The SFSD-07-28C-G-03.26-DS-NDX is a micro pitch socket strip manufactured by Samtec Inc. This connector is designed to provide a reliable and high-density board-to-board connection. The configuration of this part number signifies a 1.27mm pitch, 7 positions, gold plating, a 3.26mm tail length, double row, surface mount tails and matte tin plating. Its robust design ensures secure connectivity in a variety of applications.

Applications

• Board-to-board connections in compact electronic devices
• Data communication equipment
• Medical devices where small size and reliability are critical
• Industrial automation systems
• Testing and instrumentation equipment

Features

• Pitch: 1.27mm micro pitch for high-density interconnects.
• Number of Positions: 7 positions for signal or power transmission.
• Plating: Gold plating on the contacts for enhanced conductivity and corrosion resistance.
• Tail Length: 3.26mm tail length.
• Row Configuration: Double row for increased contact density.
• Termination Style: Surface Mount tails for streamlined assembly.
• Mates With: FFSD, EWSD and DWSD Series terminal strips.

Benefits

• High Density: Enables compact designs with a high number of connections in a small area.
• Reliable Connection: Gold-plated contacts ensure a secure and stable connection, minimizing signal loss.
• Corrosion Resistance: Gold plating provides excellent corrosion resistance, extending the life of the product.
• Easy Assembly: Designed for surface mount attachment, simplifying the assembly process.
• Versatile Applications: Suitable for a wide range of electronic devices and industries.
• RoHS Compliant: Meets environmental regulations for lead-free manufacturing.

Additional Details

This socket strip is designed for surface mount attachment and typically mates with Samtec's FFSD, EWSD and DWSD series terminal strips. The gold plating on the contacts ensures optimal signal transmission and long-term reliability. This part is RoHS compliant. The compact size and high-density connectivity make it ideal for use in space-constrained applications.