Manufacturer Part Number
LQP03TN1N8B02D
Manufacturer
murata-electronics
Introduction
The LQP03TN1N8B02D is a fixed inductor from Murata Electronics, specifically designed for high-frequency applications. It belongs to the LQP03 series and is packaged in tape and reel for efficient assembly processes.
Product Features and Performance
Type: Thick Film
Core Material: Non-Magnetic
Inductance: 1.8 nH with a tight tolerance of ±0.1nH
Current Rating: 600 mA
Shielding: Unshielded
DC Resistance: 150mOhm Max
Quality Factor: 14 @ 500MHz
Self Resonant Frequency: 15GHz
Operational Temperature Range: -55°C to 125°C
Mounting Type: Surface Mount
Small Size: 0.024" L x 0.012" W (0.60mm x 0.30mm); Height - 0.013" (0.33mm)
Product Advantages
Optimized for high-frequency performance with a self-resonant frequency up to 15GHz.
Compact 0201 (0603 Metric) package suitable for high-density mounting.
High temperature tolerance making it suitable for a range of environmental conditions.
Key Technical Parameters
Inductance: 1.8 nH
Tolerance: ±0.1nH
Current Rating: 600 mA
DC Resistance: 150mOhm Max
Quality Factor: 14 @ 500MHz
Self Resonant Frequency: 15GHz
Temperature Range: -55°C to 125°C
Package Size: 0201 (0603 Metric)
Quality and Safety Features
High-level precision in inductance rating ensuring performance reliability.
Designed for operation in extreme temperature conditions.
Compatibility
Compatible with surface mount technology and suitable for automated assembly processes.
Application Areas
Used in RF signal and power supplies where high frequency and low losses are critical.
Suitable for mobile communications, satellite TV receivers, GPS devices, and high-frequency RFID tags.
Product Lifecycle
The product is currently active with no indications of discontinuation. Continual availability for new designs and replacements.
Several Key Reasons to Choose This Product
High-frequency operation capability with a self-resonant frequency of up to 15GHz.
Exceptionally small footprint for dense circuit board layouts.
Stable performance across a wide temperature range from -55°C to 125°C.
High precision and reliability with tight inductance tolerance.
Ideal for applications in advanced communications technology and high-frequency modules.