In the modern condition, a puzzling issue is that of different control purposes of different units which are conveyed over a vast territory. There are several checkpoints that require you to be physically worked in a crisis or during typical working hours, and checking several checkpoints in the meantime may not be humanly possible. Each control unit must be checked and changed manually and each of them is vital. There may be human error in processing them, causing real misfortunes in mechanical assemblies, but in industry every misfortune increases exponentially. Furthermore, there are few controls that need to be checked regularly keeping in mind the end goal to be adopted after the changes in the framework and their effect on the element. Screening every change that gets pushed to different places on the drive is relatively inconceivable, and if you need a structure where you need to look at several drives in the meantime, some continuous slack takes over. Compliance with different control frameworks causes efficiency problems for a unit or even the entire company. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get Original Essay Switching system is one of these critical systems. Switchboards help monitor and control several distant units. These systems may be found locally or at separations from primary units. In this way, observing and controlling them physically turns into a problematic task. Monitoring and controlling problems are not just limited to industries. They can be found in the machines and tools we use in our laboratories for innovative work purposes. To defeat these problems, there are two possible ways out. The first way, which by all accounts is a less demanding but no brighter system, is expanding human labor. By expanding human power by working in a unit you can address this problem to some extent. Almost no slack can be eliminated and several units can be controlled and observed. However, in the long run, this solution will cause some problems. In industries, the expansion of human power implies an increase in the load on the economy, which implies fewer benefits in the end. The second solution is to design a system that can simultaneously monitor and control distant units. In our laboratory we have five switchgear systems that are independently monitored and controlled. So, in our case, if we develop centralized control for switchgear systems, we must can overcome the problem of managing and monitoring five units. In addition, the implemented SCADA of switching systems on LabVIEW has its own significance. LabVIEW (Laboratory Virtual Instrument Engineering Workbench) is software for designing systems using visual programming from National Instruments. By running Switch Gear System SCADA on LabVIEW we are essentially studying another approach to running the most powerful machines in the industry using the most exceptional LabVIEW programming. There are four basic objectives of this project: Design circuits for automatic control of switchgear systems modes Control switchgear systems via PLC Monitoring and control of switchgear systems by HMI Monitoring and control of switchgear systems by LabVIEW In our project the control was implemented based on SCADA and fault detection of switchgear systems. Switching systems are used as often as possible and basically as part of modern processes and.