HMSR Partial Discharge RF/EMI Shielded Room
Applications:
A partial discharge RF/EMI shielded room is a specialized room designed to shield against electromagnetic interference(EMI)caused by partial discharges.Partial discharges are small electrical discharges that occur within insulation materials,such as those used in high voltage equipment.These discharges can generate electromagnetic waves that can interfere with sensitive electronic equipment.
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Profile:
A partial discharge RF/EMI shielded room is a specialized room designed to shield against electromagnetic interference(EMI)caused by partial discharges.Partial discharges are small electrical discharges that occur within insulation materials,such as those used in high voltage equipment.These discharges can generate electromagnetic waves that can interfere with sensitive electronic equipment.
The RF shielded room is constructed using a combination of conductive and non-conductive materials to create a Faraday cage,which prevents electromagnetic waves from entering or leaving the room.The walls,ceiling,and floor of the room are typically made of conductive materials,such as copper or aluminum,and are grounded to prevent the buildup of static electricity.
The room is also equipped with specialized instrumentation to monitor for partial discharges,such as high-frequency sensors and oscilloscopes.These instruments can detect and measure the electromagnetic waves generated by partial discharges,allowing for early detection and diagnosis of potential equipment failures.
Partial discharge RF shielded rooms are commonly used in industries such as power generation,aerospace,and telecommunications,where sensitive electronic equipment is used in close proximity to high voltage equipment.
The RF shielded room is constructed using a combination of conductive and non-conductive materials to create a Faraday cage,which prevents electromagnetic waves from entering or leaving the room.The walls,ceiling,and floor of the room are typically made of conductive materials,such as copper or aluminum,and are grounded to prevent the buildup of static electricity.
The room is also equipped with specialized instrumentation to monitor for partial discharges,such as high-frequency sensors and oscilloscopes.These instruments can detect and measure the electromagnetic waves generated by partial discharges,allowing for early detection and diagnosis of potential equipment failures.
Partial discharge RF shielded rooms are commonly used in industries such as power generation,aerospace,and telecommunications,where sensitive electronic equipment is used in close proximity to high voltage equipment.
Features:
- Electromagnetic shielding: The metal structure of the shielding room can effectively shield electromagnetic radiation from partial discharge tests, preventing interference with the surrounding environment and other electronic devices.
- Insulation performance: The shielded room must have good insulation performance to prevent current leakage or leakage, ensuring safety and reliability.
- Conductive ground: The shielding room should also be equipped with conductive ground to timely introduce the charges generated during partial discharge testing into the ground and reduce the electric field strength.
- Sound insulation performance: Partial discharge laboratories are usually located inside environments such as laboratories or factories, and need to have sound insulation performance to avoid noise affecting the surrounding environment and other testing equipment.
- Safety and operational convenience: The partial discharge laboratory needs to provide a comfortable operating environment and take corresponding safety measures, such as emergency power off buttons, electric shock protection devices, etc., to ensure the safety of operators.
Parameter:
- Metal shielding box: Made of aluminum copper alloy, it has good electromagnetic shielding performance and can effectively shield external electromagnetic waves.
- Screen door: used to control personnel entering and exiting the screen room. The door is equipped with an electronic lock that can be unlocked through password or fingerprint recognition.
- Metal discharge body: used to simulate high-frequency signals generated by partial discharge phenomena, and can adjust the voltage and frequency of the discharge body.
- Cable interface: used to connect the cable interface with the external host.
- Partial discharge detector: used to detect high-frequency signals generated by partial discharge phenomena.
- Signal amplifier: used to amplify the signal detected by the partial discharge detector, so that it can be recognized by the analytical instrument.