Difference Between Open Loop & Closed Loop Systems
Difference Between Open Loop & Closed Loop Systems :
Control systems are used to arrange and manage components in a way
that the required condition or output is obtained. The word ‘control’
itself shows the command over any system. It is controlled when the
systems is stable.
There are two attributes of control system :
- Stability
- Desired output
A control system can be functioned electrically, mechanically,
pressure by fluid (gas or liquid), or it can be combination of these
ways. In the preceding tutorial we introduced control systems, their
principle of working, the variables involved in the functioning of
control systems and the basic types.
In this tutorial we will be conferring over the major types of
control systems namely: Open loop systems and closed loop systems. The
tutorial will deal with the chief differences between the two types.
Let’s have a look on the basic working of the two systems :
Open loop control systems
An open-loop control system takes input under the consideration and
doesn’t react on the feedback to obtain the output. This is why it is
also called a non-feedback control system.
There are no disturbances or variations in this system and works on fix conditions.
Closed loop control systems
A closed loop system is also referred as a feedback control system.
These systems record the output instead of input and modify it according
to the need. It generates preferred condition of the output as compared
to the original one. It doesn’t encounter any external or internal
disturbances.
Differences between Open-loop and Closed-loop control systems :
These two types of control system have contrast with each other. They have dissimilarities some of which are discussed below:
- Effect of output – An open loop control system acts completely on the basis of input and the output has no effect on the control action.
- Reaction to Internal and External Disturbances – An open loop control system works on fixed operation conditions and there are no disturbances.
- Stability – Open loop control systems are mostly stable.
- Effect on gain – There is no effect on gain.
- Implementation – The structure of open loop control system is rather easy to construct. These systems can be easily implemented.
- Cost – As an open loop control system is easy to implement, it needs lesser number of components to be constructed. Such systems need good calibration and lesser power rating. The overall cost of these systems is low.
- Examples
– A closed loop control system considers the current output and alters it to the desired condition. The control action in these systems is based on the output.
– A closed loop control system doesn’t encounter and react on external disturbances or internal variations.
– In closed loop control systems stability is a major issue.
– There is no-linear change in system gain.
– The working principle and structures of closed loop control systems are rather complex and they are often difficult to implement.
– As the principle is complex, a closed loop control system needs larger number of components than an open loop control systems. These systems comparatively need less calibration and higher power rating. The overall cost of these systems is higher.
– Stepper motors are one of the major examples of open-loop control systems. Automatic washing machine is yet another good example.
– Television remote is the most significant example of closed loop control systems. A computer mouse is another good example.
Conclusion
The two types of control systems, open loop and control loop are
entirely different from each other. Open loop is simple and works on the
input while closed loop is complex and works on the output and modifies
it.
In the upcoming tutorial we will study time domain analysis
of control systems in detail. So stay tuned to have more insight about
the control structures .
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