Title :
Study of proportion and fuzzy control method upon precision micro-flow valve
Author :
Hai-chu, Chen ; Hui, YANG ; Hua, Zhang ; Rui-hua, Zhang
Author_Institution :
Key Lab. of Robot & Welding Autom. of Jiangxi, Nanchang Univ., Nanchang, China
Abstract :
Micro-titration technique, based on the condition of precision and ultra-precision, is an important part in Modern Micro-flow control technology and is also one of key technologies in Nano technology in 21st Frontier Technology. In this paper we built a precise flow valve model driven by piezoceramics and then drive the flow valve spool using the inverse piezoelectric effect of piezoelectric ceramics to control the size of precise flow valve and model building based on mathematical relationship among the driving power, the output displacement and the output flow. In view of the non-linearity, hysteresis, creep and other properties of piezoelectric ceramics affecting the control accuracy and control of complex, it proposed a proportional fuzzy control method and obtained more desirable results comparison in the commonly used control methods.
Keywords :
flow control; fuzzy control; microfluidics; nanotechnology; piezoceramics; precision engineering; proportional control; valves; 21st frontier technology; flow valve model; inverse piezoelectric effect; microtitration technique; modern microflow control technology; nanotechnology; piezoceramics; piezoelectric ceramics; precision microflow valve; proportional fuzzy control method; Ceramics; Displacement control; Drives; Fuzzy control; Mathematical model; Piezoelectric effect; Piezoelectric materials; Proportional control; Size control; Valves; actuator; piezoelectric ceramic; precision flow valve; proportional fuzzy control;
Conference_Titel :
Future Computer and Communication (ICFCC), 2010 2nd International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-5821-9
DOI :
10.1109/ICFCC.2010.5497495
