The PE-1008CDO40KTT is a wire-wound chip inductor produced by Pulse Electronics. This inductor is designed for various high-frequency applications, offering a combination of high inductance, high Q-factor, and a compact size. Its robust construction ensures reliable performance in demanding environments.

Applications

• RF Impedance Matching
• Wireless Communication Circuits
• RF Chokes
• Filter Circuits
• Oscillators

Features

• High Inductance Value
• High Q-Factor
• Self-Resonant Frequency (SRF) Optimized
• Wire-Wound Construction
• 1008 Package Size
• RoHS Compliant

Benefits

• Improved Circuit Performance: High inductance and Q-factor enhance the performance of RF and wireless circuits.
• Efficient Filtering: Effective in filtering unwanted signals, improving signal integrity.
• Compact Design: Small size allows for use in space-constrained applications.
• Stable Performance: Wire-wound construction provides stable electrical characteristics over temperature and frequency.
• Reduced Losses: High Q factor minimizes energy loss.

Additional Details

The PE-1008CDO40KTT features an inductance value of 0.04 µH (40 nH). The 1008 package indicates its physical dimensions (0.10 inch x 0.08 inch). The wire-wound construction ensures high Q-factor and stable inductance. The inductor is designed for surface mount assembly, making it compatible with automated manufacturing processes. The SRF is optimized for the target frequency range, ensuring optimal performance. The high Q-factor minimizes losses, improving overall circuit efficiency. Its construction uses high-quality materials to ensure reliability and durability.

This inductor is suitable for use in a wide range of applications, including RF impedance matching, filtering, and choke applications. It's often used in wireless communication devices, such as mobile phones and WLAN modules. Its small size and high performance make it an ideal choice for these applications. The inductor is compliant with RoHS environmental standards. Its high self-resonant frequency ensures that it can be used effectively at high frequencies without significant performance degradation. Its stable electrical characteristics make it suitable for demanding applications.