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.

The Pros And Cons Of Electric Vehicles

We have all at some time seen (and probably travelled in) trains, trams, buses and boats that are powered by electricity. What is perhaps less well known is that the first battery powered vehicles were on the market in the early 1900’s. These electrified carriages had a top speed of around 14 miles per hour and a range of about 18 miles. These automobiles remained popular until the development of the internal combustion engine, which made possible vehicles of greater power, speed and range.

The issue of global warming due to pollution has become a hot issue. Oil prices have been escalating like never before. These factors, together with the realization that the earth’s reserves of oil will run out within the next few decades, have led to renewed interest and research into electric vehicles. These vehicles have several major advantages over gasoline powered vehicles.

The motors that power these vehicles emit no noxious exhaust gases. This is good news for the environment which currently absorbs millions of tons of exhaust fumes daily. These carbon dioxide emissions are seen as contributing significantly to global warming, while other exhaust gases increasingly pollute our air.

Electricity is cheaper than gasoline, so battery powered cars are cheaper to run. They will become more economically viable as the price of crude oil continues to escalate. It has been estimated that the energy required to run an electric car is approximately one fifth that required to run a gasoline powered car. This gap will widen as the oil price continues to rise.

Battery powered cars require less maintenance. They do not need regular oil changes and are not subject to the same wear and tear as internal combustion engines. In addition they have far fewer moving parts that need to be maintained.

The major disadvantage at this stage is the limited range made possible by current battery technology. Battery powered cars typically have a range of around one or two hundred miles before needing to be recharged, and a typical charge takes several hours. As with any rechargeable battery, the car’s batteries have a finite number of charge/discharge cycles and in time will need replacement.

Electric cars are still very expensive, due mainly to the high cost of batteries. Surveys have revealed that US and English consumers are not willing to pay more for an electric car with limited range, and this inhibits the mass transition from gasoline to battery powered cars. However, as battery technology improves we can expect to see more battery powered vehicles on the road. Mass production will result in lower prices.

Both gasoline and electric cars have advantages and disadvantages. It is, however, becoming very clear that our current rate of oil consumption is not sustainable (in terms of cost, availability and pollution) and that sooner rather than later we will have to find a viable alternative. Right now, electrically powered vehicles offer the only alternative.

Hybrid Electric Vehicle is Going to Be the New Trend of Auto Industry

Nowadays, scientists all over the world are more and more concerning the safety and environmental protection of the car. In order to achieve the sustainable development of the human society and auto industry, all the countries are trying to research different kinds of new technologies to improve the harmony between automobile and environment, especially the developed countries. It is no doubt that electric vehicle is going to be the main development direction of auto industry, which has transited from the experimental stage to test run stage. To guide the trend of world auto technology, many famous auto manufacturers are bringing out new concept vehicles which are safe, environmental protected and with high technical level.

Let us get to know about the characteristics and development of different kinds of automobiles. According to the different kinds of power supply, the automobiles can be divided into three kinds, namely, battery electric vehicle, fuel cell electric vehicle and hybrid electric vehicle.

The battery one merely relies on the battery to supply the power, however, the performance and price of the batteries can not make a breakthrough at the present time. The development of this device does not achieve the intended goal.

The fuel cell one has the advantages of high energy conversion rate, environmental protection and long service life, however, the development of this device is limited by the poor advancement of fuel cell research.

Then it comes to hybrid one which uses the electrical motor and engine to be the power unit. This kind of automobile can implement the low energy consumption, low pollution and high degree of automation through the coordination of the two inner devices. The automobile manufacturers all over the world have turned the emphasis to the development and research of hybrid electric vehicle since 1995. The enterprises in Japan, America and Germany have developed different kinds of hybrid electric vehicle includes car, minibus, truck and so on.

Take a Japan auto Company for example, which is always at the leading edge of this kind of automobile research. The level of its hybrid electric vehicle research has reached a practical level. It brought out the first mass production hybrid electric vehicle in 1997. Then, the minibus was brought out, which adopted the integrated system from the first production. To get better fuel efficiency and lower pollution, the Japan auto Company plan to apply the hybrid electric engine to the whole production in 2012. The related integrated circuit of hybrid electric vehicle is TLP869

What is an Electric Vehicle Conversion Specialist

Electric vehicle conversion refers to the modification of a conventional internal combustion engine or the ICR driven vehicle to one that is battery electric propulsion, thus creating a battery electric vehicle.

The career outlook for an Electric Vehicle Conversion Specialist is good. They make on average $39-$59 thousand a year. Electric vehicles are quickly becoming a mainstay in the auto arena.

Many major automobile manufacturers in the US have started performing ICE conversions, but due to lack of consumer demand, the programs had been terminated. However, a few re-builders specializing in electric car conversion have started offering new or remanufactured conversion to satisfy the limited demand. One major reason for the rather low demand is the high price of completed vehicles, which can double the price of a comparable ICE vehicle.

Why It’s Green

People who have owned and used electric vehicles points out that the ranges of these cars are adequate, and that it is more convenient to simply plug the car for charging rather than driving to get some gas. Aside from these, electric vehicles are also quiet if not totally silent and they are non-polluting because they use renewable energy rather than gas, which produces air pollutants.

Professional and Personal Qualities

Generally, people without experience or modest knowledge in mechanics and electrical devices should not attempt to maintain or operate a ‘home made’ electric vehicle.

A career as Electric Vehicle Conversion Specialist is hard to come by in most states due to the lack of demand for electric vehicles. But in some places, and where companies manufacture electric vehicles, an electric car conversion specialist may be highly demanded.

Skills and Trainings

If you are planning to become an electric vehicle conversion specialist, you need a wide range of skills to be able to perform your duties. For instance, you’d need to have knowledge on automobile surveying and be able to identify problems in potential conversion vehicles. Such skill will be required to identify and purchase a good used ICE vehicle and will come handy especially when the conversion is done by another builder.

Aside from that, basic mechanics knowledge is also required as a builder should be able to manufacture small brackets for mounting sensors, switches and relays. Some other required skills and training for would-be electric car conversion specialists should include machine shop skills, welding, automotive mechanics, basic electric skills, as well as basic electronic skills.