The DLW5ASN102SQ2L is a common mode choke coil manufactured by Murata Electronics North America. It is designed to suppress common mode noise in differential signal lines. This component is characterized by its compact size, high impedance, and excellent noise suppression capabilities, making it suitable for a wide range of applications where noise filtering is critical.

Applications

• USB lines in computers and peripherals.
• HDMI lines in televisions and media players.
• LVDS lines in display panels.
• CAN bus lines in automotive systems.
• Ethernet lines in network devices.

Features

• Common Mode Noise Suppression: Effectively reduces common mode noise in differential signal lines.
• Compact Size: Space-saving design for high-density circuit boards.
• High Impedance: Provides excellent noise filtering performance.
• Surface Mount Technology (SMT): Designed for automated assembly processes.
• RoHS Compliant: Compliant with Restriction of Hazardous Substances directive, making it environmentally friendly.

Benefits

• Improved Signal Integrity: Reduces noise and interference, resulting in cleaner and more reliable signal transmission.
• Reduced EMI: Minimizes electromagnetic interference, ensuring compliance with regulatory standards.
• Space Saving: Compact size allows for high-density circuit board designs.
• Simplified Assembly: SMT design enables automated assembly, reducing manufacturing costs.
• Environmentally Friendly: RoHS compliance ensures that the product is free from hazardous substances.

Specifications

The DLW5ASN102SQ2L common mode choke typically has an impedance of 1000 ohms at 100 MHz. The current rating, DC resistance, and operating temperature range should be verified in the manufacturer's datasheet. These chokes are designed to provide stable performance over a wide range of temperatures and are constructed with materials that ensure long-term reliability. Consult the Murata Electronics product documentation for detailed specifications, including dimensions, insertion loss, and common mode attenuation characteristics.