At the same time, they have to maintain the electrical equipment and protect it from damage due to sudden surges. One of the devices that engineers use to protect the equipment is a lightning rod.
The lightning rod (or lightning rod) is a device designed to protect electrical equipment, systems and components against surges and surges. In another definition, this is a type of protection device that is designed to limit surges by preventing or discharging surges, as well as to prevent the flow of excess electricity. Power surges can be caused by lightning or electrical interruptions. Such an incident can be very dangerous and can damage electronic devices such as computers.
All electronic devices, from desktop computers to transmission and distribution systems, will be subject to lightning, changes or other devastating effects of surges. For them, surge protection is a priority when connecting electronic devices or devices to low, medium or high voltage electrical systems. Each product with components or insulation systems that are vulnerable to surges requires a lightning rod to protect against surges.
The lightning rod consists of a long and thick copper rod
Copper is the preferred metal for said electrical device, since it is a known conductor of electricity and can pass a large amount of charges through it. Metal can really fulfill its purpose.
The copper rod of theĀ home lightning rod services aurora co passes through the walls of the building, whose upper end is equipped with a metal plate with sharp points (visible at the top of the building), and the lower end is connected to a copper plate that It is embedded in the ground in a process called grounding (or grounding). The ground connection allows surplus loads to cross to ground. Why is the ground connection included in the image?
When a wave enters a system or device, it tries to dissipate, choosing the most efficient routes. Here, a lightning rod provides a path for overvoltage. In doing so, it directs excess electricity from the system or device and directs them to the ground so that they dissipate without damaging the system or device.
Soft clay soils are ideal for lightning rod floors, although other types of soil are preferred. The resistance of the soil surface must be as low as possible so that electricity can flow rapidly through the device before it can penetrate and damage the system and its components. In addition, it is important to install the device as close as possible to the equipment that is protected to provide better protection against the lightning rod.
Conclusion
If you wish to install it to avoid lightning strikes and protect the electrical system, you must contact a licensed electrician with ASP Level 1 experience to install, connect and position the device correctly. A lightning rod improperly installed or improperly installed can only cause more damage.