The LQP10A2N7B02T1M0001 is a high-frequency inductor produced by Murata Electronics North America. This inductor is specifically designed for applications requiring high performance and reliability in a compact size. It's frequently used in impedance matching, filtering, and resonance tuning circuits across various electronic devices.

Applications

• Mobile Communication Devices: Used in smartphones, tablets, and other wireless communication equipment.
• Wireless LAN (WLAN): Employed in Wi-Fi modules, routers, and access points.
• Bluetooth Devices: Found in Bluetooth-enabled headsets, speakers, and other accessories.
• RF Modules: Integral to radio frequency circuits and systems for optimal signal transmission.
• General High-Frequency Circuits: Suitable for various applications needing precise impedance matching and effective filtering.

Features

• Compact Size: Features a 1005 case size (1.0mm x 0.5mm), enabling space-saving designs.
• High Q Value: Delivers superior performance in high-frequency circuits, minimizing signal loss.
• Tight Inductance Tolerance: Provides precise inductance values for consistent circuit behavior.
• Excellent Self-Resonant Frequency (SRF): Ensures stable and reliable operation at high frequencies.
• RoHS Compliance: Meets environmental standards, making it safe and eco-friendly.

Benefits

• Enhanced Circuit Performance: High Q value and tight tolerance lead to improved signal integrity and reduced energy loss.
• Miniaturized Design: The small footprint allows for more compact and efficient circuit board layouts.
• Dependable Operation: Robust construction ensures consistent and reliable performance in demanding environments.
• Streamlined Design Process: Precise inductance values and high SRF simplify circuit design and optimization.
• Environmentally Responsible: RoHS compliance ensures minimal environmental impact.

Additional Details

The LQP10A2N7B02T1M0001 inductor has an inductance value of 2.7 nH. Its design prioritizes high-frequency performance, exhibiting a high Q value for optimal signal handling. The typical operating temperature ranges from -55°C to +125°C. The inductor utilizes a ceramic core. The self-resonant frequency (SRF) is a critical parameter, guaranteeing efficient functionality within the designated frequency range. This component is engineered to meet the stringent demands of modern wireless communication technologies.