On a redundant diversified steering angle sensor

Author

Dilge, E. ; Gulbins, Matthias ; Ohnesorge, Thomas ; Straube, Bernd

Author_Institution

Robert Bosch GmbH, Stuttgart, Germany

fYear

2003

Firstpage

191

Lastpage

196

Abstract

The paper deals with a fault-tolerant extension of an existing steering angle sensor used for future steer-by-wire applications in automotive areas. In our approach fault tolerance is added to the sensor in two ways. On the one hand it is achieved by exploiting some basic properties of the mathematical relations on which the calculation of the steering angle of the steering column is based. On the other hand two optical sensing elements are used in addition. Hence, we gain fault tolerance by redundancy and, concurrently, by diversity because of the different physical sensing principle. By means of fault injections and several scenarios for turning the steering wheel, fault simulations were carried out in order to evaluate the diagnostic properties of the sensor.

Keywords

angular measurement; automotive electronics; electric sensing devices; fault simulation; fault tolerance; magnetoresistive devices; AMR element; anisotropic magneto-resistive sensing elements; automotive areas; fault injection; fault simulation; fault tolerance; optical sensing element; steer-by-wire application; steering angle sensor; steering column; steering wheel; Counting circuits; Current measurement; Equations; Gears; Goniometers; Optical sensors; Rotation measurement; Shafts; Teeth; Wheels;

fLanguage

English

Publisher

ieee

Conference_Titel

On-Line Testing Symposium, 2003. IOLTS 2003. 9th IEEE

Print_ISBN

0-7695-1968-7

Type

conf

DOI

10.1109/OLT.2003.1214397

Filename

1214397