The Basic Technical Specification Of RC Electric Vehicles Simplified For Beginners

When you are browsing RC automobiles online and decide to check the details of an RC electric vehicle that you are interested in (let’s suppose it is an high speed on road racing car), this is what you will likely be presented with, if you are on a quality, customer-focussed website, that is:

– SP28404 brushless motor
– SP28405 brushless electronic speed control
– Anodized aluminium centre drive joint
– Compact front/rear differentials
– Suspension arms with adjustable Width
– Anodized aluminium radio tray
– Solid shock towers and front/rear bumper
– High quality on-road tires with chrome sprayed rims
– 7.2v 1100mah Ni-Mh battery power required
– 7.2v 1500mah Ni-Mh battery or 7.4v 1300mah lithium battery pack is optional
– Anodized aluminium motor heat guard
– High duty front bumper foam provides
– Vehicle length: 265 mm
– Vehicle Width: 140 mm
– Height: 80 mm
– Wheelbase: 174 mm
– Track Width: 77 mm (F/R)
– Gear Ratio: 10.6:1
– Ground Clearance: 8mm
– Net Weight: 790g
– Wheel Diameter: 49mm
– Wheel Width: 18mm

How do you make head or tail of this fairly detailed specification for your rc electric vehicle, without it resulting in your eyes glazing over? Help is at hand right here. Let us go through these features one by one and you will be overjoyed with enlightenment.

SP28404 brushless motor
This is the latest, more advanced, powerful type of motor, which is reflected in the overall (higher) starting price of the automobile in which it is fitted. The benefits to you are a potentially speedier, more dynamically efficient RC vehicle, with the added bonus that it should be simpler to maintain. RC automobiles with brushed motors however, are the classic, conventional types.

SP28405 brushless electronic speed control
The RC electric vehicle’s speed is regulated with an electronic speed controller (abbreviated to ESC). This is the component that controls the drive motor mentioned above, together with the general electronics. Most automobiles come integrated with the motor and ESC, but are separate purchases in the more enhanced set-ups.

Anodized aluminium centre drive joint
More commonly known as the RC electric vehicle’s drive shaft, this is the central rod that runs from the front to the rear of the automobile. Being made of aluminium makes it lighter without compromising on the vehicle’s overall stability and sturdiness.

Compact front/rear differentials
A differential is a device that in most cases incorporates gears and is designed to drive each pair of front and rear wheels with equal force, but still allows the wheels to rotate at different speeds. Differentials on good electric vehicles are high performance.

Suspension arms with adjustable Width
The suspension arms provide your RC vehicle with powerful cushioning, as in a conventional car. Being adjustable allows the vehicle to be driven at optimum suspension on different terrains, especially when running over bumpy or rocky ground and when turning corners.

Anodized aluminium radio tray
This is tray that houses the in-built radio receiver in your RC vehicle. Being anodized gives it increased corrosion and wear resistance, making it harder than bare aluminium.

Solid shock towers and front/rear bumper
Integrated with the suspension system, the shock towers provide a damping effect on the overall vehicle suspension.

High quality on-road tires with chrome sprayed rims
The specification for this RC electric vehicle relates to an on road racing car. The makeup of the tires is important here. It is like differentiating between a mountain bike, with its thick, knobbly, high-friction tires and a road bike, with its slimmer, low-friction tires and a less prominent tread. It all comes down to performance requirements on the terrain that the RC vehicle was designed/intended to run on. The chrome rims adds a splash of quicksilver that finishes off the wheels nicely.

7.2v 1100mAh Ni-Mh battery power (required), 7.2v 1500mah Ni-Mh battery or 7.4v 1300mah lithium battery pack (optional)
7.2-volt nickel cadmium batteries are standard power sources, often referred to as battery packs. Although they are identical in size, they differ in capacities ranging up to 3700mAh typically. As the battery pack is extra, it is advisable to go for the largest capacity that you can afford, if you desire more running time (the downside is that you’ll need more time to charge it up).

Anodized aluminium motor heat guard
Unsurprisingly, your RC electric vehicle’s motor will get very hot. The guard thankfully provides protection against heat, which results from high speed running.

High duty front bumper foam
As with conventional, real-world automobiles, the front foam bumper needs to deliver maximum protection to your RC vehicle against impacts.

Vehicle dimensions
Length, width, height, ground clearance, net weight, wheel diameter and wheel width are self-explanatory.
Your RC electric vehicle’s wheelbase will be the length from the leading edge of its front wheels to the trailing edge of its rear wheels.

Track
Track refers to track width, the distance between the center of the left tire and the center of the right tire.

Gear Ratio
This is the relationship between the numbers of teeth on two gears that are meshed or two sprockets connected with a common roller chain, or the circumferences of two pulleys connected with a drive belt.

So, there you have it. We’ve just covered some of the basic technical terms that you are likely to come across when you are enjoying your time shopping for your future RC electric vehicles. Whatever you do, don’t be fazed by these terms – think of it as an educational experience, a journey of discovery that is a part of your enjoyment of RC electric vehicles.

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.

Electrifying Facts on Electric Vehicle Conversion – All You Need to Know

Right now, with the gas at prices that we have never seen before, many people are looking for ways to cut down on gas consumption and there are some people who are looking at ways to avoid using gas at all. They are researching electric vehicle conversion which is converting a car or small truck to run on electricity instead of gas. There are many benefits to having vehicle that runs on just electric but an electric vehicle conversion is no simple task. The benefits for the vehicle are, smooth running, low maintenance, low vibration, economical, and totally convenient. An electric vehicle conversion is complicated. As well as no longer using gas the vehicle will no longer use oil, an exhaust, belts, hoses, water pump, coolant, radiator, spark plugs, plug wires, and injectors. So this is not a job that should be undertaken by an amateur.

If you are a mechanic who knows what they are doing, the electric vehicle conversion can be done in your own garage, with few specialist tools. The materials needed for the electric vehicle conversion is of course the electric motor, the motor mount, motor controller, speed controller, system control box, high current shunt, high current fuse, high current circuit breaker, current meter, voltmeter, clutch plate hub adapter, main battery bank, 12V battery charger, 6V golf cart batteries (common choice), battery rack, cable terminal lugs, along with a vacuum pump and switch kit for the brakes.

Other materials for the electric vehicle conversion will include any kind of framework that you would want to use to house the batteries that are needed to run the vehicle. Cars that are most commonly used used in electric vehicle conversion are the Chevy S10, Dodge Colt, Daytona Ford Escort, Porsche 914, Honda Civic, Mazda B2000 pickup, Datsun pickup, Plymouth Sundance, Pontiac Fiero, Suzuki Samurai, Toyota pickup, and Volkswagen Beetles.

The cost of the electric vehicle conversion will vary and depend greatly on the vehicle that is going to be converted. This can range from $6500 and $9500 dollars and that estimate does not include the cost of the vehicle itself.

Depending on the size of the vehicle and the number of batteries that are used in the conversion, the distance the vehicle can drive on one charge will vary accordingly. The general Chevy S10 which has 16 six-volt batteries and weighs a total of 3700 pounds, will go about 35 miles on a full charge. If you have more batteries on a lighter car, then you will be able to go much further on a single charge.

The weight of the vehicle will also factor on how fast the vehicle will be able to go. The lighter the car and more batteries, the faster it can go. Historically electrically converted cars were slow but now they can achieve speeds of 60 to 80 mph.

Deciding on whether this option is right for you really depends on your mileage, how long you intend to keep you vehicle, and of course your commitment to the environment. Hopefully i’ve sparked enough interest for you to want to find out more.