2035-40-SM-RP

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Gas Discharge Tube Arresters (GDT) are used for overvoltage and lightning protection in electrical systems, and are designated as 2035-40-SM-RP. They provide protection for electric power systems from operating high voltages above a system\'s rated operating voltages. In essence, GDTs offer a surge absorbing capability to electrical systems protecting them from any over-voltages that the system is not capable of handling. The primary function of GDTs is to allow current to flow in one direction, but to prevent current from flowing in the other direction. This allows a surge of energy to be released in a controlled manner, preventing any potential damage from occurring to the electrical system.

GDTs are made up of two main parts: an electrode and a dielectric cylinder. The two are separated by an insulating filling, which is usually a gas like oxygen, nitrogen or air. The gas is compressed between the two parts, creating a gap in the form of a non-conductive arc that can be adjusted to customize the characteristics of the GDT. This is done by simply adjusting the pressure in the cylinder, allowing the GDT to withstand different voltages.

A GDT arrester works in two phases. In the first phase, when a surge or over-voltage occurs, the voltage will exceed the breakdown voltage of the GDT. This causes an arc to form between the two electrodes, allowing the surge of energy to be released in a controlled, or slower, manner. The second phase of the process is where the GDT\'s voltage is reset, allowing the device to remain effective if there is another surge.

2035-40-SM-RP GDTs have been designed to protect electric power systems from direct and indirect lightning strikes. They work by limiting overvoltages to a safe level, thus preventing any damage to the electric system. The working principle behind this type of GDT is similar to other GDTs, except that it is designed to provide better protection from direct and indirect lightning strikes. This type of GDT is composed of two parts: a gas-filled cylinder and a dielectric insulator. When a surge or lightning strike occurs, the voltage rises until it hits the breakdown voltage of the GDT, allowing an arc to form between the two electrodes. This arc releases the surge in a controlled manner, thus preventing any further damage to the electric system.

Gas discharge tube arresters provide an effective and reliable overvoltage protection to any electrical system. When a surge arises, the GDT will absorb the surge through the arc which is formed when the breakdown voltage is reached. This prevents any further damage to the electric system. In addition, 2035-40-SM-RP GDTs offer better protection from direct and indirect lightning strikes, which makes them ideal for protecting outdoor power systems. Overall, GDTs are an important part of any power system\'s surge protection and should always be taken into account when considering a power system\'s safety and protection.

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