Manufacturer Part Number
LQW15AN39NJ00D
Manufacturer
murata-electronics
Introduction
The LQW15AN39NJ00D is a fixed inductor from Murata Electronics' LQW15 series, designed for compact electronic devices. With its drum core and wirewound technology, it offers precise inductance for high-frequency applications.
Product Features and Performance
Drum Core, Wirewound structure
Non-Magnetic Core material ensuring minimal electromagnetic interference
Inductance value of 39 nH with a tolerance of ±5%
Current Rating of 250 mA
Unshielded for easy integration in circuit designs
Low DC Resistance (DCR) of 700mOhm Max
High Quality Factor (Q) of 25 at 250MHz frequency
Self-Resonant Frequency up to 3GHz
Designed to perform reliably in the temperature range of -55°C to 125°C
Product Advantages
High-precision inductance for superior circuit performance
Low DCR and high Q factor contribute to efficient power consumption and lower losses
Wide temperature range suitability ensures stability under extreme conditions
Unshielded design simplifies PCB layout and reduces costs
Key Technical Parameters
Inductance: 39 nH
Tolerance: ±5%
Current Rating: 250 mA
DC Resistance (DCR): 700mOhm Max
Quality Factor (Q): 25 @ 250MHz
Self Resonant Frequency: 3GHz
Operating Temperature: -55°C to 125°C
Quality and Safety Features
Engineered to meet stringent quality standards
Extensively tested for durability and performance across various environmental conditions
Compatibility
Ideal for surface mount technology (SMT) with a compact 0402 (1005 Metric) package
Universally compatible with a wide range of high-frequency circuit designs
Application Areas
Mobile devices
RF signal processing
Wireless communication equipment
IoT devices
Automotive electronics
Product Lifecycle
Currently marked as Active
No indication of nearing discontinuation, ensuring long-term availability for design and production needs
Several Key Reasons to Choose This Product
Precision technology from a reputable manufacturer, Murata Electronics
High performance suited for advanced RF and high-frequency applications
Enhanced power efficiency and reduced electromagnetic interference
Wide applicability in cutting-edge electronic designs
Assurance of quality, durability, and extended product lifecycle support