Power Steering Evolution: HEPS, EPS and Steer-by-Wire
Electric power steering took a long time to become popular, but the technology on which it was based has been around for a very long time. In fact, power steering is as old as cars and aftermarket systems have been on heavy trucks since 1903, but they didn’t become an OEM option until the 1950s.
This technology has become standard equipment on almost all new cars and trucks today, and remained an option on many low-cost entry-level cars through the 1980s and 1990s.
What is power steering for?
The purpose of power steering is to reduce the effort required by the driver to steer. This has traditionally been achieved by hydraulic power, which can be generated by a belt driven pump driven by the rotation of the engine. However, since the technology first appeared as an OEM option in the 1950s, it has shown continuous innovation and upgrades.
The first major upgrade to widespread acceptance from conventional hydraulic power steering was electrohydraulic power steering. This early form of electric power steering added additional support to a conventional power steering with an electric pump.
This technology has been replaced by electronic power steering that completely eliminates hydraulic pressure. Electric power steering is available in many vehicles from almost every manufacturer.
A closely related technology known as steer-by-wire is a key component of the road to full drive-by-wire vehicles.
electrohydraulic power steering
Electro-Hydraulic Power Steering (EHPS) is a hybrid technology that works like conventional hydraulic power steering. As with conventional systems, it uses hydraulic pressure to reduce the force required to steer the car.
The difference between the two technologies is in the way hydraulic pressure is created. Conventional systems generate pressure with a belt-driven pump, while electro-hydraulic power steering systems use an electric pump.
One of the main benefits of electrohydraulic power steering is that the electric pump does not necessarily lose power when the engine is off. This is a great safety feature that allows you to steer safely even if the engine stops while driving.
This feature has also been useful for electric vehicles and some fuel-efficient petrol vehicles because of its ability to provide power steering to vehicles without conventional gasoline or diesel engines, and hybrid vehicles designed to shut off gasoline engines on highways. .
electric power steering
Unlike hydraulic and electro-hydraulic systems, Electric Power Steering (EPS) does not use hydraulic pressure to assist steering. Since the technology is completely electronic, it provides direct support using an electric motor mounted on a steering box or steering rack.
Because no energy is lost to generate and transmit hydraulic power, these systems are typically more efficient than hydraulic or electro-hydraulic steering.
Depending on the specific EPS system, the electric motor can be mounted directly on the steering column or on the steering gear or on the steering rack.
The required steering force is determined by the sensor and applied in such a way that the driver requires minimal effort to steer.
Some systems have individual settings that determine the amount of steering assistance provided, while others use variable curves.
Most OEMs offer electric power steering for one or more models.
What is Steer-by-Wire?
An electric power steering system removes hydraulic components while preserving the traditional steering linkage, but true steer-by-wire systems also eliminate steering linkages.
The system uses an electric motor to turn the wheels, sensors to determine how much steering effort to apply, and a steering feel emulator to provide haptic feedback to the driver.
Steer-by-wire technology has been around for some time on certain heavy-duty equipment, forklifts, front-end loaders and other similar applications, but is relatively new in the automotive industry.
Automakers like GM and Mazda pioneered the concept with early drive-by-wire concept cars that didn’t require traditional steering connections, but industry and driver acceptance of the technology was rather chilling.
Nissan announced at the end of 2012 that it would be the first automaker to offer this technology on a production model, and an independent steering control system was announced for the 2014 model year. However, this system also retained the vestiges of a traditional steering system.
The independent steering control system introduced in the 2014 Infiniti Q50 was steerable, but retained the original steering linkage. Disconnected during normal use, but still present.
The idea behind this type of system is that if the steer-by-wire system fails, the clutch intervenes, allowing the driver to steer using a mechanical linkage.
Along with other drive-by-wire technologies such as brake-by-wire and electronic throttle control, steer-by-wire is a key component of autonomous vehicles.
More information
All About Electric Power Steering
The evolution of power steering: HEPS, EPS, and steer-by-wire
Electric power steering took a long time to catch on, but the technology it’s built on has been around for a very long time. In fact, power steering has been around just about as long as the automobile, and large trucks were fitted with aftermarket systems as early as 1903, but it wasn’t offered as an OEM option until the 1950s.
The technology is ubiquitous today due to its inclusion as standard equipment in nearly all new cars and trucks, but it remained optional in a number of lower-priced, entry-level cars throughout the 1980s and 1990s.
What Is Power Steering For?
The purpose of power steering is to reduce the amount of effort that it takes for the driver to steer. This was traditionally accomplished through hydraulic power, which can be generated by a belt-driven pump that runs off the rotation of the engine. However, the technology has undergone a steady stream of innovations and upgrades since it first showed up as an OEM option in the 1950s.
The first major upgrade to traditional hydraulic power steering that saw any sort of wide uptake was electro-hydraulic power steering. This early form of electric power steering added additional assistance to traditional power steering with electric pumps.
That technology has been largely supplanted by electronic power steering, which ditches hydraulics altogether. Electric power steering is available in a wide variety of vehicles from virtually every manufacturer.
A closely related technology known as steer-by-wire is an important component in the push toward fully drive-by-wire cars.
Electro-Hydraulic Power Steering
Electro-hydraulic power steering (EHPS) is a hybrid technology that operates just like traditional hydraulic power steering. Just like traditional systems, it uses hydraulic power to reduce the amount of force that it takes to steer a car.
The difference between the two technologies lies in how hydraulic pressure is generated. Where traditional systems generate pressure with a belt-driven pump, electro-hydraulic power steering systems use electric pumps.
One of the major benefits of electro-hydraulic power steering is that the electric pump doesn’t necessarily lose power when the engine is shut off. This is a great safety feature since it makes it easier to steer to safety in the event of an engine dying while driving down the road.
This feature has also been useful in electric vehicles and some fuel-efficient gas vehicles, in that it’s able to provide power steering to vehicles that don’t have a traditional gas or diesel engine, and hybrid vehicles that are designed to shut down the gas engine at highway speeds.
Electric Power Steering
Unlike hydraulic and electro-hydraulic systems, electric power steering (EPS) doesn’t use any form of hydraulic pressure to provide steering assistance. The technology is fully electronic, so it uses an electric motor mounted to the steering gear or rack to provide direct assistance.
Since there is no power lost generating and transmitting hydraulic power, these systems are typically more efficient than either hydraulic or electro-hydraulic steering.
Depending on the specific EPS system, the electric motor may be mounted either to the steering column or directly to the steering gear, or steering rack.
Sensors are used to determine how much steering force is required, and then it is applied so that the driver only has to exert a minimum amount of effort to turn the wheel.
Some systems have discrete settings that decide the amount of steering assistance that’s provided, and others work on a variable curve.
Most OEMs offer electric power steering on one or more of their models.
What Is Steer-by-Wire?
Electric power steering systems remove the hydraulic component while retaining traditional steering linkage, but true steer-by-wire systems do away with the steering linkage as well.
These systems make use of electric motors to turn the wheels, sensors to determine how much steering force to apply, and steering-feel emulators to provide haptic feedback to the driver.
Steer-by-wire technology has been used in certain heavy-duty equipment, forklifts, front-end loaders, and other similar applications for a while, but it’s still relatively new to the automotive world.
Automakers like GM and Mazda pioneered this concept with early drive-by-wire concept cars that eschewed traditional steering linkage, but industry and driver acceptance of this technology has been somewhat chilly.
Nissan announced in late 2012 that it would be the first automaker to offer the technology in a production model, and its Independent Steering Control system was announced for the 2014 model year. However, even that system retained the vestiges of a traditional steering system.
Introduced in the 2014 Infiniti Q50, the Independent Steering Control System was steer-by-wire but left traditional steering linkage in place. While they were decoupled during normal usage, they were still there.
The idea behind that type of system is that If the steer-by-wire system fails, the coupler can engage in order to provide the driver with the ability to use the mechanical linkage to steer.
Together with other drive-by-wire technologies, like brake-by-wire and electronic throttle controls, steer-by-wire is a key component in autonomous cars.
#Electric #Power #Steering
All About Electric Power Steering
The evolution of power steering: HEPS, EPS, and steer-by-wire
Electric power steering took a long time to catch on, but the technology it’s built on has been around for a very long time. In fact, power steering has been around just about as long as the automobile, and large trucks were fitted with aftermarket systems as early as 1903, but it wasn’t offered as an OEM option until the 1950s.
The technology is ubiquitous today due to its inclusion as standard equipment in nearly all new cars and trucks, but it remained optional in a number of lower-priced, entry-level cars throughout the 1980s and 1990s.
What Is Power Steering For?
The purpose of power steering is to reduce the amount of effort that it takes for the driver to steer. This was traditionally accomplished through hydraulic power, which can be generated by a belt-driven pump that runs off the rotation of the engine. However, the technology has undergone a steady stream of innovations and upgrades since it first showed up as an OEM option in the 1950s.
The first major upgrade to traditional hydraulic power steering that saw any sort of wide uptake was electro-hydraulic power steering. This early form of electric power steering added additional assistance to traditional power steering with electric pumps.
That technology has been largely supplanted by electronic power steering, which ditches hydraulics altogether. Electric power steering is available in a wide variety of vehicles from virtually every manufacturer.
A closely related technology known as steer-by-wire is an important component in the push toward fully drive-by-wire cars.
Electro-Hydraulic Power Steering
Electro-hydraulic power steering (EHPS) is a hybrid technology that operates just like traditional hydraulic power steering. Just like traditional systems, it uses hydraulic power to reduce the amount of force that it takes to steer a car.
The difference between the two technologies lies in how hydraulic pressure is generated. Where traditional systems generate pressure with a belt-driven pump, electro-hydraulic power steering systems use electric pumps.
One of the major benefits of electro-hydraulic power steering is that the electric pump doesn’t necessarily lose power when the engine is shut off. This is a great safety feature since it makes it easier to steer to safety in the event of an engine dying while driving down the road.
This feature has also been useful in electric vehicles and some fuel-efficient gas vehicles, in that it’s able to provide power steering to vehicles that don’t have a traditional gas or diesel engine, and hybrid vehicles that are designed to shut down the gas engine at highway speeds.
Electric Power Steering
Unlike hydraulic and electro-hydraulic systems, electric power steering (EPS) doesn’t use any form of hydraulic pressure to provide steering assistance. The technology is fully electronic, so it uses an electric motor mounted to the steering gear or rack to provide direct assistance.
Since there is no power lost generating and transmitting hydraulic power, these systems are typically more efficient than either hydraulic or electro-hydraulic steering.
Depending on the specific EPS system, the electric motor may be mounted either to the steering column or directly to the steering gear, or steering rack.
Sensors are used to determine how much steering force is required, and then it is applied so that the driver only has to exert a minimum amount of effort to turn the wheel.
Some systems have discrete settings that decide the amount of steering assistance that’s provided, and others work on a variable curve.
Most OEMs offer electric power steering on one or more of their models.
What Is Steer-by-Wire?
Electric power steering systems remove the hydraulic component while retaining traditional steering linkage, but true steer-by-wire systems do away with the steering linkage as well.
These systems make use of electric motors to turn the wheels, sensors to determine how much steering force to apply, and steering-feel emulators to provide haptic feedback to the driver.
Steer-by-wire technology has been used in certain heavy-duty equipment, forklifts, front-end loaders, and other similar applications for a while, but it’s still relatively new to the automotive world.
Automakers like GM and Mazda pioneered this concept with early drive-by-wire concept cars that eschewed traditional steering linkage, but industry and driver acceptance of this technology has been somewhat chilly.
Nissan announced in late 2012 that it would be the first automaker to offer the technology in a production model, and its Independent Steering Control system was announced for the 2014 model year. However, even that system retained the vestiges of a traditional steering system.
Introduced in the 2014 Infiniti Q50, the Independent Steering Control System was steer-by-wire but left traditional steering linkage in place. While they were decoupled during normal usage, they were still there.
The idea behind that type of system is that If the steer-by-wire system fails, the coupler can engage in order to provide the driver with the ability to use the mechanical linkage to steer.
Together with other drive-by-wire technologies, like brake-by-wire and electronic throttle controls, steer-by-wire is a key component in autonomous cars.
#Electric #Power #Steering
Synthetic: Vik News
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