What is adaptive ride control?

As the automotive industry continues to enhance drivability and make the ride more comfortable, suspension technology is key to accomplishing this. Suspension systems have been equipped with classic coil spring and shock absorber set-ups for a long time. Conventional leaf and coil spring systems evolved into innovative air suspension systems, and regular hydraulic shock absorbers evolved to highly advanced adaptive damping systems (that can be matched with both coil and air suspension systems). These innovations optimized the ride and handling for different driving conditions. In this article, Arnott will explain how adaptive damping systems operate, providing a better understanding of how this suspension technology works.

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System Components
A typical modern Adaptive Ride Control system contains the following components: adaptive dampers, an Electronic Control Unit (ECU), a sensor set, and a driver preference switch. The sensor set is typically a combination of accelerometers that are located on the body, and position sensors located near the suspension at all four corners of the vehicle. Most vehicles with an adaptive damping system feature a driver preference switch. This is a button on the dashboard that allows the driver to select a preferred driving mode such as comfort or sport.

In this technical newsletter, the &#;adaptive damper&#; can be any electronically controlled adjustable damper (including Magnetic Ride) since the basic operating principles for the system are the same.

System Operation
Adaptive damping systems began by using variable dampers with two or more discrete settings. The more modern adaptive systems use &#;continuously variable&#; dampers instead. The working principle between (older) discrete setting and (modern) continuously variable dampers is essentially the same. The difference is that in a discrete setting shock the valve is ON/OFF (fully open or fully closed), whereas a continuously variable valve allows the damper setting to be adjusted to any value between pre-established firm and soft setting limits.

The Ride Control ECU is the brain of an adaptive damping system. The ECU is connected to sensors located on the body and the suspension at all four corners of the vehicle. Additionally, the ECU is also connected to the vehicle&#;s main data bus to get inputs including vehicle speed, throttle position, steering angle, transmission, and brake applications and others.

The ECU receives these different data streams and uses them as inputs to an algorithm which continuously calculates the magnitude and direction of the vehicle&#;s body motions in heave, pitch, roll, and yaw as well as the motion of each wheel relative to the vehicle body. The motion calculation results are then used to determine the damping force required at each individual corner of the vehicle to provide the desired ride and handling characteristics &#; as defined by the algorithm and the position of the driver preference switch.

Once the ideal damping force has been calculated, the ECU provides the appropriate amount of electrical current to each damper to obtain the desired damping characteristics. This entire process occurs in milliseconds &#; more than fast enough to react to almost any road input!

Except for the Magnetic Ride systems, the damping force of adaptive dampers are controlled in more or less the same way. If you would like to know more on the system operation of Magnetic Ride, you can read more here. The firm and soft damping force limits of adaptive dampers are controlled by shim stacks installed in separate flow passages within the damper. The damping force adjustment is typically achieved by opening or closing a fluid flow control valve to regulate the amount of fluid flowing through each flow passage. 

For example, if a softer damping characteristic is needed in a continuously variable adaptive damper, the flow control valve will adjust so that more fluid will flow within the damper will pass through the shim stack which defines the soft setting, and less fluid will flow through the passage containing the firm valve stack.

Arnott eRide Technology
The Arnott eRide R&D team in the US focuses on a perfect collaboration with the continuously variable Ride Control systems currently being used by the different car manufacturers. Getting it right is quite a delicate process because electronic control strategy and the execution of that strategy is a combination of car manufacturer&#;s requirements and supplier offerings. The reality is that every ECU design works a little differently and the algorithms can be significantly different &#; even if the same shock design is being used.

To design and implement such technology for the aftermarket, it was crucial for Arnott to make the eRide valve design functional and working in compliance with the variety of ECU set ups and valve designs. For example, the switching speed &#; which is the reaction time to switch between damper settings &#; can vary greatly. A change made for the switching speed for a particular application may work as improvement for a specific model but could actually cause performance issues for other vehicle applications. The Arnott eRide technology can be used to replace any continuously variable shock with an internal valve. Other valves with alternative designs are currently in development and Arnott will release the eRide solutions for these at a later stage.

The company is the world’s best what is adaptive ride control supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.

The continuous commitment and hard work of all the teams has led to a valve design that allows Arnott to match or exceed OE ride and handling in all the various applications!

1. First, locate the Ride Height Controls in your vehicle.

a. Some models will have a selector knob and a button, while others will have separate buttons for raising and lowering the vehicle or a dial located on the center console.

2. To use the Ride Height Controls:

a. On models with a selector knob, press the button on the knob to open the Ride Height menu in your Driver Information Center (DIC). Turn the knob to the right or left to highlight a ride height, and press the button to select it.

b. If your vehicle has separate buttons for raising or lowering the vehicle, press either of those buttons to open the menu, then use them to select the desired ride height.

3. Depending on your vehicle, you can select the following available ride heights:

a. Entry/Exit Height: Lowers your vehicle to make it easier to get in and out of.

b. Normal Height

c. Increased Ground Clearance: Higher than Normal Height. On most vehicles, if you select Off-Road or Terrain Mode using the Driver Mode Selector, your vehicle will automatically raise to this height.

i. Available on all 4WD vehicles with Air Ride Adaptive Suspension.

d. Maximum Ground Clearance: 2 inches higher than Normal Height (full-size SUVs only)

i. Available on 4WD vehicles with 4LOW except the GMC HUMMER EV. Maximum Ground Clearance is only available in 4LOW mode.

e. Lowered Ground Clearance:

i. Available on select full-size SUV models, this height lowers the vehicle for better handling and performance. When selected, the vehicle will maintain this height at all speeds. This height is automatically enabled when V-Mode is enabled.

f. Extract Mode: Only available on GMC HUMMER EV models. See Extract Mode for more information

 i. To activate Extract Mode, select Terrain Mode using the Driver Mode Control rotational dial. Then, press the top button until you see Extract Mode activate in the Ride Height menu. If you are starting at Normal Mode height, you will need to press the button several times.

ii. To disengage Extract Mode, select a lower height using the Ride Height Controls.

iii. It is recommended you only use this mode in extreme off-roading situations. Extract Mode limits your vehicle to slow &#;crawl&#; speeds, so keep that in mind when engaging.

iv. https://www.gmc.com/dos-template-library/search-results/content-display.html?documentId=CSP101

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