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Industrial settings often use sensors for factory automation to monitor and manage several facets of the production process. These sensors are essential for a factory or industrial facility’s effective and secure functioning.
Temperature, pressure, proximity, motion, level, flow, and position are just a few of the physical characteristics that factory automation sensors are made to detect and monitor. They transform these physical impulses into electrical signals so that automated systems can process and utilise them.
Several popular kinds of factory automation sensors are listed below:
These are only a few types of the numerous sensors that are employed in factory automation. For the purpose of providing accurate data and enabling precise management of industrial processes, each type of sensor is integrated into the entire automation system and has unique applications.
The South Korea Factory Automation Sensor market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
With a clever and sustainable solution that prepares the way for future smart switchgear, Siemens clever Infrastructure has increased the range of medium voltage products it offers, which is the best in the business.
The SIBushing can be connected to the SICAM FCM + (Feeder Condition Monitor), a multi-functional short-circuit and earth-fault indication that employs detection algorithms to show the direction of the cable fault, as a result of its conformity with the instrument transformer standard IEC 61869.
The SICAM FCM plus with SIBushing, which is applicable for medium voltage distribution systems up to 36 kV, provides unmatched transparency and high-precision measurement of distribution systems while using significantly less power than traditional instrument transformer technologies.
The SICAM FCM plus, designed for small, intelligent secondary substations, offers system operators a way to quickly locate faults and increase distribution grid transparency.
It is appropriate for compensated, grounded, and isolated networks. The adaptive integrated temperature compensation algorithm of SICAM FCM plus also provides high-precision measurement without calibration and adjustment to the primary operating voltages and currents, while also reducing installation costs and requiring little maintenance.