Title :
A measurement algorithm for capacitive speed encoder with a modified front-end topology
Author :
Fabian, Tibor ; Brasseur, Georg
Author_Institution :
Inst. of Appl. Electron. & Quantum Electron., Univ. of Technol., Vienna, Austria
fDate :
10/1/1998 12:00:00 AM
Abstract :
This paper presents an angular speed measurement algorithm for capacitive multiple plate angular encoders with disturbed rotational symmetry. The described sensor is aimed for automotive applications and therefore has to fulfill specific requirements. An important objective is fast replacement in the vehicle. It is realized with a new asymmetric sensing plate configuration resulting in increased measurement error due to the disturbed symmetry. This paper presents a simple model for the influence of the new sensing plate configuration on the capacitance between the fixed plates. A measurement algorithm based on a segment capacitance model for the asymmetric plate configuration is proposed. The main advantage of this algorithm is the suppression of steep slopes in the sensor angular measurement error and thus, the reduction of the relative angular speed error
Keywords :
angular velocity measurement; automobiles; capacitive sensors; interpolation; measurement errors; angular speed measurement algorithm; asymmetric sensing plate configuration; automotive applications; capacitive multiple plate angular encoders; capacitive speed encoder; disturbed rotational symmetry; fast replacement; interpolation algorithm; measurement algorithm; measurement error; model; modified front-end topology; ratio metric principle; relative angular speed error reduction; segment capacitance model; sensor; sensor angular measurement error; steep slope suppression; Assembly; Capacitance measurement; Capacitive sensors; Costs; Electrodes; Mechanical sensors; Stators; Topology; Transducers; Velocity measurement;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
