Much of the talk surrounding electric vehicles centers on topics like charging and costs. These are unquestionably important issues to sort through. But we are discussing automobiles, after all. So, shouldnāt we also be asking, āWhatās an EV like to drive?ā
Itās an important question, not just for the curious car aficionados, but for all EV owners. The mechanical and design components of these green vehicles make for a driving experience that gas-powered car owners may not be accustomed to.
With that in mind, here are some of the most notable performance features unique to EVs.
Instant Torque
Any notion that EVs are slow cars will be quickly erased once you step on the accelerator. Their performance capabilities will be noticeable from the get-go. Generally, EVs accelerate faster than similar gas-powered cars.
Opposed to internal combustion engines, which require a progressive buildup to reach full power, electric motors produce peak torque instantaneously. The result is a quick acceleration new EV drivers might find jolting. Tesla claims its Model S, for example, goes from 0 to 60 in just 1.99 seconds, more than 2 seconds faster than the sporty, gas-powered Porsche 911. This zippiness isnāt limited to high-end cars. The Nissan Leaf is the most affordable mass-produced EV and boasts a respectable sub-7.00 second 0 to 60 rate.
Regenerative Braking
The EV performance feature that new owners may find most jarring initially is regenerative braking. The system is best explained by first looking at how conventional braking works. When a driver steps on the brake pedal, the brake discs and brake pads create friction to slow the wheelās movement. The friction creates kinetic energy, which turns into heat and dissipates into the air. That kinetic energy isnāt wasted in regenerative braking. Instead, the system recovers some of that energy and converts it into electricity used to help recharge the battery.
Regenerative braking significantly enhances an EVās efficiency, but it also creates a unique driving experience new owners will have to get accustomed to. In order to capture as much energy as possible, the system initially kicks in as soon as the driver releases the acceleration pedal. Instead of coasting, the system automatically begins to apply the brakes, causing the car to begin slowing down slightly even without the brake pedal engaged. This can be discerning at first and may take some getting used to.
On the other hand, drivers will likely be pressing down on the brake pedal less often, which will reduce wear and tear to the brakes themselves. Regenerative braking technology is continually improving, with newer EV models boasting more seamless braking systems.
Low Center of Gravity
Most EVs have their battery packs located at the bottom of the vehicle. This extra weight creates a low center of gravity, a feature that gives EVs several performance and safety advantages.
A low center of gravity improves the vehicleās stability and handling. This makes it easier to navigate tight turns, for example. Having a high percentage of the carās total weight concentrated at the bottom of the vehicle also reduces the likelihood of the vehicle rolling over.
No Engine Noise
One of the first things youāll notice when you get your EV on the road is whatās missing: noise.
Because they do not have internal combustion engines, EVs donāt emit any engine or exhaust noise. The vehicles do make some sound, from their tires and wind drag, but overall make for a particularly quiet ride.
While a silent drive has its perks, it can also create a safety hazard. Sound is often the first thing that alerts pedestrians, bicyclists and other road users of an oncoming car. To mitigate this danger, the federal government has begun requiring EV manufacturers to outfit their vehicles with noise-making devices. The āQuiet Carā rule calls for EVs to emit noise when they are traveling at low speeds or in reverse.
Visit AAAās Electric Vehicle platform for more information on these cars of the future.