The NL252018T-101K-N is a wire-wound ferrite chip inductor manufactured by Chilisin. This inductor is designed for surface mounting and is used in a wide range of electronic devices for filtering, impedance matching, and RF signal processing. Its compact size and high performance make it suitable for use in portable devices and other applications where space is limited.

Applications

• Mobile phones
• Wireless communication devices
• Bluetooth modules
• RF transceivers
• GPS devices
• High-frequency circuits

Features

• Small size (2.5mm x 2.0mm x 1.8mm)
• High Q value
• Tight inductance tolerance
• Excellent self-resonant frequency
• Surface mount design
• RoHS compliant

Benefits

• Improved signal integrity in high-frequency circuits
• Reduced electromagnetic interference (EMI)
• Stable performance over a wide temperature range
• Easy to integrate into automated assembly lines
• Space-saving design for compact devices

Technical Specifications

The NL252018T-101K-N has an inductance value of 100μH with a tolerance of ±10%. It features a high Q value, typically around 30-40 at the specified test frequency. The self-resonant frequency (SRF) is typically in the MHz range, ensuring that the inductor operates efficiently in high-frequency applications. The operating temperature range is typically from -40°C to +85°C. The DC resistance (DCR) is low, minimizing power losses. Its construction involves winding a thin wire around a ferrite core, which contributes to its high inductance and Q value. The inductor is designed to withstand reflow soldering processes commonly used in PCB assembly.

Additionally, the NL252018T-101K-N offers stable inductance characteristics even under varying current levels. This makes it suitable for applications where current fluctuations are common. The inductor's small footprint allows for dense placement on circuit boards, enabling miniaturization of electronic devices. Its robust construction ensures reliable performance even in harsh environments. Chilisin's quality control processes guarantee consistent performance across different production batches. The component's shielding helps to minimize electromagnetic interference, contributing to overall system performance and reliability. This inductor is commonly used in impedance matching networks to optimize signal transfer between different circuit stages.