Title :
Multistage Rule-Based Positioning Optimization for High-Precision LPAT
Author_Institution :
Dept. of Mech. Eng., Inst. of Technol. Sepuluh Nopember, Surabaya, Indonesia
Abstract :
This paper proposes a multistage rule-based precision positioning control method for the linear piezoelectrically actuated table (LPAT). During the coarse-tuning stage, the LPAT is actuated by coarse voltage schemes toward the target of 20 μm at a higher velocity, and during the fine-tuning stage, it is steadily and accurately driven by the fine voltage scheme to reach the target position. The rule-based method is employed to establish the control rules for the voltages and displacements of the two stages using statistical methods. The experimental results demonstrate that the proposed control method can quickly reach steady state, and the steady-state error can be reduced to less than or equal to 0.02 μm for small travel (±0.1 μm) and large travel (± 20 mm).
Keywords :
piezoelectric actuators; position control; statistical analysis; coarse tuning stage; coarse voltage scheme; fine tuning stage; high precision LPAT; linear piezoelectrically actuated table; multistage rule based precision positioning control method; rule based method; statistical methods; steady state error; Ceramics; Driver circuits; Gaussian distribution; Robustness; Steady-state; Uncertainty; Voltage control; Coarse tuning; fine tuning; linear motion; multistage control; optimization; piezoelectrically actuated table; rule-based method (RBM);
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2011.2128550
