Back to top

First look at Steer-by-Wire Car - A Bit Behind the Times

16 Jan 2014
Scott Evans

There is an interesting, and pleasingly short, article in Wired magazine: Take a Look Inside the First Steer-by-Wire Car, by Matt Jancer.

Steer-by-Wire Car

 

Although my blog entries will generally call attention to new ideas we think will end up someday on the factory floor, drive-by-wire actually lags industry: this type of following, such as electronic gearing (a.k.a. cam profiling or camming), has been available in Industrial Automation for years.

In drive-by-wire, an encoder or resolver is mounted to the steering column. It can sense which direction the steering wheel is turned, and can also sense how fast the wheel is turning. This information is read by the controller, which in turn controls a linear axis that actually turns the wheel. This mechanism could be something as simple as a servo motor with a pinion press-fitted on the shaft and a rack to actuate the steering. (It could also be a screw actuator or even linear motor).

The road feel as well as sensitivity to the steering (how responsive or sloppy the steering feels) can be adjusted by the manufacturer at the control and amplifier. Naturally, aftermarket tweaks will be available if you want to tune your steering.

Industrial Automation already has many examples of this technology. For example, a continuous feed web press may have a surface encoder sensing the speed of the web; this encoder would generate the master signal. A servo amplifier or controller will accept this signal, and generate motion elsewhere that is proportional to the master signal.

The following axis may be electronic camming. The distinction is there could be a non-linear relationship of the following motion with respect to the master, or linear motion may ensue like a piston rod riding a mechanical cam shaft would move (the cam shaft is rotating, and the piston is moving up-and-down). The motion is nevertheless repeatable and predictable because it is programmed that way.

In the automotive industry, safety and avoiding lawsuits are top priorities... So there is the perceived need for multiple-redundant encoder/resolver and a clutch that can engage the old-school mechanical steering if the amplifier or control or following motor/actuator was to fail. Someday, that clutch and mechanical backup will quietly disappear and we'll be driving exclusively by wire. If we're driving at all… But that is a different discussion for a different day.


 

About the Author

Scott Evans

Scott Evans - Author
Scott has been with Kollmorgen for 7 years, currently as Director of Global Product Planning. Scott also has played the role of Business Unit Director for the Americas for Kollmorgen. Scott was founder of Advanced Digital, a designer and manufacturer of servo drives ultimately acquired by Lenze. The core product Advanced Digital developed is currently private-labeled by Rockwell. In Scott's role as Global Product Planner for Kollmorgen, he has been very fortunate to find and even occasionally participate in some creative and fantastic experiments. Scott intends to use this blog to share interesting articles about new products or services that leverage a servo system, or use key components that one may find in a servo system. You can reach Scott here: Scott Evans

Blog Taxonomy Helper

Aerospace & Defense
Applications
Automated Guided Vehicles
Business
Embedded Motion
Engineering
Fieldbus
Food Regulations
General
History
Installation Tips
Interconnectivity
Medical
Oil and Gas
Packaging
Robotics
Technology
University Partnerships