Gas Discharge Tube

Product Description: The Gas Discharge Tube is made of a ferritic stainless steel tube that contains a small amount of gas. When a voltage surge occurs, the gas ionizes, creating a low-resistance path for the electrical energy to follow. This protects the electronic device from the harmful effects of the surge. The Gas Discharge Tube has a fast response time of 25ns, which means it can react quickly to high voltage surges and protect devices before damage occurs. It has a

Product Description: Made with high-quality materials, the GDT is constructed with a ferritic stainless steel pipe tube and carbon steel pipe tube, providing durability and longevity. Additionally, the GDT has a response time of 25ns, meaning it quickly responds to transient voltage spikes, protecting sensitive electronic components. One of the key features of the GDT is its wide operating temperature range of -40℃ ~ +90℃, making it suitable for use in various environments.

Product Description: Product Overview: Gas Discharge Tube The Gas Discharge Tube, also known as GDTs or Gas Plasma Arrestors, is a highly effective and reliable component used for surge protection in electronic circuits. It is designed to protect sensitive electronic equipment from high voltage and high current surges caused by lightning strikes, power fluctuations, and other electrical disturbances. With its compact size of 6.5mm x 6.5mm x 5.5mm, the Gas Discharge Tube is

Product Description: Gas Discharge Tube Gas Discharge Tube, also known as GDT, is a type of electrical component used for surge protection. It consists of a small, sealed glass or ceramic tube filled with noble gases such as neon, argon, or xenon. When the voltage exceeds a certain threshold, the gases inside the tube ionize and create a low-resistance path for the surge current to flow, protecting the circuit from damage. Lead Material: Tinned Copper The leads of Gas

Product Description: Product Overview - Gas Discharge Tube The Gas Discharge Tube is a type of electrical component used for protecting electronic circuits against overvoltage. It is commonly known as a Fuel Injector Tube or a Gas Spring Cylinder due to its shape and function. The Gas Discharge Tube is designed to quickly and safely dissipate high voltage surges, protecting sensitive electronic equipment from damage. Voltage Rating The Gas Discharge Tube has a voltage rating

Product Description: Gas Discharge Tube The Gas Discharge Tube (GDT) is a highly efficient and reliable device designed to provide high voltage protection and overvoltage protection. It is widely used in various electronic and electrical applications to protect against transient overvoltages caused by lightning strikes, power surges, and other voltage fluctuations. Dimensions The Gas Discharge Tube has a compact size of 6.5mm X 6.5mm X 5.5mm, making it easy to install in

Low Insertion Loss Gas Discharge Tube SC2E5-230LSMD, SMD Pacakage 1.0pF DATASHEET: SC2E5-SMD_v2110.1.pdf Part Number DC Spark-over Voltage Maximum Impulse Spark-over Voltage Minimum Insulation Resistance Maximum Capacitance Arc Voltage Service Life Nominal Impulse Discharge Current Max Impulse Discharge Current Nominal Alternating Discharge Current Impulse Life @100V/S @100V/μs @1KV/μs @1MHz @1A @8/20μs ±5 times @8/20μs 1 time @50Hz 1 Sec 10 times @10/1000μs 300 times SC2E5

SOCAY GDT Gas Discharge Tube SC2E5-600LSMD, Excellent Response to Fast Rising Transients DATASHEET: SC2E5-SMD_v2110.1.pdf Part Number DC Spark-over Voltage Maximum Impulse Spark-over Voltage Minimum Insulation Resistance Maximum Capacitance Arc Voltage Service Life Nominal Impulse Discharge Current Max Impulse Discharge Current Nominal Alternating Discharge Current Impulse Life @100V/S @100V/μs @1KV/μs @1MHz @1A @8/20μs ±5 times @8/20μs 1 time @50Hz 1 Sec 10 times @10/1000μs

800V Gas Discharge Tube Arresters SC2E5-800LSMD, 5KA Surge Capability Tested with 8/20μs Pulse DATASHEET: SC2E5-SMD_v2110.1.pdf Part Number DC Spark-over Voltage Maximum Impulse Spark-over Voltage Minimum Insulation Resistance Maximum Capacitance Arc Voltage Service Life Nominal Impulse Discharge Current Max Impulse Discharge Current Nominal Alternating Discharge Current Impulse Life @100V/S @100V/μs @1KV/μs @1MHz @1A @8/20μs ±5 times @8/20μs 1 time @50Hz 1 Sec 10 times @10

800V DC Spark-over Voltage, SOCAY 2-Electrode Ceramic Gas Discharge Tube SC2E8-800H, Axial Leaded Devices DATASHEET: SC2E8_v91.1.pdf Working Principle In parallel on the circuit, when the device does not operate, the resistance value is high (GΩ), low equivalent capacitance can be regarded as open circuit, almost no impact on the circuit. When there is an abnormal pulse, the internal resistance drops instantaneously after reaching the operating voltage value, and the current

20KA Surge Capability Ceramic Gas Discharge Tube SC2E8-350HL, SOCAY 2-Electrode GDT DATASHEET: SC2E8_v91.1.pdf These protective components are also indispensable in other sectors, In AC power transmission systems, they are often used with current-limiting varistors, In customer premises equipment such as DSL modems, WLAN routers, TV sets and cable modems In air-conditioning equipment, the integral black-box concept offers graduated protection by combining arresters with

SOCAY Gas Discharge Tube Surge Protector SC2E5-90LSMD, Surface Mount GDT DATASHEET: SC2E5-SMD_v2110.1.pdf Part Number DC Spark-over Voltage Maximum Impulse Spark-over Voltage Minimum Insulation Resistance Maximum Capacitance Arc Voltage Service Life Nominal Impulse Discharge Current Max Impulse Discharge Current Nominal Alternating Discharge Current Impulse Life @100V/S @100V/μs @1KV/μs @1MHz @1A @8/20μs ±5 times @8/20μs 1 time @50Hz 1 Sec 10 times @10/1000μs 300 times SC2E5

800V Axial Leaded Ceramic GDT Tube SC2E8-800ML Classical Components DATASHEET: SC2E8_v91.1.pdf Gas discharge tube (GDT) typical application circuitCeramic gas discharge tubes (GDT) are widely used in communication lines and power line protection of electronic products such as communications, security, and industry. When used in power line protection, ceramic gas discharge tubes (GDT) shouldApplied in series with MOV or TVS, as shown in Figure 2. Figure 3 shows the RJ45

2-Electrode Gas Discharge Tube (GDT) SC1812-90CSMD, Surface Mount Device, UL Recognized DATASHEET: SC1812_v2106.1.pdf Part NumberDC Spark-over VoltageMaximum Impulse Spark-over VoltageMinimum Insulation ResistanceMaximum CapacitanceArc VoltageNominalImpulse Discharge Current @100V/S@100V/μs@1KV/μs @1MHz@1A@8/20μs±5 timesSC1812-75CSMD75V±30%＜600V＜700V1 GΩ (at 50V DC)＜1.0pF~15V2 KASC1812-90CSMD90V±20%＜600V＜700V1 GΩ (at 50V DC)＜1.0pF~15V2 KASC1812-150CSMD150V±20%＜600V＜700V1 GΩ

SOCAY Ceramic Gas Discharge Tube SC1812-600CSMD, Non-Radioactive, Suitable for Data Lines DATASHEET: SC1812_v2106.1.pdf Descriptions: Gas discharge Tubes (GDT) are classical components for protecting the installations of the telecommunications. It is essential that IT and telecommunications systems -with their high-grade but sensitive electronic circuits - be protected by arresters. The 1812 series GDT offers high surge ratings in a miniature package. It’s designed for

Without Wire Devices Gas Discharge Tube SC2E5-230L, Excellent Response to Fast Rising Transients DATASHEET: SC2E5_v91.1.pdf Descriptions: Gas discharge Tubes (GDT) are classical components for protecting the installations of the telecommunications. It is essential that IT and telecommunications systems -with their high-grade but sensitive electronic circuits - be protected by arresters. They are thus fitted at the input of the power supply system together with varistors and

Gas Surge Arrester SC3E8-600HP, 3 Pole "T" Lead Devices Gas Discharge Tube DATASHEET: SC3E8_v2308.1.pdf Part Number Marking DC Spark-over Voltage Maximum Impulse Spark-over Voltage Minimum Insulation Resistance Maximum Capacitance Arc Voltage Service Life Nominal Impulse Discharge Current Max Impulse Discharge Current Nominal Alternating Discharge Current Impulse Life @100V/S @100V/μs @1KV/μs @1MHz @1A @8/20μs 4) ±5 times @8/20μs 4) 1 time @50Hz 4) 1 Sec 10 times @10/1000μs 4

350V Gas Discharge Tube Arresters SC2E5-350LSMD, Surface Mount GDT Suitable for Communication Equipment DATASHEET: SC2E5-SMD_v2110.1.pdf Part NumberDCSpark-over VoltageMaximumImpulse Spark-overVoltageMinimum Insulation ResistanceMaximum CapacitanceArc VoltageService Life NominalImpulse Discharge CurrentMax Impulse Discharge CurrentNominal Alternating Discharge CurrentImpulseLife @100V/S@100V/μs@1KV/μs @1MHz@1A@8/20μs±5 times@8/20μs1 time@50Hz1 Sec10 times@10/1000μs300

SOCAY Radial Leaded Devices GDT SC3E8-600HM, Ultra Low Capacitance DATASHEET: SC3E8_v2308.1.pdf Part Number Marking DC Spark-over Voltage Maximum Impulse Spark-over Voltage Minimum Insulation Resistance Maximum Capacitance Arc Voltage Service Life Nominal Impulse Discharge Current Max Impulse Discharge Current Nominal Alternating Discharge Current Impulse Life @100V/S @100V/μs @1KV/μs @1MHz @1A @8/20μs 4) ±5 times @8/20μs 4) 1 time @50Hz 4) 1 Sec 10 times @10/1000μs 4) 300

600V Gas Surge Arrester SC3E8-600HMF, Radial Leaded Devices with Fail-Sale DATASHEET: SC3E8_v2308.1.pdf Part Number Marking DC Spark-over Voltage Maximum Impulse Spark-over Voltage Minimum Insulation Resistance Maximum Capacitance Arc Voltage Service Life Nominal Impulse Discharge Current Max Impulse Discharge Current Nominal Alternating Discharge Current Impulse Life @100V/S @100V/μs @1KV/μs @1MHz @1A @8/20μs 4) ±5 times @8/20μs 4) 1 time @50Hz 4) 1 Sec 10 times @10/1000μs 4