Evaluation of Potential Usage of Incremental-Type Rotary Encoder Application for Angle Sensing in Steering System

Sunarto Kaleg, Aam Muharam, M. Redho Kurnia, Abdul Hapid

Abstract

The main target of a steering system is that the driver can change vehicle trajectory in accordance with the desired direction.  Power steering has become a standard feature in automobile.  It provides assisting power when the driver turns the steering wheel. The well-known power steering types include; Hydraulic Power Steering (HPS), Electro - Hydraulic Power Steering (EHPS), and Electric Power Steering (EPS). EHPS or EPS uses an Electronic Control Unit (ECU) which is specific for each vehicle. The ECU should be able to regulate power of electric motor to provide corresponding assisting power for the steering wheel. Therefore ECU requires input signals, one of which is vehicle wheel angle that can be indicated from the vehicle steering wheel angle. Incremental type of Rotary Encoder (RE) is used in steering angle sensor on a minibus. RE specification used was 60 pulses per rotation and the minibus steering transmission specification is 3.5 round of right wheel off angle to the left wheel off angle. So we get the RE angular resolution 6ºper pulse and 105 number of pulses to half of the steering transmission ratio. Repeatability then tested against to a steering angle counter module. Testing is done with a test cycle consisting of 3 repetitions: condition center of the steering wheel, the steering wheel is turned to full right, then to the full left, then back to the right up to the steering wheel center. The results obtained 2 pulses deviation, or equivalent to 12º of steering angle.




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References


G. Genta and L. Morello, The automotive chassis vol. 1: Springer, 2009.

Tenneco Inc. (2011, 23 September). Steering systems. Available: http://www.monroe.com.au/trade-corner/tech-info/suspension-systems/steering-systems.html

Philippe. (2003, 23 September). Steering system terms and how the system works. Available: http://www.imperialclub.com/Repair/Steering/terms.htm

X. Chang-gao, et al., "Realization of control algorithm for electro-hydraulic power steering system based on MC9S08AW32 microcontroller," in International Conference on Informatics, Cybernetics, and Computer Engineering (ICCE2011), Melbourne, Australia, 2011, pp. 581-589. crossref

B. Heißing and M. Ersoy, Chassis Handbook, 1 ed.: Vieweg+Teubner, 2011.

D. A. Crolla, Automotive Engineering, 1 ed.: Butterworth-Heinemann, 2009.

S. Endo, et al., "Electric power steering apparatus control apparatus," Patent Number: US 20050103561 A1, 2005.

J. M. Armingol, et al., "IVVI: Intelligent vehicle based on visual information," Robotics and Autonomous Systems, vol. 55, pp. 904-916, 2007. crossref

S. A. Birrell and M. S. Young, "The impact of smart driving aids on driving performance and driver distraction," Transportation Research Part F: Traffic Psychology and Behaviour, vol. 14, pp. 484-493, 2011. crossref

V. Milanés, et al., "Intelligent automatic overtaking system using vision for vehicle detection," Expert Systems with Applications, vol. 39, pp. 3362-3373, 2012. crossref

Methode Electronics Automotive Group Europe, "Steering angle sensor for automotive applications," ed: Methode Electronics, 2007, p. 1.

C. T. Killian, Modern control technology: components and systems, 2 ed.: Delmar, 2001.

Autonics Corporation. (2007, 7 Oktober). E80H Series. Available: http://id.autonics.com/products/products_detail.php?catecode=01/06/01&db_uid=63

Danaher Industrial Controls, Encoder application handbook. Gurnee, IL: Danaher Controls, 2003.

G. S. Gordon. (1998 – 2002, 7 October). Let's talk accuracy. Available: http://www.gpi-encoders.com/


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