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Influence of Microstepping Signal Shape on Shaft Movement Precision and Torque Variation of the Stepper Motor

Bogdan Bednarski, Krzysztof Jackiewicz, Andrzej Gałecki

2021Energies13 citationsDOIOpen Access PDF

Abstract

Stepper motors are widely used in many applications where discrete, precise movement is required. There is a variety of dedicated stepper motor controllers (sometimes referred to as “step sticks”) available on the market. Those controllers provide a number of different motor control schemes that vary by aspects like current control method, reference current shape or maximum resolution increase (microstepping). The two most widely acknowledged signal shapes are sine-cosine microstepping and quadrature microstepping. The choice of the control scheme impacts torque output, torque variation, positioning error and maximum power supply requirements. This paper presents a family of generalised microstepping signal shapes, ranging from sine-cosine microstepping to quadrature microstepping. Derivation of signal shapes as well as their mathematical analyses are provided. Those signals are then implemented on the control board. A series of experiments is performed on a test bench to analyse the influence of different signal shapes on the performance of the motor in both load and no load conditions. The comparison of the new generalized shapes influence on the motor operation to the commonly used sine-cosine and quadrature control is provided.

Topics & Concepts

Control theory (sociology)SineTorqueTrigonometric functionsSIGNAL (programming language)Quadrature (astronomy)EngineeringComputer scienceControl engineeringMathematicsElectronic engineeringControl (management)PhysicsArtificial intelligenceThermodynamicsGeometryProgramming languageSensorless Control of Electric MotorsIterative Learning Control SystemsElectric Motor Design and Analysis
Influence of Microstepping Signal Shape on Shaft Movement Precision and Torque Variation of the Stepper Motor | Litcius