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.

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.

Natural Gas Vehicles Are Beating Out Electric Vehicles for Consumers Top Pick

Consumers have been selecting natural gas vehicles over electric vehicles at a rate of two to one. By year end there will be approximately 123,600 natural gas vehicles on our nation’s road as compared to 65,500 electric vehicles. Despite the lack of marketing or fueling infrastructure for natural gas, it is now the first choice among consumers looking to alternative ways to fuel their vehicles.

The drop in natural gas prices has helped fuel the demand; beating out the more heavily marketed and federally funded electric vehicles (EVs). Four years ago President Obama unveiled his vision of 1 million plug-in vehicles on U.S. roads by the 2015 and pumped $5 billion into funding for electric cars. In February the Obama admiration proposed the tax credit for plug-in vehicle be increased from $7,500 to $10,000 and also extend the credit to other alternative vehicles like natural gas.

In response to the higher demand from motorist, Honda began showing it’s Honda Civic GX natural gas vehicle in car showrooms across the country, where previously it had only been marketed as a fleet vehicle. It is currently the only NGV sedan on the market. Honda says the marketing is paying off big for them, and sales of the vehicle are continuing to break new monthly highs. Although the choices are few for compressed natural gas (CNG) vehicles, it should be pointed out that conventional gasoline and diesel vehicles can be retrofitted for CNG. If natural gas is available at your home you can install a pumping station inside your garage.

CNG is safe or at least safer than gasoline, Although CNG is flammable, it has a narrow flammability range, and if released by accident it quickly disperses making it less likely to ignite than gasoline. CNG is also non-toxic, it dissipates when released and will not leak to contaminate soil and water supplies.

The natural gas used in vehicles is classified into two types compressed natural gas (CNG) and liquefied natural gas(LNG). According to fueleconomy.gov “eighty-seven percent of the natural gas consumed in the U.S.is also produced here; which greatly reduces are dependency on foreign imports. It is 60%-90% less polluting than traditional fuels. With 30%-40% less greenhouse gas emissions and is less expensive than gasoline. At the present time the main disadvantages of CNG vehicles is the lack of facilities available to pump the gas, fewer miles to the tank and few choice available by auto makers.

All gas vehicles depend on fossil fuel. The natural gas obtained from drilling is a fossil fuel and while no fossil fuels are considered to be renewable resources because of the millions of years needed for the earth to produce them; natural gas is primarily methane and methane gas can be produced as a renewable resource. Methane gas is currently being collected from landfills and produced from rotting vegetation and animal manure.

CNG vehicles are cheaper to operate than conventional vehicles and burn cleaner than gasoline vehicles. Electric vehicles running on electricity alone put out “0” emissions at the tail pipe, but the electricity providing that power is generated at power plants running off fossil fuels. The U.S. Department of Energy states that “PHEVs (plugin hybrid electric vehicles) and EVs (electric vehicles) typically have a well-to-wheel emissions advantage over similar conventional vehicles running on gasoline or diesel.

However, in communities that depend heavily on conventional fossil fuels for their electricity generation, PEVs (Plugin Electric Vehicles) may not demonstrate a well-to-wheel emissions benefit.”

The switch from diesel to CNG is the larger trend for cities and municipalities across the country. The U.S Department of Transportation provides grants for upgrading mass transit and many cities are already using those dollars to advance their fleets over to CNG vehicles.

The future for NGV remains uncertain; although the advantages seem clear, reduce dependency on foreign oil, cleaner energy for the environment, lower cost to fuel. The largest drawback is the lack of infrastructure for refueling. As government agencies along with private fleet owned vehicles begin to convert vehicles from gasoline to NGV the private sector will also begin to benefit from their expansion. Improvements in refueling technology and engine performance will also soon follow. It will likely be the consumers, who ultimately decide our next energy of choice.