Lightning Arrester Axial Leaded Ceramic Gas Discharge Tube 600V SC2E8-600ML GDT Electronic Component
Brand Name:SOCAY
Certification:UL,REACH,RoHS,ISO
Model Number:SC2E8-600ML
Minimum Order Quantity:1000PCS
Delivery Time:5-8 work days
Place of Origin:Shenzhen, Guangdong, China
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Shenzhen Guangdong China
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4/F, Block C, HeHengXing Science & Technology Park, 19 MinQing Road, LongHua District, Shenzhen City, GuangDong Province, China
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Lightning arrester Axial Leaded Ceramic Gas Discharge Tube 600V SC2E8-600ML GDT Electronic Component
DATASHEET: SC2E8_v91.1.pdf
Working principle of ceramic gas discharge tube
Ceramic gas discharge tubes are sealed with ceramics, and are
composed of two or more metal electrodes with gaps inside, filled
with inert gases argon and neon. Generally, they are connected in
parallel on the circuit. When the device does not operate, the
resistance is very high and the equivalent capacitance is low. It
can be regarded as an open circuit and has almost no impact on the
circuit. When there is an abnormal pulse, the internal resistance
drops instantly after reaching the operating voltage value, and the
current is released. When the abnormal high voltage disappears, it
will automatically return to the high resistance state and the
circuit will operate normally.
| 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 Impulse 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 | |||
SC2E8-420M SC2E8-420ML SC2E8-420MSMD | SOCAY 420M | 420V±20% | <900V | <1000V | 1 GΩ (at 100V) | <1.5pF | ~20V | 10KA | 20KA | 10A | 100A |
SC2E8-470M SC2E8-470ML SC2E8-470MSMD | SOCAY 470M | 470V±20% | <900V | <1000V | 1 GΩ (at 100V) | <1.5pF | ~20V | 10KA | 20KA | 10A | 100A |
SC2E8-600M SC2E8-600ML SC2E8-600MSMD | SOCAY 600M | 600V±20% | <1100V | <1200V | 1 GΩ (at 100V) | <1.5pF | ~20V | 10KA | 20KA | 10A | 100A |
SC2E8-800M SC2E8-800ML SC2E8-800MSMD | SOCAY 800M | 800V±20% | <1200V | <1400V | 1 GΩ (at 100V) | <1.5pF | ~20V | 10KA | 20KA | 10A | 100A |
Advantages of ceramic gas discharge tubes:
1. Before breakdown (conduction), it is equivalent to an open circuit, with a large resistance and no or very small leakage current;
2. After breakdown (conduction), it is equivalent to a short circuit, which can pass a large current with a very small voltage drop;
3. The pulse current capacity (peak current) is very large; 2.5kA~100kA;
4. It has two-way symmetry characteristics.
5. The capacitance value is very small, less than 3pF.
Disadvantages of ceramic gas discharge tubes:
1. Since gas ionization requires a certain amount of time, the response speed is slow. The response time is generally 0.2~0.3μs (200~300ns), and the fastest is about 0.1μs (100ns). Before it is turned on, there will be a Sharp pulses with larger amplitudes leak through and have no protective effect;
2. The breakdown voltage has poor consistency and large dispersion, generally ±20%;
3. The breakdown voltage has only a few specific values;
Selection of ceramic gas discharge tubes:
1. Under rapid pulse impact, it takes a certain time for the gas ionization of the ceramic gas discharge tube (generally 0.2~0.3μ s, the fastest is about 0.1μ s), so a sharp pulse with a higher amplitude will leak to the back go. To suppress this sharp pulse, there are several methods: a. Connect a capacitor or varistor in parallel to the discharge tube; b. Connect an inductor in series after the discharge tube or leave a transmission line of appropriate length to attenuate the sharp pulse to a lower value. Level; c. Adopt a two-level protection circuit, with the discharge tube as the first level and the TVS tube or semiconductor overvoltage protector as the second level. The two levels are isolated by resistors, inductors or self-restoring fuses.
2. Selection of DC breakdown voltage Vsdc: The minimum value of DC breakdown voltage Vsdc should be greater than 1.2 times the highest possible power supply peak voltage or the highest signal voltage.
3. Selection of impulse discharge current: The selection should be based on the maximum surge current that may appear on the line or the maximum surge current that needs protection. The impulse discharge current of the discharge tube should be calculated according to the nominal impulse discharge current (or half of the single impulse discharge current).
4. Ceramic gas discharge tubes are generally not used in parallel due to the large error in breakdown voltage.
5. After current problem: In order to ensure that the discharge tube can normally extinguish the arc after impact breakdown, in places where after current is likely to occur (such as in active circuits), a varistor or a self-restoring fuse can be connected in series to the discharge tube. Limit the freewheeling current so that it is less than the holding current of the discharge tube
Application
Industrial power supply, communication power supply, inverter power supply, UPS uninterrupted power supply, regulated power supply, driving power supply, switching power supply, power module, isolator, inverter, medical equipment,
Lightning Arrester Axial Leaded Ceramic Gas Discharge Tube 600V SC2E8-600ML GDT Electronic Component
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