The CPGI-8-320788-CL-8 is a terminal from TE Connectivity, designed for specific applications within electronic connectivity solutions. While detailed specifications require further investigation, the product family suggests its usage in rugged or industrial environments.

Applications

• Industrial Automation: Connecting wires and cables in control panels and machinery.
• Transportation Systems: Used in wiring harnesses for vehicles and other transport equipment.
• Military and Aerospace: Providing reliable connections in harsh environments.
• Telecommunications: Connecting wires and cables in communication infrastructure.
• Power Distribution: Used in electrical panels and power distribution systems.

Features

• High Durability: Designed to withstand harsh environmental conditions.
• Secure Connection: Provides a reliable and stable electrical connection.
• Corrosion Resistance: Materials are chosen for resistance to corrosion.
• Easy Installation: Designed for efficient and straightforward installation.
• Compliant with Industry Standards: Meets relevant industry standards for performance and safety.

Benefits

• Reliable Performance: Ensures consistent and dependable electrical connections.
• Reduced Downtime: Minimizes the risk of connection failures, reducing downtime.
• Long Service Life: Designed for long-term performance in demanding applications.
• Cost-Effective Solution: Provides a reliable connection at a competitive price.
• Improved Safety: Enhances safety by providing secure and reliable electrical connections.

Additional Details

Due to the limited publicly available information for this specific part number (CPGI-8-320788-CL-8), detailed specifications such as wire gauge range, material composition (e.g., copper alloy, plating), and current/voltage ratings require further investigation using specialized databases or contacting TE Connectivity directly. The "CPGI" prefix may relate to specific TE Connectivity product families. The "-8" suffix may indicate a specific configuration, material, or plating. Further research is needed to confirm these details.