listed incl. few premium products under Amazon:
The power load a home EV charger draws from rooftop solar panels is contingent on various factors. First, determine the solar panelcapacity, typically measured in kilowatts (kW). Subsequently, calculate the daily solar energy production, factoring in variables such as sunlight hours,weather conditions, and panel efficiency. Solar panel efficiency, often expressed as a percentage, influences the actual usable energy.
Once solar production is established, consider the power consumption of the EV charger, denoted in kilowatts. Calculate the daily energy consumption for EV charging by multiplying the charger's power rating by the average daily charging hours. If daily solar production exceeds the EV charging load, the existing solar capacity may suffice.However, if solar production falls short, a solar load upgrade is necessary. The upgrade involves adding more solar panels, enhancing panel efficiency, or installing a larger inverter. These technical specifics ensure alignment between solar energy generation and EV charging demands.
Collaborating with a solar energy professional is advisable for precise
assessments, as variables like geographical location and environmental
conditions can impact system performance. This holistic approach ensures an
efficient and sustainable integration of rooftop solar power for EV charging
needs.
CLASSIFICATION OF CHARGING SYSTEM, NOT CHARGER:
There is no standard classification system specifically designating home electric vehicle (EV) chargers as Class-1, Class-2, and Class-3. However, the terms Class-1, Class-2, and Class-3 are commonly associated with different levels of charging in the context of electric vehicles, and they are primarily used in North America.
Level 1 charging involves using a standard household electrical outlet (120 volts AC) to charge an electric vehicle. This is the slowest charging option.Level 1 chargers are generally considered convenient for overnight charging at home. They are simple to set up, but they provide a lower charging rate compared to higher levels.
Level 2 charging utilizes a 240-volt AC power source, which is typically available in residential settings but requires a dedicated charging station. These chargers offer a faster charging rate than Level 1 chargers and are commonly installed in homes, workplaces, and public charging stations.
Level 3 charging, also known as DC fast charging or quick charging, operates at higher voltage (typically 480 volts DC or more) and delivers a significantly faster charging rate compared to Level 1 and Level 2. Level 3 chargers are often found along highways and in commercial areas, providing a quick top-up for electric vehicles during longer journeys.
- In addition, international standards, such as those defined by the International Electrotechnical Commission (IEC) or the Society of Automotive Engineers (SAE), may use different naming conventions. Therefore, it's recommended to check the latest standards and terminology in the specific context or location of interest.