As previously established, the Active Trace Control, Active Engine Braking, and Active Ride Control components of Nissan Chassis Control are three distinct Nissan technologies.
Nissan Chassis Control integrates your steering, accelerating, and braking inputs with vehicle data like wheel speed, G-forces, yaw rate, and driving force into one continuous data stream that is sent to your car’s computer.
The ECU of your car then orchestrates hundreds of times per second the usage of the brakes, engine, and CVT in a seamless symphony to enhance cornering, braking, and comfort perception.
In This Article...
Chassis Control: What Is It?
The system that regulates suspension, steering, and brakes while driving is known as chassis control.
Your car’s chassis control is a crucial component, and thanks to recent advancements in computer technology, it has gone a long way.
Electronic Stability Control, a technology in the chassis control that aids in maintaining course when steering, is now a standard equipment in many cars.
People can feel more at ease keeping in their lane thanks to chassis control systems and contemporary technology without having to constantly alter the car’s direction.
Complete control – Have faith in Active Chassis control updated chassis control
For daily driving, an automobile needs suspension, steering, and brakes. The chassis is the aggregate name for these parts or systems. Since the invention of the car, the technology that controls the chassis has advanced significantly. By electronically managing the chassis and enabling the adoption of systems like Electronic Stability Control, computer technology has significantly increased safety and reliability.
Nissan aimed to advance the technology behind chassis control by including more chassis controls in order to provide a more enjoyable, secure, and comfortable driving experience. The New Chassis Control, developed by Nissan, consists of the following three technologies.
This technology can increase driver comfort and confidence when traveling over uneven terrain by adjusting the engine (drive force) and brakes.
By boosting engine braking and easing the driver’s workload when cornering or braking, this technology aids drivers.
Reduced speed is required when turning or coming to a stop. Vehicles using an Active Engine Brake system measure steering and braking inputs in addition to vehicle speed. The technology then automatically modifies the amount of engine braking based on these measures, reducing the amount of time and effort the driver must use to slow the car down. As a result, it may need the driver to apply the brakes less frequently, making for a less stressful driving experience.
By adjusting the braking on each of the four wheels in response to the driving conditions, based on the driver’s steering, acceleration, and braking on winding roads or when entering or leaving an expressway, this technology helps the driver feel more secure when cornering. This can assist in giving the driver a more advantageous line through a turn.
The X-Trail is equipped with three active chassis controls, two of which (Active Ride Control and Active Engine Brake) are first-of-their-kind features in the world and enable a smooth performance and secure driving experience.
What does Nissan Rogue 2019 chassis control mean?
The suspension, steering, and braking systems, among other systems, make up the vehicle’s chassis. With the launch of the New Chassis Control system, Nissan’s heritage of being a chassis design innovator continues.
The technologies that regulate the chassis systems are known as the chassis controls, and Nissan has significantly advanced this technology with this launch. Three cutting-edge technologies are included in the Chassis Control, which is an option on a number of new Nissan vehicles: Intelligent Ride Control, Intelligent Engine Brake, and Intelligent Trace Control. The three technologies provide drivers with a variety of advantages, including increased safety and more secure traction and handling.
Naples Nissan wants to emphasize each of these new technologies, their advantages, and how they function in order to better assist you comprehend everything the New Chassis Control has to offer.
What is the purpose of dynamic chassis control?
An revolutionary feature called Dynamic Chassis Control (DCC) lets you select your driving preference by pressing a button on the center console. There are three options available: Normal, Sport, and Comfort.
The system controls the electrically controlled dampers and steering for each mode. For instance, the dampers are stiffer and the steering feel is increased in Sport mode. This offers a driving sensation similar to that of a quick sports car.
Additionally, the damping adjusts to the specific road conditions. Each shock absorber is coupled to a control, which uses sensor data and other data from the steering, braking, engine, gearbox, and driver assistance systems to determine the best setting for each wheel. This enables the DCC to continuously respond (up to a thousand times per second) to road imperfections including potholes, lane changes, and curves. This minimizes pitch and roll motion and offers the best settings for each driving circumstance.
Active chassis control: what is it?
Adjustable driving characteristics are made possible by the active chassis “Four-C” (Continuously Controlled Chassis Concept), which controls the shock absorber’s properties. Three settings are available: Advanced, Sport, and Comfort
What does the Nissan Rogue’s Trace Control do?
Intelligent Trace Control recognizes when the vehicle is veering off the steered path based on data obtained from the VDC system. After that, the system gently and smoothly brakes each individual wheel to aid in bringing the car back to the proper cornering line.
Nissan ProPILOT assist: what is it?
ProPILOT Assist is a hands-on driver assistance system that combines Intelligent Cruise Control and Steering Assist technologies from Nissan. It has a stop and hold capability that can completely stop the car, hold it in place, and resume speed when the traffic picks up speed.
Nissan Pure Drive technology: what is it?
By a product specialist Posted at 10:00 am on Saturday, October 10th, 2015 in Features & Technology, Fuel Economy
One automaker attempting to lower CO2 emissions is Nissan. The Nissan Leaf is a fantastic illustration of the work they’ve done. You may also be familiar with Nissan Pure Drive, which is another instance of Nissan taking the initiative to reduce emissions from its model lineup. Even if you have heard of Pure Drive, you might not be familiar with its full definition. What exactly is Nissan Pure Drive, then? To help you understand the effectiveness of Nissan vehicles, we’ll explain what the Pure Drive logo is and what it signifies.
Nissan vehicles with the Pure Drive logo are those that are specifically made to emit less CO2. Pure Drive technology increases fuel economy while also reducing pollution. Reduced energy loss, efficient engine running, the use of superchargers, and other factors are all combined in Pure Drive. One feature present on some Pure Drive vehicles is a stop/start system, which turns the engine off when the car comes to a halt. These versions also include additional features including an ECO pedal and an ECO mode. Although Nissan is constantly working to improve these kinds of technology, it is a positive step.
For the time being, we have a remarkable selection of vehicles using effective technology like those mentioned above, lowering the pollution each vehicle emits while still offering excellent fuel efficiency ratings. Nissan does not always have Pure Drive automobiles.
The chassis control system error means what?
NOTE: If the warning notice “Chassis Control System Error” displays in the vehicle information display, it means the active ride control, active engine brake, or active trace control systems have all experienced a malfunction.
What does the BMW chassis do?
A car’s chassis is comparable to the human body’s skeleton. Any car’s foundation structure, commonly referred to as its “Frame,” supports it from underneath and is called the “Chassis.” The chassis’s job is to support the weight of the vehicle both at rest and in motion. Given that, many individuals may not give the chassis of their cars as much thought as they should. However, knowing something about chassis can be useful in figuring out your car’s capabilities. The top four chassis types are shown below.
What does “chassis” in a BMW mean?
Each automaker gives their models a unique internal code to identify them. These are referred to as BMW’s “chassis codes” and “engine codes.” These coding schemes prevent confusion and keep planning and development structured. BMW chassis and bodywork are identified by their E, F, G, or U codes, whilst BMW engines are identified by their M, N, B, S, P, or W codes.
Nissan Intelligent Lane Intervention: What Is It?
Intelligent lane-keeping aids help drivers avoid lane departure. The system plays a warning chime and shows an alert on the dashboard if there is a possibility of leaving the driving lane*. By using the brakes, the technology also helps the driver stay in the driving lane.
Describe BMW chassis.
What do the BMW chassis codes mean? Most likely, you’ve seen it on our website in application instructions or diagrams from RealOEM or BimmerCat.
When certain replacement parts are only made for a particular chassis or body type, the BMW chassis code, also known as the BMW manufacturer code or BMW model code, can tell you a lot about your individual BMW. There are some model years that might occasionally overlap. For instance, in 1999, both the E36 and E46 3 series were available on the market at the same time. On these kinds of splits, knowing your specific chassis code is crucial when selecting new components.
Historically, the first letter of the BMW chassis codes has always been “E,” which stands for the German word for development, Entwicklung. These were referred to for a while as “BMW E Codes.” BMW gradually replaced “E codes” with codes that begin with “F,” and they are currently using “G.”
With the final seven digits of the VIN, you can quickly find your chassis code on RealOEM if you don’t know it. You’ll receive the essential details here, including the chassis code, engine, manufacturing code, and manufacture date. We suggest using bimmercat for further car details because it will provide you with more details, installed factory equipment, and practical parts diagrams. When choosing parts that fit automobiles with certain option codes, this is a particularly helpful tool.
The BMW chassis code charts included here cover every model that was sold in the US from 1965 until the present day.