Description
PACK OF 100 PIECES
The RLB0914-681KL is an inductor with a substantial inductance value of 680 millihenries (mH), a current rating of 1 ampere (A), a resistance of 0.49 ohms (Ω), and a tolerance of 20%. This inductor is designed for use in electronic circuits where a high inductance with moderate current handling and specific resistance is needed. The specifications of the RLB0914-681KL make it well-suited for a range of applications, particularly in scenarios requiring significant inductance, such as in filtering, signal processing, and energy storage applications.
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Inductance (680mH): The high inductance of 680 millihenries is ideal for applications that require substantial energy storage, effective filtering, and impedance matching.
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Current Rating (1A): With a current rating of 1 ampere, this inductor can handle moderate current loads, making it suitable for various power and signal processing applications.
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Resistance (0.49Ω): The resistance of 0.49 ohms plays a role in the inductor's performance, particularly in power loss and efficiency considerations within the circuit.
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Tolerance (20%): The 20% tolerance indicates the range of variation in the inductance value, providing flexibility in its application across various electronic designs.
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Model (RLB0914-681KL): The model number RLB0914-681KL accurately specifies the inductor's characteristics, ensuring proper selection and integration into electronic circuits.
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Applications: Often used in power supplies, RF circuits, and electronic devices requiring high inductance for filtering, energy storage, or impedance matching.
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Features: Known for its high inductance value, moderate current rating, and specific resistance, the RLB0914-681KL inductor is designed to offer stable and efficient performance in targeted electronic applications.
In summary, the RLB0914-681KL inductor, with its 680mH inductance, 1A current rating, 0.49Ω resistance, and 20% tolerance, is a key component for electronic systems that require high inductance and efficient performance in specific electrical environments.
