Manufacturer Part Number
NFM41CC221U2A3L
Manufacturer
murata-electronics
Introduction
The NFM41CC221U2A3L is a Feed Through Capacitor part of Murata Electronics' EMIFIL® NFM41 series, designed for high-performance filtering applications.
Product Features and Performance
Offers 220 pF capacitance for effective signal filtering
Designed for surface mount applications, simplifying assembly
Operates within a wide temperature range from -55°C to 125°C
Handles up to 100V rated voltage
Supports current up to 300 mA
Encapsulated in a compact 1806 (4516 Metric) package
Conforms with 3 PC Pad mounting style for enhanced stability
Product Advantages
Exceptionally reliable in filtering unwanted RF signals
Suitable for high-density mounting, optimizing board space
Durable across a wide range of operating temperatures
High voltage and current ratings for versatile application uses
Key Technical Parameters
Capacitance: 220 pF
Voltage Rated: 100V
Current: 300 mA
Operating Temperature: -55°C ~ 125°C
Size / Dimension: 0.177" L x 0.063" W (4.50mm x 1.60mm)
Height (Max): 0.047" (1.20mm)
Quality and Safety Features
Manufactured by murata-electronics, known for high-quality electronic components
Robust build ensures lasting performance and reliability
Compatibility
Surface Mount technology compatible, for seamless integration with modern PCB designs
Application Areas
Widely applicable in RF signal filtering in telecommunications
Suitable for noise suppression in high-speed signal lines
Used in electronic devices requiring precise signal control and integrity
Product Lifecycle
Obsolete status, indicating it is no longer in production
Replacement models or upgrades may be available, consultation with Murata Electronics advised
Several Key Reasons to Choose This Product
Superior filtering performance for RF and high-speed signal applications
Reliable operation across extreme temperature ranges
Compact size allows for high-density mounting, saving PCB space
Produced by a leading manufacturer in electronic components, ensuring quality and reliability
Despite its obsolete status, its performance and specifications may still outmatch newer models for specific applications