Abstract
Control system plays a major role in the industry nowadays as it simplifies workload and reduce manpower. Among all the controlled applicable field, control system is heavily used in motor speed and motor position controls. Although there are various types of controllers available in the market, PID controller remains as one of the most used controller due to its simplicity. Unfortunately, PID controller experiences windup phenomenon which affects the controller’s performance. This paper proposes a new type of anti-windup PI controller, SIPIC for motor position control application and aims to validate the performance of this controller as compared to conventional PI controller. To test the ability of the controllers, both controllers were experimented using hardware testing. The settings conditions of with and without loadings were used under two different inputs of 0° to 90° and 270° to 90°. The results obtained show that under without loadings, both controller showed favourable performances. Though, SIPIC controller slightly outperforms PI controller by having lower overshoot and shorter settling time for a wider range of gains. The rise time of both controllers are similar as it is the lowest possible rise time due to hardware limitations. Experiment results with loading condition, for both inputs and when Kp is 1 and Ki is 15, PI controller shows unstable performance by having large amount of oscillations and overshoots. The settling time was unable to be determined as the controller did not settle within the given step time. On the other hand, at the same gain, SIPIC controller still shows acceptable performance. This shows that SIPIC controller is more favourable by having better stable performance for a wider range of gains while PI controller needs to be finely tuned to a specific gain to obtain desired results..
Highlights
In the 21st century where manual manpower is increasingly being replaced by automatic robotic system, control system plays a major role in ensuring the quality of product and efficiency of the automated system
Comparison was done between the two controllers to verify the proposed state Integral Proportional Integral Controller (SIPIC) controller for motor position control under no load condition and under load condition
A new type of anti-windup PI controller was used for the application of motor position control and the performance of the proposed controller was used to compare with the performance of a conventional PI controller
Summary
Mechanical position usually is the system output for an arm or a pointer. The position control system applications can be commonly found in automated systems such as solar tracking system and robotic system. Servomotor is usually used as the actuator for position control system. Servomotor is a type of direct current (DC) motor that is capable of precise control for velocity and acceleration as well as angular and linear positions. Many types of controllers have been used in the application of position control systems. These controllers usually include the use of fuzzy logic, fractional order, finite control with model predictive controllers as well as a proposed controller that combines the characteristics of μ-synthesis and neural network [1]
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