Electrical Panels:
It includes devices that control, protect, and isolate electrical equipment and circuits in a power system, which are housed in metal enclosures. Components include circuit breakers, fuses, relays, switches and transformers. They manage power distribution and ensure safety by controlling power flow and protecting against faults. Switchgears have different levels of low voltage, medium voltage and high voltage depending on the use.
Low Voltage Electrical Panels:
Low voltage switchboards are critical components of power distribution systems designed to handle voltage levels up to 1 kV. These panels play a vital role in dividing the power supply to the branch circuits while providing protection and control. Common types of low voltage switchboards include main switchboards, distribution panels; motor control centers (MCCs) and switchgears.
Medium Voltage Electrical Panels:
Medium voltage switchboards, also known as medium voltage switchboards, are essential components of electric power systems used to control, protect, and distribute electricity in systems operating at medium voltage levels, typically from 1 kV to 36 kV are designed. These panels consist of various components such as switches, circuit breakers, relays and transformers enclosed in a mostly metal structure. They play an important role in switching, protecting and controlling electric circuits in medium voltage systems. Medium voltage switchgear can be classified based on the insulation medium used, such as gas-insulated switchgear (GIS) or air-insulated switchgear (AIS). These panels are critical to ensure the safe and efficient distribution of electricity in various industrial, commercial and utility applications.
Control and Automation Panels:
Control and automation panels are integral components of industrial, building and commercial systems that facilitate the monitoring and management of various processes and equipment. These panels use a combination of relays, timers, sensors, starters and controllers to perform various tasks from simple to complex automation processes. Their main goals include increasing productivity, reducing downtime, improving efficiency, and ensuring safety in industrial and non-industrial environments. . The key elements of these panels include main circuit breakers, arresters and power distribution components that form the backbone of the electrical infrastructure within the panel. Design automation and computer-aided design methods play an important role in optimizing the operation and performance of control panels.