The NLV25T-820J-PFM is a wire-wound inductor manufactured by TDK Corporation. This inductor is designed for high-frequency applications requiring tight tolerance and stable performance. It's commonly used in RF circuits, impedance matching, and filtering applications in various electronic devices.

Applications

• RF circuits
• Impedance matching networks
• Filtering circuits
• Mobile communication devices
• Wireless LAN systems
• Bluetooth modules

Features

• High Q value
• Tight tolerance
• Small size (2.5 x 2.0 mm)
• Wire-wound construction
• High self-resonant frequency (SRF)
• Surface mount device (SMD)

Benefits

• Improved circuit performance
• Reduced power loss
• Compact design
• Enhanced signal integrity
• Stable performance at high frequencies
• Easy to assemble

Additional Details

The NLV25T-820J-PFM inductor features an inductance of 82 µH with a tolerance of ±5%. Its wire-wound construction contributes to its high Q value, which minimizes power loss in RF circuits. The small size allows for dense component placement on PCBs, making it suitable for compact electronic devices. The high self-resonant frequency (SRF) ensures stable performance at high frequencies. The inductor is designed as a surface mount device (SMD), facilitating easy and automated assembly. It is commonly used in mobile communication devices for impedance matching and filtering. In wireless LAN systems, it helps improve signal quality and reduce interference. The operating temperature range is typically from -40°C to +85°C. The NLV25T-820J-PFM is a reliable and high-performance inductor suitable for various high-frequency applications where precision and stability are crucial. By providing a high Q value and tight tolerance, this inductor helps optimize circuit performance and enhance the overall reliability of electronic devices.

TDK's NLV25T-820J-PFM wire-wound inductor combines a small size, tight tolerance, and high Q value to deliver a superior solution for high-frequency applications. Its robust design and reliable performance make it a preferred choice for RF circuit designers seeking to optimize their designs.