Allicdata Part #: | 2036-20-A-ND |
Manufacturer Part#: |
2036-20-A |
Price: | $ 0.61 |
Product Category: | Circuit Protection |
Manufacturer: | Bourns Inc. |
Short Description: | GDT 200V 20% 10KA |
More Detail: | Gas Discharge Tube 200V 10000A (10kA) ±20% 3 Pole ... |
DataSheet: | 2036-20-A Datasheet/PDF |
Quantity: | 1000 |
Lead Free Status / RoHS Status: | Contains lead / RoHS non-compliant |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
1000 +: | $ 0.55661 |
Series: | Mini-TRIGARD™ 2036 |
Packaging: | Tray |
Lead Free Status / RoHS Status: | -- |
Part Status: | Active |
Moisture Sensitivity Level (MSL): | -- |
Voltage - DC Spark Over (Nom): | 200V |
Impulse Discharge Current (8/20µs): | 10000A (10kA) |
Tolerance: | ±20% |
Number of Poles: | 3 |
Fail Short: | No |
Mounting Type: | User Defined |
Package / Case: | Cylinder No Lead, 3 Terminal |
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Gas Discharge Tubes (GDT) are an important tool used in electric power system protection from damaging lightning and transient overvoltages. The GDT has been in use for over 100 years. In many applications GDT present a simpler and more reliable solution than other surge protection devices. Through understanding the operating principles of GDT it is possible to use these components in the most effective manner for protecting equipment from lightning damage and other overvoltage effects.
The operating principle of a GDT is similar to that of a vacuum tube and is based on controlling the passage of electricity through a gas medium. When a voltage is applied across two electrodes, the voltage difference causes electric charges to ionize the gas atoms. This allows the current to flow as electrons pass from the negative electrode to the positive electrode. As the voltage is increased, the current will continue to increase until a point is reached where the arc is extinguished due to overload.
GDTs come in a variety of shapes and sizes and are constructed differently depending on the application. In the most common type, a metal oxide pellet is contained between two electrodes. As voltage is applied, the pellet breaks down at a particular voltage and forms an arc which interrupts the current. GDTs are often designed with a specific voltage limit in mind - once this limit is exceeded, the arc is extinguished and the current is interrupted.
GDTs are commonly used in electrical power system protection as they are reliable and can be designed to handle higher voltages than regular arrestors. They are also used in communication and data processing equipment where low currents are involved. GDTs are also used in overhead power lines and distribution systems to protect against lightning strikes and other transient overvoltages.
In addition to protection from overvoltages, GDTs are also used in control circuitry for switching power, circuit-breaker tripping, and other electronic systems where reliable control circuitry is needed. GDTs are often used in applications where energy must be switched off quickly and reliably, and they provide an alternate solution to other types of control devices.
GDTs have a variety of advantages over other types of arrester and surge protection devices. They are cost effective, have a long operational life, and are compact in size. GDTs also respond quickly to change in voltage, allowing the system to act quickly in the event of an overvoltage or surge. They also provide some additional benefits such as providing grounding protection and insulation fault protection.
Although GDTs are generally reliable and provide effective protection, there are some drawbacks to using them. They require regular maintenance and can be difficult to install in areas with limited space. They also require a power source to operate, which increases costs. Finally, GDTs may also be less effective at high frequencies.
In summary, GDTs are an important tool used in electric power system protection from damaging lightning and other overvoltage effects. They provide cost effective, reliable protection and can be designed to handle a wide range of voltages. GDTs are a viable alternative to other types of arrester and surge protection devices, although there are some drawbacks associated with their use. With proper use and installation, GDTs can provide effective protection and help reduce the risk of damaging lightning and other transient overvoltages.
The specific data is subject to PDF, and the above content is for reference
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