Electric Car Safety Systems

Make sure you drive your electric car safely on the road by understanding the common safety features.

Driving an electric car comes with many benefits, including lower operating costs and a smaller carbon footprint. However, it’s important to understand the safety systems in your vehicle and how to handle emergency situations. 

Advanced driver assistance systems

Advanced Driver Assistance Systems (ADAS) are a set of technologies designed to enhance the safety and comfort of drivers on the road. They use a combination of sensors, cameras, and software algorithms to monitor the road, identify potential hazards, and provide assistance to the driver in real time. These systems have been shown to significantly reduce the number of accidents and improve driving safety. 

Lane Departure

A Lane Departure Warning System (LDWS) is a safety feature that alerts the driver when their vehicle is about to depart from its lane. This system is designed to help prevent accidents caused by driver fatigue, distraction, or inattention.

It uses cameras or sensors to detect road markings and track the position of the vehicle. When the vehicle begins to drift out of its lane without the turn signal being activated, the LDWS will provide an audible and/or visual alert to the driver. The aim is to remind the driver to stay within their lane.

Some systems are also equipped with Lane Keeping Assistance (LKA) which can actively steer the vehicle which can help when the driver is drowsy. It can be found in many modern vehicles as a standard or optional feature. Some luxury vehicles even come equipped with a more advanced version of the system, known as Lane Centering Assistance (LCA), which actively centres the vehicle within the lane.

Collision detection systems

Collision avoidance systems are advanced safety features found in modern vehicles that are designed to help drivers avoid or mitigate the effects of a potential collision. These systems typically use a combination of cameras, radar, and sensors to detect other vehicles, pedestrians, or obstacles in the road, and provide the driver with visual or auditory warnings when a potential collision is detected.

One of the key features of a collision detection system is its ability to detect the proximity of other vehicles and objects. These sensors work together to build a “picture” of the vehicle’s surroundings and detect any potential hazards on the road.

If a potential collision is detected, the system will provide a warning to the driver. A visual display in the instrument cluster and or an auditory alert or a vibration in the steering wheel. The system may even take control of the vehicle’s brakes to slow it down or bring it to a stop to avoid a collision improving the safety of passengers and other road users or pedestrians. 

Blind Spot Monitoring

Blind Spot Monitoring is a safety feature that helps drivers detect vehicles in their blind spot, increasing overall visibility and reducing the risk of accidents. The system uses sensors, typically mounted near the rear of the vehicle, to detect other vehicles in the driver’s blind spot. If a car is detected in the blind spot, the driver is warned through an alert, such as a flashing light or a chime.

Blind Spot Monitoring can be particularly useful for drivers in heavy traffic, on highways, and when changing lanes. The system can detect vehicles that are not visible to the driver, including motorcycles, bicycles, and other smaller vehicles. By providing drivers with an extra layer of awareness, Blind Spot Monitoring can help prevent accidents and reduce the risk of collisions.

It’s important to note that while Blind Spot Monitoring is a helpful tool, it is not a substitute for proper driving techniques. Drivers should still use their mirrors and look over their shoulders to check their blind spots before changing lanes or merging into traffic. 

Automatic emergency braking

Automatic Emergency Braking (AEB) is a cutting-edge driver assistance technology aimed at preventing or minimizing the impact of a potential collision. It uses a combination of cameras, radar, or both, to monitor the road ahead and detect any potential hazards.

In case of an impending collision, the AEB system quickly takes action by automatically applying the brakes, slowing down or stopping the vehicle as necessary. This extra layer of safety is especially important in situations where the driver may be distracted, drowsy, or simply unable to react in time to prevent an accident.

By reducing the severity of an impact or even avoiding a collision altogether, AEB systems help to keep both the vehicle occupants and other road users safer on the road. There are various types of AEB systems available, including forward collision warning, automatic emergency braking and pedestrian detection.

Forward collision warning alerts the driver if the vehicle is in danger of colliding with another vehicle or obstacle, while automatic emergency braking applies the brakes automatically. Pedestrian detection systems are specifically designed to identify and respond to pedestrians, even in low-light conditions. So, whether you’re driving in heavy traffic or on a quiet suburban street, AEB systems provide an added level of protection for you and those around you.

Adaptive cruise control

Adaptive Cruise Control (ACC) is a game changer for drivers who frequently hit the highway. It’s an innovative feature that helps drivers maintain a safe and comfortable speed on the road. With ACC, you no longer have to manually adjust your speed to keep a safe distance from the vehicle in front of you. This feature uses radar or laser sensors to detect the speed and distance of other vehicles on the road, ensuring a safer and more relaxed driving experience.

ACC automatically adjusts the vehicle’s speed to maintain a safe following distance, so you can sit back and enjoy your drive. When the sensors detect a slower vehicle ahead, the system will slow down the vehicle to keep a safe following distance. Once the slower vehicle moves out of the way, the ACC will automatically accelerate back to the pre-set speed that you selected.

Not only does ACC make highway driving a breeze, but it also works in conjunction with other advanced driver assistance systems such as lane departure warning and collision detection systems. These systems work together to help prevent accidents and keep drivers and passengers safe. So, whether you’re travelling for business or leisure, ACC ensures a comfortable and stress-free driving experience.

Rear-view camera

Rear-view cameras provide drivers with a helpful and practical solution to improve visibility while reversing. This innovative technology captures images behind the vehicle and displays them on a screen in the cabin. The rear-view camera system is easy to use and is activated simply by shifting into reverse gear. The clear images captured by the camera can help drivers detect obstacles, pedestrians, or other vehicles in their path and make reversing much safer, especially in tight or poorly lit spaces.

Not only do these benefit drivers, but it also provides peace of mind for passengers, particularly for young children and elderly passengers seated in the rear of the vehicle. Rear-view cameras reduce the risk of accidents and injuries when entering or exiting the vehicle, making them a highly valuable safety feature for all vehicle occupants.

Self-driving cars

Self-driving cars, also known as autonomous vehicles, are vehicles equipped with advanced technology such as sensors, cameras, and artificial intelligence that allow them to navigate and drive without human intervention. The onboard computer processes data collected from the surroundings, making real-time driving decisions based on machine learning algorithms.

Self-driving cars offer many benefits, including increased safety and efficiency. With advanced driver assistance systems, they can prevent accidents and reduce traffic congestion. They also offer the potential to revolutionize transportation, offering more convenient and efficient travel options.

However, there are still challenges to overcome, including ensuring the technology is safe and reliable, addressing privacy and cybersecurity concerns, and navigating regulatory and legal issues. Despite these challenges, the potential benefits of self-driving cars make them an exciting development in the world of transportation.

Forward Collision Warning

Forward Collision Warning (FCW) is a cool safety feature that you might find to help you avoid or lessen the impact of a potential front-end collision.

FCW uses sensors like radar, cameras, or laser technology to keep an eye on the road ahead and detect anything that might be in your way, like other vehicles, pedestrians, and cyclists. If the system sees a potential risk, it will send you an alert like a beep, a visual display on your dashboard.

FCW is not a self-driving technology and the driver is still responsible for avoiding a collision. If you ignore the warning and a collision looks imminent, the system may automatically apply the brakes to slow down your vehicle or even bring it to a complete stop to help prevent or minimize the impact.