Electric Vehicles Robinson, WA 6330
The 6330 postcode area, including Robinson, Centennial Park, Albany, Bayonet Head, Big Grove, Bornholm, Collingwood Heights, Collingwood Park, Cuthbert, Drome, Elleker, Emu Point, Frenchman Bay, Gledhow, Goode Beach, Green Valley, Kalgan, King River, Kronkup, Lange, Little Grove, Lockyer, Lower King, Lowlands, Marbelup, Mckail, Middleton Beach, Millbrook, Milpara, Mira Mar, Mount Clarence, Mount Elphinstone, Mount Melville, Nanarup, Napier, Nullaki, Orana, Port Albany, Sandpatch, Seppings, Spencer Park, Torbay, Torndirrup, Vancouver Peninsula, Walmsley, Warrenup, West Cape Howe, Willyung, Yakamia and Youngs Siding, is home to 13611 vehicles. Among these, 328 are electric cars, which include battery electric vehicles (BEVs), plug-in hybrid electric vehicles (PHEVs), hybrid vehicles, and fuel cell electric vehicles (FCEVs). This means that2% of the region’s vehicles are now electric, highlighting a growing shift towards sustainable transportation.
Assuming each vehile travels an average of 10,000km per year, the ICE (Internal Combustion Engine) vehicles in Robinson, Centennial Park, Albany, Bayonet Head, Big Grove, Bornholm, Collingwood Heights, Collingwood Park, Cuthbert, Drome, Elleker, Emu Point, Frenchman Bay, Gledhow, Goode Beach, Green Valley, Kalgan, King River, Kronkup, Lange, Little Grove, Lockyer, Lower King, Lowlands, Marbelup, Mckail, Middleton Beach, Millbrook, Milpara, Mira Mar, Mount Clarence, Mount Elphinstone, Mount Melville, Nanarup, Napier, Nullaki, Orana, Port Albany, Sandpatch, Seppings, Spencer Park, Torbay, Torndirrup, Vancouver Peninsula, Walmsley, Warrenup, West Cape Howe, Willyung, Yakamia and Youngs Siding are emitting approximately 40380 tonnes of CO2 per year.
Assuming each traditional internal combustion engine (ICE) vehicle in 6330 travels around 10,000 km per year, total emissions from these vehicles amount to approximately NaN tonnes of CO2 annually. Collectively, electric vehicles (EVs) can be charged using solar energy. Based on sunshine data from the nearest weather station, Duck Lake, a typical household with a 6 kW solar power system can charge an EV to travel up to 206 km per day during the summer month of January, and 71 km per day in July, with an annual average of 135 km per day.
To facilitate this transition to electric cars and hybrid vehicles, there are around 11 public EV charging stations within 20 km of Robinson, making it easier for residents and visitors to charge their vehicles and drive sustainably.
Electric Vehicle Ownership in Robinson
* Federal Chamber of Automotive Industries and Electric Vehicle Council.
* Data from The Bureau of Meteorology (BOM). Closest weather station to Robinson: Duck Lake - approx. 4.2 km
Electric Vehicle Charging & Solar Power Robinson
* Data from The Bureau of Meteorology (BOM). Closest weather station to Robinson: Duck Lake - approx. 4.2 km
Featured Solar Installers Servicing Robinson
Electric Vehicles Charging Robinson
Number of kilometers you can drive your electric vehicle each day when charging solely from a 6kW solar system in Robinson
Electric Vehicle Robinson - Community Profile
Robinson EV Demographics
With a population of 33971 people, Robinson has 13611 motor vehicles based on the Australian Bureau Of Statistics 2021 Census. This is made up of 4817 homes with 1 motor vehicle, 5452 homes with 2 motor vehicles, and 3342 of homes with 3 motor vehicles or more.
With 11 public ev charging stations in Robinson and a combined 328 registered vehicles that are either battery electric vehicles (BEVs), plug-in hybrid electric vehicles (PHEVs), hybrid vehicles, there’s a growing interest in electric cars and Robinson electric car charging stations. For the 4769 homes that already have solar panels in the 6330 postcode, being 29% of the total 16663 homes in this community, Robinson EV owners who combine home solar panels with an EV charger with benefit financially whilst also reducing their environmental impact.
* Based on Australian Bureau of Statistics 2021 Data
Electric Vehicle Charging Stations
With its sun-drenched landscapes and eco-conscious community of 33,971 residents, Robinson is fast becoming a hub for electric vehicle adoption. Between 2021 and 2023, EV registrations surged by 143% – from just 135 electric cars to 328 today. For those driving popular models like the practical MG HS PHEV or luxurious Rolls-Royce Spectre, Robinson offers convenient charging solutions that blend sustainability with modern convenience.
Public charging stations are plentiful, with 11 options within a 20km radius. The Robinson Town Shopping Centre hosts a dual-port CCS2/Type 2 charger perfect for topping up your Mercedes-Benz eVito Van while grocery shopping. Visitors exploring the scenic Riverside Park can access 50kW fast chargers, while the local hospital provides reliable Type 2 charging for patients and staff. All stations support contactless payment, making them accessible for residents and travellers alike.
Major networks like Chargefox and Evie Networks dominate Robinson’s charging landscape. CCS2 connectors cater to most modern EVs including the Bentley Flying Spur PHEV, while Type 2 (Mennekes) ports serve vehicles like the Ferrari 296. CHAdeMO compatibility remains limited, so Nissan Leaf owners should plan accordingly.
With Robinson enjoying 15.80MJ/m²/day of solar radiation – equivalent to 4.39kW/m²/day – solar-powered home charging shines here. A typical 5kW solar system generates enough energy to power an MG HS PHEV’s 63km daily range twice over, slashing charging costs by 60-80%. Even energy-intensive models like the Rolls-Royce Spectre (20.5kWh/100km) become remarkably affordable to run when paired with rooftop solar.
As Robinson’s streets increasingly hum with electric motors, there’s never been a better time to join the revolution. If you’re considering an electric vehicle home charger, pairing it with solar panels could transform your driving costs. Local installers can help design systems that keep your EV charged using WA’s abundant sunshine – because in Robinson, the future of transport isn’t just electric, it’s self-sufficient.