The NLC322522T-100J-N is a wire-wound ferrite inductor manufactured by Chilisin. It is designed for use in power supply circuits, high-frequency applications, and noise filtering. Part of the NLC series, this inductor provides a balance of inductance, current handling, and compact size.

Applications

• Power Supplies: Used for filtering and energy storage in DC-DC converters.
• RF Circuits: Employed in impedance matching and filtering in radio frequency applications.
• Noise Filtering: Reduces unwanted noise in electronic circuits.
• Mobile Devices: Found in smartphones and tablets for power management and signal conditioning.
• Wireless Communication Devices: Used in Bluetooth and Wi-Fi modules for filtering and impedance matching.

Features

• Compact Size: Dimensions of 3.2mm x 2.5mm x 2.2mm for space-constrained applications.
• High Inductance: Offers an inductance value of 10μH with a tolerance of ±5%.
• Ferrite Core: Provides high permeability and enhances performance at high frequencies.
• Wire-Wound Construction: Delivers a high Q factor and low DC resistance.
• RoHS Compliant: Complies with Restriction of Hazardous Substances directives.
• Operating Temperature Range: Specified for -40°C to +85°C for use in various environments.

Benefits

• Effective Noise Suppression: Ferrite core and wire-wound structure enable efficient noise filtering.
• Stable Performance: Maintains consistent inductance values across temperature and frequency variations.
• Compact Design: Facilitates integration into densely packed circuit boards.
• Reduced EMI: Shielded construction minimizes electromagnetic interference.
• Reliable Operation: Robust design ensures dependable performance in demanding applications.

Additional Details

The NLC322522T-100J-N inductor has a rated current and self-resonant frequency (SRF) that are critical design parameters. The DC resistance (DCR) is typically low, minimizing power loss. It is packaged in tape and reel for automated assembly and is compatible with standard SMT soldering processes. It is ideal for applications needing a compromise between high inductance, compact dimensions, and dependable performance.