The NFA31GD100R1014D is a common mode choke coil manufactured by Murata Electronics North America. It is designed to suppress common mode noise in differential signal lines, such as USB, HDMI, and Ethernet. The compact size and high performance make it ideal for use in a variety of electronic devices.

Applications:

• USB interfaces: For suppressing common mode noise on USB data lines.
• HDMI interfaces: For filtering common mode noise on HDMI signals.
• Ethernet interfaces: For reducing common mode noise on Ethernet data lines.
• Differential signal lines: For general common mode noise suppression in differential signal circuits.
• Consumer electronics: In smartphones, tablets, laptops, and other electronic devices.

Features:

• Common mode choke coil: Effectively suppresses common mode noise.
• Compact size: Available in a small footprint for space-constrained applications.
• High impedance: Provides high impedance to common mode noise.
• Low differential mode impedance: Minimizes signal distortion.
• Operating temperature range: Wide operating temperature range for reliable performance.
• Rated Current: 100mA
• Impedance @ 100MHz: 100 Ohm

Benefits:

• Reduced EMI: Suppresses common mode noise, reducing electromagnetic interference.
• Improved signal integrity: Minimizes signal distortion and improves signal quality.
• Compact design: Small footprint saves valuable board space.
• Reliable performance: Wide operating temperature range ensures reliable operation.
• Enhanced system performance: Reduces noise and interference, improving overall system performance.

The NFA31GD100R1014D common mode choke coil is an essential component for suppressing common mode noise in differential signal lines. Its compact size, high performance, and wide operating temperature range make it an excellent choice for a variety of electronic devices. By reducing noise and interference, this choke coil helps to improve signal integrity and enhance overall system performance. This component is designed to reduce unwanted noise without affecting the desired signal traveling through the circuit.