How Are Electric Vehicles Charged?

Before buying an electric vehicle it is essential to gain familiarity with the necessary on-board equipment to prevent “charging” or, to use a current term, “top-up” problems.

It is important to check that the electric vehicle is fitted with a battery charger with a “standard” connection, i. e. suitable to draw electrical energy directly from ENEL’s grid and therefore from the power outlet in our garage. If it’s not then there is something wrong and you need to contact the seller.

This solution in the standard equipment fitted on an electric vehicle allows to charge the batteries in any place with mains electricity. Indeed electric cars have other various types of battery chargers. However, these do not allow to draw electricity from the mains supply but need special adapters or need to be connected directly to the charging points in service stations now available in large towns. The ideal solution is to have a battery charger on board the car with a high-frequency standard socket without the need to resort to external devices.

When taking into consideration an electric vehicle one needs to examine the costs to bear for the energy required to power the set of batteries. Models that allow to reduce energy costs are definitely the ones that allow to charge the batteries directly from the national domestic mains supply. Usually a full energy charge for a complete set of traction batteries for vehicles that draw energy directly from the mains supply does not cost more than 2 euros.

Vehicles fitted with a standard battery charger allow to optimise the time spent at home to charge the batteries. Indeed on average it takes 8 hours to fully charge a set of traction batteries. We recommend charging the entire set of batteries overnight, after the vehicle has been used during the day, in conjunction with the cheapest electricity tariff. It is also possible to charge the batteries for less time during the day for partial charges.

Partial charges do not result in problems affecting the runtime and/or efficiency of the set of batteries, as they are not subject to the memory effect. Precisely because they do not suffer from the memory effect, the set of batteries of electric vehicles has an average life of about 4 years.

A fully charged set of batteries of an electric vehicle allows for an uptime that varies between 70 and 100 km, depending on the model and set-up selected.

Eliminate Chronic Car Problems With Electric Vehicle Conversions

Regardless of where you travel to in Australia, you will always be putting miles on your car. Unfortunately, the parts used in high performance engines found in modern cars wear out much faster than the ones used years ago. For example, the fuel pump in modern cars often dies out after 60,000 to 90,000 Km of travel. If you check your warranty information, you will most likely find that the fuel pump is not covered after 60,000 Km, even on an extended warranty plan. If your odometer reading is approaching this number, electric vehicle conversions may represent a cost effective way to get out of chronic expenses associated with a high mileage vehicle.

Critical Car Parts and High Compression Engine Wear

Not so long ago, fuel pumps were one of the easiest things on a car to replace. All you really needed to do was search around near the carburetor, take the old pump out, and then put the new one in. Typically, it was a job you could accomplish in under an hour, right in your own back yard. At the same time, fuel pumps tended to cost well under 100.00.

By contrast, today’s vehicles use fuel injectors that require a very high compression ratio from the fuel pump. This type of pump is almost always housed in the fuel tank. They also cost several hundred dollars per unit. In order to replace the pump, you will need to take out the fuel tank, and then hope the mechanic will not damage the neck of the tank while removing the old pump. Because it tends to be a difficult job, you may wind up paying well over $1500.00 to have a new pump installed. On top of that, if they do damage the gas tank, you may wind up spending an additional $1000.00 to solve that problem.

Once the fuel pump is replaced, it can significantly alter the electrical system of the vehicle. For example, a number of cars and trucks develop computer problems, as well as a tendency to die out randomly once the new fuel pump is installed. Electric cars are virtually maintenance free. Electric vehicle conversions are worth exploring, and much safer in this type of situation. At the very least, you won’t have to worry about the motor dieing at an inconvenient time.

While you may not be aware of it, compression gaskets, valves, fuel injectors, and engine heads wear out faster when exposed to higher combustion temperatures and compression ratios. No matter how well you maintain and service your vehicle, it will not change this aspect of modern engine performance. Once your car passes the 100,000 Km mark, the best of the engine and transmission lifespan will be used up. Perhaps this is one of the reasons why very few manufacturers will guarantee a vehicle engine and transmission past 100,000 Km. Under these conditions, electric vehicle conversions offer a viable, safer, and cheaper alternative to help you maintain reliable transportation.

Deep Engine Computer Problems and Internal Combustion Engines

Even though the computer modules in your car are often housed in easy to reach places, they obtain data from sensors deep within the engine. For example, oxygen sensors may be positioned within the cylinder head. There are also some sensors that may be housed deep in the engine block. In some cases, these sensors monitor the flow of oil and coolants through the block. Once these sensors malfunction, they can cause piston heads to seize up, as well as ruin other critical parts of the main engine. At the same time, replacing these sensors may cost several thousand dollars if the engine has to be taken out, or the warranty on the electrical system is up.

Therefore, when the fuel pump causes changes in the electrical system, it can have hidden consequences. As with other electrical devices, when a new component is added, it can disrupt the pattern, and lead to serious consequences. When you make use of electric vehicle conversions, you will not need to worry about disrupting the electrical harness or the engine sensors. In fact, you will no longer need to worry about an engine block at all. Instead, your vehicle will run on a nice, quiet electrical motor that requires very little in the way of maintenance.

The Best Cars for Electric Fuel Conversions

If you buy a used car, you will always worry about repairs if you do not take steps to change the engine, transmission, and fuel pump. That said, if another used car is in better shape than the one you have now, you can always see about getting an electric car conversion in the near future. At the very least, you can have peace of mind knowing that you will get many years of trouble free driving out of it.

People that own cars today do not realize they could have a financial time bomb sitting on their hands. Regardless of whether the fuel pump dies in the middle of traffic, or the engine gaskets blows, it will cost you to have the vehicle repaired. When you are under pressure to get your car back as quickly as possible, you will most likely go on paying bigger repair bills, rather than evaluate the expanded benefits associated with electric vehicle conversions. Take the time now to evaluate your financial commitment to owning a petrol car. Switching to all electric is easier than you realize.

Today, electric vehicle conversions are available right here in Australia. You can easily extend the life of your current vehicle, and help do your part in providing for a cleaner more sustainable future, especially in your part of the world. When it comes right down to it, if you own a car or two, the best thing you can do is look into electric vehicle conversions today.

Electric Vehicle Connectors

Green is no longer just a color; it’s a movement rooted in environmentalism and sustainability. As people around the world have realized that we need to protect the planet if we want it to stay healthy and beautiful for future generations, more and more products have entered the market to push the green movement forward. Electric cars are one of those developments, giving consumers the choice to be more environmentally friendly in their everyday transportation. Although most Americans own and use gas-powered cars, electric vehicles are growing in popularity and as their technology progresses, they will become even more convenient and appreciated. Electric vehicle connectors are an integral part of this new form of transportation; the cars need them to power up. But before we get into specifics, let’s look at the basics of electric vehicles.

Electric vehicles are a type of automobile that uses one or more electric motors or traction motors for propulsion. Unlike gas-powered cars, they are fueled by electricity, which can come from a variety of sources (fossil fuels and nuclear power, but also renewable sources like tidal, solar, and wind power). They require less maintenance because they don’t have as many parts as traditional vehicles, and they offer tax benefits. Electric vehicles are also easy to charge at home, run on renewable energy, and emit no pollution from their tailpipes. There are many benefits to owning an electric car, but like most things, they come with disadvantages too. Electric vehicles can take several hours to charge and aren’t able to last on long road trips. They will also increase the demand for electricity and there are very few models currently available.

Charging up an electric vehicle is easy, but it will require some patience. The most convenient (but also expensive) option would be to purchase a charging station for home use. If you charge your car overnight, it will always be ready for the morning commute.

To make the process of charging an electric car more convenient, national societies and commissions work together to establish industry standards for electric vehicle connectors. The common connector for the United States is the J1772 combo plug, which was chosen by the Society of Automotive Engineers. It allows for AC and DC charging, is 43mm in diameter, and contains five pins. Designed for single phase electrical systems with 120 V or 240 V, electric vehicle connectors use a 1 kHz square wave at +/- 12 volts on the pilot pin (to detect the vehicle, communicate the maximum allowable current, and control the charging process). These connectors will often be located outside, so it is important that they are able to withstand environmental concerns like wind, rain, and heat. They are also equipped with many safety features like shock protection, connector pins located on the inside (so humans have no physical access), and pins that have zero voltage when not in use.

Technological advancements and growing popularity are helping consumers see electric vehicles as a viable alternative to their gas-guzzling automobiles, but it will take a while longer for them to truly compete. Right now, electric cars are just a great alternative for environmentally conscious drivers looking to make a change.