Allicdata Part #: | K2501GLRP-ND |
Manufacturer Part#: |
K2501GLRP |
Price: | $ 0.00 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | Littelfuse Inc. |
Short Description: | SIDAC MP 240-265V H.V. DO15 TR |
More Detail: | Diac/Sidac Thyristor 240 ~ 265V 1A DO-15 |
DataSheet: | K2501GLRP Datasheet/PDF |
Quantity: | 1000 |
Series: | -- |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Voltage - Breakover: | 240 ~ 265V |
Current - Breakover: | 10µA |
Current - Hold (Ih) (Max): | 30mA |
Current - Peak Output: | 1A |
Operating Temperature: | -40°C ~ 125°C (TJ) |
Package / Case: | DO-204AC, DO-15, Axial |
Supplier Device Package: | DO-15 |
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.Thyristors are a type of semiconductor device which play an important role in controlling power in a wide range of applications. The K2501GLRP is an example of a type of thyristor known as a DIAC or static induction diode. The device is used in numerous applications to control the current flow of an electrical circuit, and can be used as an analog switch. The K2501GLRP is a two-terminal device that is used in various areas of the electrical engineering industry for various purposes. Its working principle and application field are discussed in this article.
K2501GLRP Working Principle
The K2501GLRP works based on a simple principle, which is known as static induction. Essentially, static induction is the process by which a static electric field is created and maintained within the device. When an electrical current is applied to the device, the static electric field is disrupted and the current is able to flow. This is due to the electric field generated by the current being higher than the static field. This process is also known as breakover or switching action. The K2501GLRP works in a similar way, but instead of a static field being disrupted, the current is allowed to flow when the static field is below a certain level.
The K2501GLRP is a two-terminal device, so it can be used for various applications, such as controlling the power being supplied to an electrical circuit, or as an analog switch. In simple terms, the device is able to control the current flow in a circuit by creating a small electric field, which either allows or denies the current from passing through the device.
Application Field of K2501GLRP
Due to its ability to control the current flow in a circuit, the K2501GLRP has numerous applications in electrical engineering. The device is used in various areas of the electrical engineering industry, including industrial, automotive, medical, and military applications. In automotive applications, the device is used to control the current flow in various components, including spark plugs, engines, brakes, and airbags. In the medical field, it is used in surgical instruments and medical equipment. In the military, it is used in weapon guidance systems and targeting systems. It is also used in industrial applications where it is used to control the current flow of various components, including motors, pumps, and valves.
In addition to these applications, the K2501GLRP is also used in various other areas, including communication systems, test instruments, and various other electronic circuits. As a two-terminal device, it is highly versatile and can be used for a wide range of applications. For these reasons, the device is widely used in the electrical engineering industry.
Conclusion
The K2501GLRP is a two-terminal device used in various areas of the electrical engineering industry, including industrial, automotive, medical, and military applications. The device operates based on a process known as static induction, which is the process by which a static electric field is created and maintained within the device. When an electrical current is applied to the device, the static electric field is disrupted and the current is able to flow. The K2501GLRP is highly versatile and can be used for numerous applications, including controlling the current flow of an electrical circuit or as an analog switch. For these reasons, the K2501GLRP is an invaluable tool in the electrical engineering industry.
The specific data is subject to PDF, and the above content is for reference
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