An active suspension is a type of automotive suspension on a vehicle. It uses an onboard system to control the vertical movement of the vehicle's wheels relative to the chassis or vehicle body rather than the passive suspension provided by large springs where the movement is determined entirely by the road surface. Active suspensions are divided into two classes: real active suspensions, and adaptive or semi-active suspensions. While semi-adaptive suspensions only vary shock absorber firmness to match changing road or dynamic conditions, active suspensions use some type of actuator to raise and lower the chassis independently at each wheel. These technologies allow car manufacturers to achieve a greater degree of

ride quality Ride quality refers to a vehicle's effectiveness in insulating the occupants from undulations in the road surface (e.g., bumps or corrugations). A vehicle with good ride quality provides a comfort for the driver and passengers. Importance Good r ...

and

car handling Automobile handling and vehicle handling are descriptions of the way a wheeled vehicle responds and reacts to the inputs of a driver, as well as how it moves along a track or road. It is commonly judged by how a vehicle performs particularly durin ...

by keeping the tires perpendicular to the road in corners, allowing better traction and control. An onboard computer detects body movement from sensors throughout the vehicle and, using that data, controls the action of the active and semi-active suspensions. The system virtually eliminates

body roll Body roll is the axial rotation of a Vehicle, vehicle’s Vehicle frame, body towards the outside of a turn. Body roll occurs because the Compliant mechanism, compliance in Car suspension, vehicle suspension allows the vehicle body, which sits upo ...

and pitch variation in many driving situations including cornering,

accelerating In mechanics, acceleration is the rate of change of the velocity of an object with respect to time. Accelerations are vector quantities (in that they have magnitude and direction). The orientation of an object's acceleration is given by th ...

, and

braking A brake is a mechanical device that inhibits motion by absorbing energy from a moving system. It is used for slowing or stopping a moving vehicle, wheel, axle, or to prevent its motion, most often accomplished by means of friction. Backgroun ...

Principle

Skyhook theory is that the ideal suspension would let the vehicle maintain a stable posture as if suspended by an imaginary hook in the sky, unaffected by road conditions. Since an actual skyhook is obviously impractical, real active suspension systems are based on actuator operations. The imaginary line (of zero vertical acceleration) is calculated based on the value provided by an

acceleration sensor An accelerometer is a tool that measures proper acceleration. Proper acceleration is the acceleration (the rate of change of velocity) of a body in its own instantaneous rest frame; this is different from coordinate acceleration, which is accel ...

installed on the body of the vehicle (see Figure 3). The dynamic elements comprise only the linear spring and the linear damper; therefore, no complicated calculations are necessary. A vehicle contacts the ground through the spring and damper in a normal spring damper suspension, as in Figure 1. To achieve the same level of stability as the Skyhook theory, the vehicle must contact the ground through the spring, and the imaginary line with the damper, as in Figure 2. Theoretically, in a case where the damping coefficient reaches an infinite value, the vehicle will be in a state where it is completely fixed to the imaginary line, thus the vehicle will not shake.

Active

Active suspensions, the first to be introduced, use separate actuators which can exert an independent force on the suspension to improve the riding characteristics. The drawbacks of this design are high cost, added complication and mass of the apparatus, and the need for frequent maintenance on some implementations. Maintenance can require specialised tools, and some problems can be difficult to diagnose.

Hydraulic actuation

Hydraulically actuated suspensions are controlled with the use of

hydraulics Hydraulics (from Greek: Υδραυλική) is a technology and applied science using engineering, chemistry, and other sciences involving the mechanical properties and use of liquids. At a very basic level, hydraulics is the liquid counte ...

. The first example appeared in 1954, with the

hydropneumatic suspension Hydropneumatic suspension is a type of motor vehicle suspension system, designed by Paul Magès, invented by Citroën, and fitted to Citroën cars, as well as being used under licence by other car manufacturers, notably Rolls-Royce ( Silver Sha ...

developed by

Paul Magès Paul Ernest Mary Magès (1908–1999) is known for his invention of the first self-leveling automobile suspension, known as hydro-pneumatic suspension. This system replaced conventional steel springs with an adaptive system of hydraulic struts, r ...

at Citroën. The hydraulic pressure is supplied by a high pressure radial piston hydraulic pump. Sensors continually monitor body movement and vehicle ride level, constantly supplying the hydraulic height correctors with new data. In a matter of a few milliseconds, the suspension generates counter forces to raise or lower the body. During driving maneuvers, the encased nitrogen compresses instantly, offering six times the compressibility of the steel

spring Spring(s) may refer to: Common uses * Spring (season) Spring, also known as springtime, is one of the four temperate seasons, succeeding winter and preceding summer. There are various technical definitions of spring, but local usage of ...

s used by vehicles up to this time. In practice, the system has always incorporated the desirable

self-levelling suspension Self-levelling refers to an automobile suspension system that maintains a constant ride height of the vehicle above the road, regardless of load. Purpose Many vehicle systems on a conventional vehicle are negatively affected by the change in attit ...

and

height adjustable suspension Height adjustable suspension is a feature of certain automobile suspension systems that allow the motorist to vary the ride height or ground clearance. This can be done for various reasons including giving better ground clearance over rough terrain ...

features, with the latter now tied to vehicle speed for improved

aerodynamic Aerodynamics, from grc, ἀήρ ''aero'' (air) + grc, δυναμική (dynamics), is the study of the motion of air, particularly when affected by a solid object, such as an airplane wing. It involves topics covered in the field of fluid dyn ...

performance, as the vehicle lowers itself at high speed. This system performed remarkably well in straight ahead driving, including over uneven surfaces, but had little control over roll stiffness. Millions of production vehicles have been built with variations on this system.

Electronic actuation of hydraulic suspension

Colin Chapman Anthony Colin Bruce Chapman (19 May 1928 – 16 December 1982) was an English design engineer, inventor, and builder in the automotive industry, and founder of Lotus Cars. In 1952 he founded the sports car company Lotus Cars. Chapman ...

developed the original concept of computer management of hydraulic suspension in the 1980s to improve cornering in racing cars. Lotus fitted and developed a prototype system to a 1985

Excel ExCeL London (an abbreviation for Exhibition Centre London) is an exhibition centre, international convention centre and former hospital in the Custom House area of Newham, East London. It is situated on a site on the northern quay of the ...

with electro-hydraulic active suspension, but never offered it for sale to the public, although many demonstration cars were built for other manufacturers. Sensors continually monitor body movement and vehicle ride level, constantly supplying the computer with new data. As the computer receives and processes data, it operates the hydraulic servos, mounted beside each wheel. Almost instantly, the servo-regulated suspension generates counter forces to body lean, dive, and squat during driving maneuvers.

Williams Grand Prix Engineering Williams Grand Prix Engineering Limited, currently racing in Formula One as Williams Racing, is a British Formula One motor racing team and constructor. It was founded by former team owner Frank Williams and automotive engineer Patrick Hea ...

prepared an active suspension, devised by designer-aerodynamicist

Frank Dernie Frank William Dernie (born 3 April 1950) to James Harold Dernie and Monica Dernie (née Pacey) is a veteran British Formula One engineer with extensive Formula One motorsport experience. Career Dernie was brought up in Lancashire and educated at ...

, for the team's Formula 1 cars in 1992, creating such successful cars that the

Fédération Internationale de l'Automobile The Fédération Internationale de l'Automobile (FIA; en, International Automobile Federation) is an association established on 20 June 1904 to represent the interests of motoring organisations and motor car users. It is the governing body for ...

decided to ban the technology to decrease the gap between Williams F1 team and its competitors. Computer Active Technology Suspension (CATS) co-ordinates the best possible balance between

and handling by analysing road conditions and making up to 3,000 adjustments every second to the

suspension Suspension or suspended may refer to: Science and engineering * Suspension (topology), in mathematics * Suspension (dynamical systems), in mathematics * Suspension of a ring, in mathematics * Suspension (chemistry), small solid particles suspende ...

settings via electronically controlled

damper A damper is a device that deadens, restrains, or depresses. It may refer to: Music * Damper pedal, a device that mutes musical tones, particularly in stringed instruments * A mute for various brass instruments Structure * Damper (flow), a mechan ...

s. The 1999

Mercedes-Benz CL-Class (C215) The second generation of the Mercedes-Benz CL-Class is the C215-chassis coupé of 1998–2006. It is based on the 1998–2005 Mercedes-Benz S-Class (W220), though it rides on an shorter wheelbase. Sales in Germany started in August 1999 for th ...

introduced ''

Active Body Control Active Body Control, or ABC, is the Mercedes-Benz brand name used to describe electronically controlled hydropneumatic suspension. This suspension combines a high level of ride quality with control of the vehicle body motions, and therefore vi ...

'', where high pressure hydraulic servos are controlled by electronic computing, and this feature is still available. Vehicles can be designed to actively lean into curves to improve occupant comfort.

Active anti-roll bar

Active anti-roll bar stiffens under command of the driver or suspension

electronic control unit An electronic control unit (ECU), also known as an electronic control module (ECM), is an embedded system in automotive electronics that controls one or more of the electrical systems or subsystems in a car or other motor vehicle. Modern vehic ...

(ECU) during hard cornering. First production car was Mitsubishi Mirage Cyborg in 1988.

Electromagnetic recuperative

In fully active electronically controlled production cars, the application of electric servos and motors married to electronic computing allows for flat cornering and instant reactions to road conditions. The

Bose Corporation Bose Corporation () is an American manufacturing company that predominantly sells audio equipment. The company was established by Amar Bose in 1964 and is based in Framingham, Massachusetts. It is best known for its home audio systems and spea ...

has a proof of concept model. The founder of Bose,

Amar Bose Amar Gopal Bose (November 2, 1929 – July 12, 2013) was an American entrepreneur and academic. An electrical engineer and sound engineer, he was a professor at the Massachusetts Institute of Technology for over 45 years. He was also the found ...

, had been working on exotic suspensions for many years while he was an MIT professor. Electromagnetic active suspension uses linear electromagnetic motors attached to each wheel. It provides extremely fast response, and allows regeneration of power consumed, by using the motors as generators. This nearly surmounts the issues of slow response times and high power consumption of hydraulic systems. Electronically controlled active suspension system (ECASS) technology was patented by the University of Texas Center for Electromechanics in the 1990s and has been developed by L-3 Electronic Systems for use on military vehicles. The ECASS-equipped

Humvee The High Mobility Multipurpose Wheeled Vehicle (HMMWV; colloquial: Humvee) is a family of light, four-wheel drive, military trucks and utility vehicles produced by AM General. It has largely supplanted the roles previously performed by the ...

exceeded the performance specifications for all performance evaluations in terms of absorbed power to the vehicle operator, stability and handling.

Active Wheel

* Michelin's

Active Wheel Active Wheel was a Michelin-developed tire which incorporates an electric motor and suspension It was presented at Challenge Bibendum 2004's edition on the Hy-Light concept car and showcased during Paris Motor Show "Mondial de l'automobile"in 2008 ...

from 2004 incorporates an in-wheel electrical suspension motor that controls torque distribution, traction, turning maneuvers, pitch, roll and suspension damping for that wheel, in addition to an in-wheel electric traction motor. *

Audi Audi AG () is a German automotive manufacturer of luxury vehicles headquartered in Ingolstadt, Bavaria, Germany. As a subsidiary of its parent company, the Volkswagen Group, Audi produces vehicles in nine production facilities worldwide. Th ...

active electromechanical suspension system introduced in 2017. It drives each wheel individually and adapts to the prevailing road conditions. Each wheel has an electric motor which is powered by the 48-volt main electrical system. Additional components include gears, a rotary tube together with internal titanium torsion bar and a lever which exerts up to 1,100 Nm (811.3 lb-ft) on the suspension via a coupling rod. Thanks to the front camera, the sedan detects bumps in the road early on and predictively adjusts the active suspension. Even before the car reaches a bump in the road, the preview function developed by Audi transmits the right amount of travel to the actuators and actively controls the suspension. The computer-controlled motors can sense imperfection on the road, and can raise the suspension up from the wheel which would go over the undulation, thus aiding the ride quality. The system will direct the motors on the outside to push up or pull down the suspension while cornering. This will result in a flatter drive and reduced body-roll around corners which in turn means more confident handling dynamics.

Adaptive and semi-active

Adaptive or semi-active systems can only change the Damping ratio, viscous damping coefficient of the shock absorber, and do not add energy to the suspension system. While adaptative suspensions have generally a slow time response and a limited number of damping coefficient values, semi-active suspensions have time response close to a few milliseconds and can provide a wide range of damping values. Therefore, adaptative suspensions usually only propose different riding modes (comfort, normal, sport...) corresponding to different damping coefficients, while semi-active suspensions modify the damping in real time, depending on the road conditions and the dynamics of the car. Though limited in their intervention (for example, the control force can never have different direction than the current vector of velocity of the suspension), semi-active suspensions are less expensive to design and consume far less energy. In recent times, research in semi-active suspensions has continued to advance with respect to their capabilities, narrowing the gap between semi-active and fully active suspension systems.

Solenoid/valve actuated

This type is the most economic and basic type of semi-active suspensions. They consist of a solenoid valve which alters the flow of the hydraulic medium inside the shock absorber, therefore changing the damping characteristics of the suspension setup. The solenoids are wired to the controlling computer, which sends them commands depending on the control algorithm (usually the so-called "Sky-Hook" technique). This type of system is used in Cadillac, Cadillac's Computer Command Ride (CCR) suspension system. The first production car was the Toyota Soarer with semi-active Toyota Electronic Modulated Suspension, from 1983.

Magnetorheological damper

Another fairly recent method incorporates magnetorheological dampers with a brand name MagneRide. It was initially developed by Delphi Corporation for General Motors, GM and was standard, as many other new technologies, for Cadillac STS (from model 2002), and on some other GM models from 2003. This was an upgrade for semi-active systems ("automatic road-sensing suspensions") used in upscale GM vehicles for decades. It allows, together with faster modern computers, changing the stiffness of all wheel suspensions independently. These dampers are finding increased usage in the US and already leases to some foreign brands, mostly in more expensive vehicles. This system was in development for 25 years. The damper fluid contains metallic particles. Through the onboard computer, the dampers' compliance characteristics are controlled by an electromagnet. Essentially, increasing the current flow into the damper magnetic circuit increases the circuit magnetic flux. This in turn causes the metal particles to change their alignment, which increases fluid viscosity thereby raising the compression/rebound rates, while a decrease softens the effect of the dampers by aligning the particles in the opposite direction. If we imagine the metal particles as dinner plates then whilst aligned so they are on edge - viscosity is minimised. At the other end of the spectrum they will be aligned at 90 degrees so flat. Thus making the fluid much more viscous. It is the electric field produced by the electromagnet that changes the alignment of the metal particles. Information from wheel sensors (about suspension extension), steering, acceleration sensors - and other data, is used to calculate the optimal stiffness at that point in time. The fast reaction of the system (milliseconds) allows, for instance, making a softer passing by a single wheel over a bump in the road at a particular instant in time.

Production vehicles

By calendar year: * 1954: Citroën Traction Avant 15-6H:, Self-levelling suspension, self-leveling Citroën

on rear wheels. * 1955: Citroën DS, self-leveling Citroën hydropneumatic suspension on all four wheels. * 1957: Cadillac Eldorado Brougham: premiere of self-leveling GM air suspension *1967: Rolls-Royce Silver Shadow, Rolls Royce Silver Shadow Partial load bearing hydropneumatic suspension on all four wheels. Front system deleted in 1969 * 1970: Citroën SM, Self-levelling suspension, self-leveling Citroën hydropneumatic suspension on all four wheels. * 1970: Citroën GS, Self-levelling suspension, self-leveling Citroën hydropneumatic suspension on all four wheels. * 1974: Citroën CX, Self-levelling suspension, self-leveling Citroën hydropneumatic suspension on all four wheels. *1975: Mercedes-Benz W116, Mercedes Benz 450 SEL 6.9 Hydropneumatic suspension on all four wheels. * 1982: Citroën BX, Self-levelling suspension, self-leveling Citroën hydropneumatic suspension on all four wheels. *1979: Mercedes-Benz W126, Mercedes Benz W126 Hydropneumatic suspension on all four wheels as an option on the LWB v8 models * 1983: Toyota Soarer: premiere of semi-active Toyota Electronic Modulated Suspension (TEMS) *1985 Mercedes-Benz W201, Mercedes Benz 190E 2.3-16 Partial load bearing hydropneumatic suspension on all four wheels as an option on the 16v model. Standard on the Evo 1 and Evo 2 models * 1986: Toyota Soarer: world first Electronically controlled (TEMS) full air suspension (spring constant, variable attenuation force) installed *1986: Mercedes-Benz W126, Mercedes Benz W126 Hydropneumatic suspension on all four wheels with electronically controlled adaptive damping as an option on the LWB v8 models * 1987: Mitsubishi Galant (sixth generation) - features Active Controlled Suspension (Dynamic ECS). The system enables a comfortable ride and handling stability by automatically adjusting the vehicle height and damping force. * 1989: Citroën XM - self-levelling, semi-active Hydropneumatic suspension, Hydractive on all four wheels with automatically adjusted spring rates and dampeners. *1989: Mercedes-Benz SL-Class (R129), Mercedes Benz R129 Partial load bearing hydropneumatic suspension with automatically adjusted spring rates and dampers as an option (ADS) * 1990: *First semi-active suspension scanning the road ahead (sonar) - 1990 Nissan Leopard/Nissan Cedric/Nissan Maxima/Nissan J30 DUET-SS Super Sonic Suspension * 1990: Infiniti Q45 "Full-Active Suspension (FAS)", active suspension system, although it did still have conventional coil springs * 1992: Toyota Celica (Toyota Electronically Modulated Suspension) * 1992: Citroën Xantia VSX - self-levelling, semi-active Hydropneumatic suspension, Hydractive 2 on all four wheels, with automatically adjusted spring rates and dampeners. * 1993: Cadillac, several models with RSS Road Sensing Suspension, road sensing suspension. RSS was available in both standard and CVRSS (continuously variable road sensing suspension) systems. It monitored damping rates of the shock absorbers every 15 milliseconds, selecting between two settings. *1994: Toyota Celsior introduced first Skyhook theory, Skyhook air suspension * 1994: Citroën Xantia Activa - self-levelling, fully active Hydractive on all four wheels with hydraulic anti-roll bars and automatically adjusted spring rates and dampeners. * 1998: Land Rover Discovery, Land Rover Discovery series 2 - Active Cornering Enhancement; an electronically controlled hydraulic anti-roll bar system was fitted to some versions, which reduced cornering roll. *1999: Mercedes-Benz CL-Class (C215), Mercedes Benz C215 Self leveling fully active hydraulic Active Body Control, Active body control. Available on the S, CL and SL models *2002: Cadillac Seville STS, first MagneRide * 2004: Volvo Volvo S60#S60 R, S60 R and Volvo V70#V70 R, V70 R (Four-C, a short name for "Continuously Controlled Chassis Concept", semi-active) *2013: Mercedes-Benz S-Class (W222), Mercedes Benz W222: Optional Magic Body Control, Magic body control. Self leveling fully active hydraulic system with road surface scanning electronics *2013: Volkswagen Volkswagen Golf Mk7#Golf R, Mk7 Golf R User-Selectable Electronically Controlled Shock Dampening (Dynamic Chassis Control (DCC)) * 2019: Toyota Toyota Avalon, Avalon Touring model (Adaptive Variable Suspension (AVS))

References

* * {{Chassis control systems Advanced driver assistance systems Automotive suspension technologies Mechanical power control