2019 Series, Gas Discharge Tube Arresters (GDT)

Results:
6
Manufacturer
Series
Voltage - DC Spark Over (Nom)
Package / Case
Fail Short
Impulse Discharge Current (8/20µs)
Tolerance
Number of Poles
Mounting Type
Results remaining6
Applied Filters:
2019
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ImageProduct DetailPriceAvailabilityECAD ModelToleranceNumber of PolesSeriesVoltage - DC Spark Over (Nom)Impulse Discharge Current (8/20µs)Fail ShortMounting TypePackage / Case
2019-09-SMH-RPLF
GDT 90V 20KA 2 POLE SMD HORIZ
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Quantity
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PCB Symbol, Footprint & 3D Model
±20%
2
2019
90 V
20000A (20kA)
No
Surface Mount Horizontal
Disc 10.00mm Tabbed SMD
2019-15-SMH-RPLF
GDT 150V 20KA 2 POLE SMD HORIZ
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Quantity
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PCB Symbol, Footprint & 3D Model
±20%
2
2019
150 V
20000A (20kA)
No
Surface Mount Horizontal
Disc 10.00mm Tabbed SMD
2019-23-SMH-RPLF
GDT 230V 20KA 2 POLE SMD HORIZ
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Quantity
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PCB Symbol, Footprint & 3D Model
±20%
2
2019
230 V
20000A (20kA)
No
Surface Mount Horizontal
Disc 10.00mm Tabbed SMD
2019-09-SMH-LF
GDT 90V 20KA 2 POLE SMD HORIZ
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
±20%
2
2019
90 V
20000A (20kA)
No
Surface Mount Horizontal
Disc 10.00mm Tabbed SMD
2019-15-SMH-LF
GDT 150V 20KA 2 POLE SMD HORIZ
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
±20%
2
2019
150 V
20000A (20kA)
No
Surface Mount Horizontal
Disc 10.00mm Tabbed SMD
2019-23-SMH-LF
GDT 230V 20KA 2 POLE SMD HORIZ
Contact us
Quantity
Contact us
PCB Symbol, Footprint & 3D Model
±20%
2
2019
230 V
20000A (20kA)
No
Surface Mount Horizontal
Disc 10.00mm Tabbed SMD

Gas Discharge Tube Arresters (GDT)

A gas discharge tube (GDT) is a specialized type of electrical protection component that is designed to protect sensitive electronic equipment from voltage spikes and surges. It is typically used in high-voltage applications and is designed to handle large currents and high voltages. The GDT consists of a glass or ceramic tube that is filled with a mixture of inert gases, such as neon, argon, or a combination of both. The tube contains two electrodes at either end and is sealed to prevent the gas from escaping. When a voltage greater than the GDT's rating is applied across the electrodes, the electric field within the tube becomes strong enough to ionize the gas molecules, causing them to release electrons and become conductive. This allows the excess electrical energy to be safely diverted to ground, protecting the connected equipment from damage. GDTs are commonly used in telecommunications equipment, power distribution systems, and other applications where high-voltage surges and transients can pose a risk to sensitive electronics. They are a reliable and effective way to protect against electrical damage and ensure the safe operation of electrical systems.