T&M Open Loop vs. Closed Loop Control Systems: Key Differences
Control systems are all around us, working tirelessly to achieve desired outputs through a carefully planned arrangement of components. These systems can be broadly categorized into two main types: open loop and closed loop. Let’s delve into the differences between these two fundamental control approaches.
What is a Control System?
At its core, a control system is a carefully orchestrated network of elements. Each element plays a specific role, contributing to the overall goal of producing a specific, desired output. Think of it like a well-rehearsed orchestra, where each instrument (element) plays its part to create a harmonious piece of music (the desired output).
Control systems come in two main flavors:
- Open Loop Control Systems
- Closed Loop Control Systems: Further divided into positive and negative feedback systems.
Let’s explore each of these types in detail.
Open Loop Control Systems
- Simple and Straightforward: Open loop systems operate based on a predetermined input, with the system’s output not influencing the control action.
- No Feedback Mechanism: The output of the system is neither measured nor fed back for comparison with the input.
- Reliance on Initial Calibration: These systems work under the assumption that the system won’t encounter any disturbances. Their accuracy hinges on proper initial calibration.
- Control is Independent of Output: The system’s control characteristics are entirely independent of its output.
Closed Loop Control Systems
- Feedback Driven: In contrast to open loop systems, the control characteristics of a closed loop system heavily depend on the system’s output.
- Error-Based Control: These systems are also known as feedback control systems. They use an “error signal” (the difference between the input and the output) to drive the control action.
- Aiming for Accuracy: The primary goal of the feedback loop is to minimize the error between the desired input and the actual system output.
- Negative Feedback Advantages: Negative feedback, a common feature in closed-loop systems, brings several benefits:
- Reduced sensitivity to parameter variations.
- Lowered system gain by a factor of (1+GH).
- Increased system bandwidth.
- Reduced impact of internal disturbances.
Side-by-Side Comparison: Open Loop vs. Closed Loop
Here’s a table highlighting the key differences between the two:
| Feature | Open Loop Control System | Closed Loop Control System |
|---|---|---|
| Accuracy | Accurate only if the calibration is perfect. | More accurate due to the presence of feedback. |
| Complexity | Simple and easy to construct. | More complex and difficult to design and implement. |
| Stability | Generally stable in operation. | Stability can be dependent on system components and can be more sensitive. |
| Non-linearity Impact | System performance degrades if non-linearity is present. | Better performance compared to open-loop systems even with non-linearity. |
