The 5352115-1 is a backplane connector manufactured by TE Connectivity. Backplane connectors are crucial components in high-density electronic systems, providing reliable interconnections between circuit boards. This particular connector is designed for robust performance and signal integrity in demanding applications.

Applications:

• Telecommunications equipment
• Data centers
• Networking equipment (servers, routers, switches)
• Industrial automation systems
• High-performance computing
• Medical equipment

Features:

• High-density design: Allows for a large number of signals to be transmitted through a relatively small area.
• Robust construction: Designed to withstand vibration, shock, and other environmental factors.
• Excellent signal integrity: Minimizes signal loss and crosstalk, ensuring reliable data transmission.
• Polarization: Ensures proper mating and prevents incorrect insertion.
• Compliant Pin Technology: Provides a solderless connection to the printed circuit board, reducing manufacturing costs and improving reliability.
• Gold-plated contacts: Enhances conductivity and corrosion resistance.

Benefits:

• Increased system performance: High-density and excellent signal integrity allow for faster data transfer rates.
• Improved system reliability: Robust construction and reliable connections minimize downtime and maintenance costs.
• Reduced manufacturing costs: Compliant pin technology eliminates the need for soldering.
• Long-term durability: Gold-plated contacts provide excellent corrosion resistance, ensuring a long service life.
• Simplified assembly: Polarization features ensure proper mating and prevent damage during installation.

Additional Details:

The 5352115-1 connector's specific technical specifications, such as the number of contacts, pitch, voltage rating, and current rating, would depend on the exact product configuration. Refer to the TE Connectivity product datasheet for detailed specifications.

The connector utilizes a compliant pin design, which allows for press-fit installation into plated through-holes on the printed circuit board. This eliminates the need for soldering and provides a gas-tight connection that is resistant to vibration and corrosion.

The connector housing is typically made of high-temperature thermoplastic materials, which offer excellent dimensional stability and resistance to chemicals.