Allicdata Part #: | A115945TR-ND |
Manufacturer Part#: |
1-2176075-3 |
Price: | $ 0.06 |
Product Category: | Inductors, Coils, Chokes |
Manufacturer: | TE Connectivity Passive Product |
Short Description: | FIXED IND 1.3NH 250MA 450 MOHM |
More Detail: | 1.3nH Unshielded Thin Film Inductor 250mA 450 mOhm... |
DataSheet: | 1-2176075-3 Datasheet/PDF |
Quantity: | 1000 |
1000 +: | $ 0.04984 |
DC Resistance (DCR): | 450 mOhm Max |
Size / Dimension: | 0.024" L x 0.012" W (0.60mm x 0.30mm) |
Supplier Device Package: | -- |
Package / Case: | 0201 (0603 Metric) |
Mounting Type: | Surface Mount |
Inductance Frequency - Test: | 500MHz |
Operating Temperature: | -- |
Ratings: | -- |
Frequency - Self Resonant: | 9GHz |
Q @ Freq: | 8 @ 500MHz |
Series: | 3640, Sigma Inductors |
Shielding: | Unshielded |
Current - Saturation: | -- |
Current Rating: | 250mA |
Tolerance: | ±0.2nH |
Inductance: | 1.3nH |
Material - Core: | -- |
Type: | Thin Film |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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Fixed Inductors
Fixed inductors are a type of electrical component used in many electronic devices. They are components that consist of one or more coils of wire that are wrapped around a core material. This core material may be a ferromagnetic material, such as ferrite, or another type of material depending on the type of inductor. Fixed inductors are primarily used in circuits to store energy and control the flow of current in the circuit. This article will discuss the application field and working principle of the 1-2176075-3 fixed inductor.
Application Field
The 1-2176075-3 fixed inductor is used in a variety of applications such as power supplies, signal filtering, and regulation of electrical signals. In power supplies, the inductor helps to filter out high frequencies that can cause unwanted noise in the power flow. The inductor is also used for regulation, such as in voltage regulators, where its ability to respond to a changing input voltage helps to maintain a steady output voltage. In signal filtering, fixed inductors can help to reject unwanted frequencies. The inductor can also be used to act as a transformer, allowing the transfer of energy from one circuit to another.
Working Principle
The working principle of a 1-2176075-3 fixed inductor is based on Faraday’s law of induction. When a changing current passes through a coil of wire, it creates a magnetic field. This magnetic field then induces an electromotive force in the coil, creating a voltage in the coil. This voltage opposes the original changing current, creating a resistance. This resistance helps to determine the amount of current that flows through the coil. As the current increases, the resistance also increases, limiting the amount of current that passes through the coil.
In addition to Faraday’s law, other factors also influence the functioning of a fixed inductor. These factors include the type of material used for the core, the number of turns of the coil, and the diameter of the coil. The core material affects the strength of the magnetic field, while the number of turns and the diameter of the coil affect the amount of voltage induced in the coil.
1-2176075-3 fixed inductors are designed to be used in circuits requiring low DC current, as well as in higher frequency signals. These inductors can be used in a variety of applications, such as in radios, TVs, audio equipment, and even some digital circuits. They are also used in motor control circuits to reduce the risk of overcurrent as well as to provide noise suppression.
Conclusion
Fixed inductors are a type of electrical component that is used to store energy and control the flow of current in a circuit. The 1-2176075-3 fixed inductor is used in a variety of applications, such as power supplies, signal filtering, and regulation. The working principle of this inductor is based on Faraday’s law of induction, which states that a changing current in a coil of wire creates a magnetic field, which induces an electromotive force in the coil, creating a voltage that opposes the current. The type of material used for the core, the number of turns of the coil, and the diameter of the coil all have an influence on the working principle of the inductor.
The specific data is subject to PDF, and the above content is for reference
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