The LQW04AN3N6C00D1X is a high-frequency wire wound inductor from Murata Electronics. It's part of the LQW series, known for its small size and excellent high-frequency characteristics. This inductor is designed for use in various high-frequency applications, particularly in impedance matching and high-frequency circuits.

Applications:

• High-frequency circuits
• Mobile communication devices (smartphones, tablets)
• Wireless communication modules (Bluetooth, Wi-Fi)
• RF impedance matching
• Small radio applications

Features:

• Small Size: Compact 0402 (1005) package size (1.0 x 0.5 x 0.5mm) allows for high-density mounting.
• High Q Value: Offers a high Q value at high frequencies, minimizing energy loss and improving circuit efficiency.
• Tight Tolerance: Provides a tight inductance tolerance, ensuring consistent performance in critical applications.
• Excellent SRF (Self-Resonant Frequency): High SRF minimizes unwanted resonance effects at high frequencies.
• RoHS Compliant: Meets RoHS environmental standards, making it suitable for environmentally conscious applications.
• Wire Wound Construction: Offers superior performance compared to multilayer inductors in high-frequency applications.

Benefits:

• Improved Circuit Performance: High Q and tight tolerance enhance the overall performance and stability of the circuit.
• Reduced Power Consumption: High Q value minimizes energy loss, resulting in lower power consumption in battery-powered devices.
• Miniaturization: Small size enables the design of smaller and more compact electronic devices.
• Stable Inductance: Maintains stable inductance value over a wide temperature range.
• Reliable Operation: Designed for reliable operation in demanding high-frequency environments.

Specifications:

The LQW04AN3N6C00D1X has an inductance value of 3.6 nH. It features a high self-resonant frequency and a high Q value. The operating temperature range is typically between -55°C to +125°C. The component is constructed with a ceramic core and enameled copper wire, providing excellent electrical and mechanical properties.