The SDFL2012T470KTF is a wire-wound chip inductor manufactured by Sunlord. It is designed for use in a variety of electronic circuits, including RF applications, impedance matching, and filtering. Its small size and high performance make it suitable for portable devices and other space-constrained applications.

Applications

• RF Circuits
• Impedance Matching
• Filtering
• Oscillators
• Wireless Communication Systems
• Portable Devices

Features

• Wire-wound construction
• High Q factor
• High self-resonant frequency (SRF)
• Small size (2012 package)
• Surface mount technology (SMT)
• RoHS compliant

Benefits

• Improved circuit performance
• Efficient signal filtering
• Stable operation at high frequencies
• Space-saving design
• Easy integration into circuit boards
• Environmentally friendly

Additional Details

The SDFL2012T470KTF chip inductor has an inductance value of 47μH (microhenries). The wire-wound construction provides a high Q factor, which is a measure of the inductor's efficiency. A higher Q factor indicates lower energy losses and better performance in resonant circuits. The high self-resonant frequency ensures that the inductor operates effectively at high frequencies without exhibiting parasitic effects. The small size (2012 package) allows for integration into compact electronic devices. The SMT package simplifies assembly and reduces manufacturing costs. The Sunlord inductor is manufactured using RoHS compliant materials, meeting environmental regulations. This inductor is designed to provide reliable and efficient performance in a variety of RF and general-purpose electronic circuits. Its robust construction and stable electrical characteristics make it a suitable choice for demanding applications. It contributes to the overall performance and reliability of electronic systems by providing efficient energy storage and filtering in a compact package.

The SDFL2012T470KTF wire-wound chip inductor offers a high-performance solution for RF circuits and other applications requiring efficient energy storage and filtering. Its high Q factor, high self-resonant frequency, and small size make it an ideal choice for space-constrained applications.