Manufacturer Part Number
LQW15AN3N3D10D
Manufacturer
Murata Electronics
Introduction
The LQW15AN3N3D10D is a high-quality, wirewound inductor designed for a wide range of RF and high-frequency applications, offering stable inductance in a compact size.
Product Features and Performance
Drum Core, Wirewound structure for optimal performance
Non-Magnetic core material, minimizing interference
High self-resonant frequency up to 12GHz
Excellent Q factor of 30 @ 250MHz for high-quality signal transmission
Compact 0402 (1005 Metric) package for space-sensitive applications
Product Advantages
High current rating of 900 mA suitable for high-load circuits
Low DC resistance (40mOhm Max) for efficient power consumption
Tolerance of ±0.5nH ensuring precise operation
Wide operating temperature range -55°C ~ 125°C for use in extreme conditions
Key Technical Parameters
Inductance: 3.3 nH
Current Rating: 900 mA
DC Resistance: 40mOhm Max
Q @ Freq: 30 @ 250MHz
Frequency Self Resonant: 12GHz
Operating Temperature: -55°C ~ 125°C
Size: 0.039" L x 0.024" W (1.00mm x 0.60mm)
Quality and Safety Features
Manufactured by a leader in electronic components ensures reliability and durability
Meets strict industry standards for quality and safety
Compatibility
Designed for surface mount technology, making it compatible with a wide range of PCB designs.
Application Areas
Ideal for RF signal chain, high-frequency digital, and power supply circuits in automotive, telecommunications, and portable device applications.
Product Lifecycle
Status: Active
This part is actively manufactured and available, with no current indications of nearing discontinuation. Replacement or upgrade options have not been specified but typically exist within the LQW15 series or broader Murata product lineup.
Several Key Reasons to Choose This Product
Ultra-high frequency performance ideal for advanced RF applications
Compact and low-profile design enables integration into space-constrained applications
High reliability and stability offered by Murata Electronics, a trusted name in electronic components
Wide operating temperature range for versatility across various environments
High current capability and low DC resistance for energy-efficient designs