The NLV25T-2R2J-PFL is a wire-wound power inductor manufactured by TDK Corporation. This inductor is designed for use in power supply circuits and DC-DC converters. It features a small size, high inductance, and low DC resistance, making it suitable for various power management applications.

Applications:

• DC-DC Converters: Used as a filter inductor in DC-DC converters for voltage regulation.
• Power Supplies: Smoothing output voltage and current in power supply circuits.
• Buck Converters: Energy storage and filtering in buck converter topologies.
• Boost Converters: Energy storage and filtering in boost converter topologies.
• Portable Devices: Power management in smartphones, tablets, and other portable devices.

Features:

• Inductance: 2.2 µH (2R2).
• Tolerance: ±5%.
• High Current Capacity: Designed to handle high current levels without saturation.
• Low DC Resistance: Minimizes power losses and improves efficiency.
• Small Size: Compact size suitable for space-constrained applications.
• Wire-Wound Construction: Provides high inductance and good electrical characteristics.
• RoHS Compliant: Complies with RoHS environmental standards.

Benefits:

• Efficient Power Conversion: Low DC resistance minimizes power losses, improving efficiency.
• Compact Design: Small size allows for use in space-constrained applications.
• Reliable Performance: Provides stable inductance and high current handling capability.
• Good Filtering Characteristics: Effective at smoothing output voltage and current in power supply circuits.

Additional Details:

The NLV25T-2R2J-PFL inductor is constructed using a ferrite core and a wire winding. The ferrite core provides high permeability, which allows for a high inductance value in a small size. The wire winding is designed to minimize DC resistance, reducing power losses and improving efficiency. The inductor is available in a shielded construction to minimize electromagnetic interference (EMI). This inductor is a reliable and efficient solution for a wide range of power management applications.