The 0805HP-471XGRB is a high-performance ceramic wirewound inductor from Coilcraft. This inductor is designed for applications requiring high Q, tight tolerance, and excellent SRF (Self-Resonant Frequency) performance. It is constructed using a ceramic core and precision wire winding techniques to ensure consistent electrical characteristics and high reliability.

Applications

• RF circuits
• Wireless communication devices
• Matching networks
• Filter circuits
• Broadband chokes
• High-frequency circuits

Features

• High Q factor for minimal signal loss
• Tight inductance tolerance for precise circuit tuning
• Excellent SRF performance for extended frequency range
• Ceramic core for stability and low losses
• Wirewound construction for high current handling
• RoHS compliant for environmental protection
• Compact 0805 package size for space-constrained applications

Benefits

• Improved signal quality in RF circuits
• Enhanced performance in wireless communication systems
• Precise tuning and impedance matching
• Reduced insertion loss in filter applications
• Stable operation over a wide frequency range
• High current handling capability
• Environmentally friendly design
• Suitable for miniaturized electronic devices

Additional Details

The 0805HP-471XGRB inductor has an inductance value of 470 nH. Its high Q factor minimizes energy loss and improves circuit efficiency. The tight tolerance ensures that the inductor's value remains within the specified range, which is crucial for precise circuit tuning and impedance matching. The ceramic core provides stability over temperature and frequency, while the wirewound construction allows for high current handling capability. The 0805 package size makes it suitable for use in compact and miniaturized electronic devices. This inductor is often used in matching networks, filters, and RF amplifiers to optimize performance and minimize signal loss. Its self-resonant frequency is high, allowing for operation in high frequency applications without significant performance degradation.