Surge arresters, also known as surge protectors or lightning arresters, are devices designed to divert excess voltage and protect sensitive electronic devices, appliances, and electrical systems from transient voltage surges or spikes. These surges can occur due to lightning strikes, power grid fluctuations, switching operations, or other electrical disturbances. Surge arresters work by providing a low-resistance path for the excessive voltage to be safely discharged to the ground, thereby preventing the voltage from reaching and damaging the protected equipment.
Here's how surge arresters work to safeguard sensitive devices from surges:
Voltage Diversion: Surge arresters are installed in parallel with the devices or systems they are meant to protect. They have a high surge voltage handling capacity. When a transient voltage surge occurs, the surge arrester's voltage rating is designed to be lower than the threshold at which the connected equipment could be damaged. This means that when the voltage surge exceeds a certain level, the surge arrester becomes conductive and starts to divert the excessive energy away from the protected equipment.
Internal Components: A surge arrester typically consists of several key components, including metal oxide varistors (MOVs) and a gas discharge tube (GDT). These components are designed to have high resistance under normal operating conditions, allowing them to act as insulators. However, when the voltage surge exceeds a certain threshold, the resistance of these components decreases, allowing them to conduct and divert the excess voltage.
Metal Oxide Varistors (MOVs): These are voltage-dependent resistors that exhibit nonlinear characteristics. Under normal conditions, they have high resistance. But when the voltage exceeds a certain level (the clamping voltage), their resistance decreases dramatically, allowing them to absorb and shunt excess energy to the ground.
Gas Discharge Tube (GDT): GDTs are devices that use ionized gas to conduct electricity when a voltage threshold is reached. They provide an alternative path for the excessive energy to be diverted safely to the ground.
Grounding: An essential aspect of surge protection is proper grounding. Surge arresters are connected to a good grounding system, which provides a low-resistance path for the excess energy to flow safely into the Earth. Grounding helps to prevent the excess energy from causing damage to the equipment or the electrical system.
Fast Response Time: Surge arresters are designed to respond quickly to voltage spikes. This rapid response time is crucial to ensure that the excess energy is diverted before it can reach and damage the sensitive devices.
Maintenance and Replacement: Surge arresters are not a one-time solution. Over time, their effectiveness can degrade due to repeated exposure to surges. Therefore, regular maintenance and periodic replacement of surge arresters are necessary to ensure continued protection.
In summary, surge arresters provide a reliable means of diverting excess voltage and protecting sensitive devices from transient voltage surges. By offering a low-resistance path to ground during surges, they prevent damaging voltage levels from affecting electronic equipment and systems.