Product Categories
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Gunn diodeGunn diode is also known as transferred electron devices; they have two terminal semiconductor components with negative resistance and high-frequency electronics. It was named \"Gunn effect\" after physicist J.B Gunn. It uses an electronic oscillator to generate microwaves for data links by automatic doors and transmitters. It is different from a standard diode because it contains only N-doped semiconductor materials, while a standard diode has both P and N-doped semiconductors. The N-doped makes it not be able to rectify alternating current and conduct electricity in a single direction.
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Light Emitting Diode(LED)Corsair Electrical LEDs use remote control circuits with low intensity, consume low energy, last longer, and switch faster. Their LEDs form could also include high output, UV rays, etc. Corsair LED products are used by various corporate bodies to manufacture medical equipment, traffic light, automotive headlamps, Christmas light, camera flash, etc. They are trusted worldwide because they are cheap and effective. Unlike laser lamps, the Corsair LED spectrum appears to the human eye as a pure color without high brightness.
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PhotocellCorsair photocell can remotely switch or produce current or voltage when exposed to electromagnetic radiation. It is an essential component in the manufacture of meter exposure, burglar alarm, toys, and other household appliances.
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PhototransistorsPhototransistors help alters light to flow between the emitter and collector in a component; they are light-sensitive than photodiodes and effective in manufacturing appliances. Corsair phototransistor is used in security systems, lighting control systems, card readers, optocouplers, etc.
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Diode For Alternating Current (DIAC)DIAC is different from regular diodes; their principal function is to trigger control gate pulse for Triac. Corsair DIAC is sure to help in conducting current after a voltage breakdown. When this breakdown occurs, the resistance decreases, which simultaneously causes a reduction in voltage of DIAC while the current increases. The DIAC will continue to be in this low or conducive state until there is a fall in the present current, which will reversely increase the resistance and voltage while returning the DIAC to a non-conducting state.