Key Terminologies Related to Control Systems
- Reference Input ®: This is the preferred output or purpose for the machine.
- Measured Output (Ym): This is the real output of the machine, that’s compared with the reference enter.
The System works by continuously evaluating the reference input with the measured output to calculate the error. The controller then uses this error to adjust the System and limit the error, growing a remarks loop.
- Error (e): The distinction between the reference input and the measured output. It represents how a ways off the system is from the desired aim.
- Controller: This block takes the mistake as input and approaches it to generate a control sign.
- Control Signal (u): This is the output of the controller, which is used to govern the system.
- System: This block represents the procedure or device being managed. It takes the manage sign as an enter and produces an output.
- Output (Y): This is the very last output of the machine after being manipulated by the control sign.
- Disturbances: These are external factors that may affect the machine’s overall performance. They are accounted for and mitigated by using the controller.
Classification of Control Systems
In electronics, control systems are grouped into different types, and each has its unique features and uses. They are Important in electronics engineering for regulating dynamic systems, ensuring stability, accuracy, and top performance in various applications. Understanding their classifications helps to understand their Many functions.
In this article, we will go through the Classification of the Control System, We will start our article with the Types of Control Systems, we will go through the Different Types of Control systems and go through their Advantages and disadvantages with their Applications, At last, we will conclude our Article with Some FAQs.
Table of Content
- Types of Control Systems
- Open-Loop Control Systems
- Closed-Loop Control Systems
- Linear Control Systems
- Non Linear Control Systems
- Time-Invariant and Time-Varying Control Systems
- Continuous-Time and Discrete-Time Control Systems
- Feedback Control Systems
- Feedforward Control Systems
- Digital Control Systems