Dropship 32A Spring Lever Push Fit Wire Connectors 2 Way Wire Connectors~2421

The 32A Spring Lever Push Fit Wire Connectors are designed for both safety and convenience in electrical applications. These connectors are perfect for anyone looking to make secure and efficient connections without the hassle of traditional wiring methods. With a maximum voltage of 400V and a current intensity of 32A, these connectors are suitable for a wide range of electrical tasks.

Specifications

Each connector measures 20 x 12 x 19 mm (0.78" x 0.47" x 0.74"), making them compact and easy to handle. They are designed to accommodate solid conductors ranging from 0.08 to 2.5 mm² (AWG 14), stranded conductors of the same size, and flexible conductors up to 4 mm² (AWG 28 - 12). This versatility makes them ideal for various wiring projects.

Safety Features

Safety is a top priority with the 32A Spring Lever Push Fit Wire Connectors. The transparent design allows for easy visibility, ensuring that there are no loose wires or tape embrittlement dangers. Each contact shrapnel is independent, allowing for a secure fit with different wire diameters, which significantly reduces the risk of short circuits.

Convenience and Efficiency

These connectors are designed for quick and easy installation. The direct plug feature allows for fast connections, and if a wrong connection is made, it can be easily pulled out and reinserted without any hassle. Additionally, a built-in test hole enables users to measure voltage without the need to remove any tape, making troubleshooting simpler and more efficient.

Temperature and Isolation Ratings

The connectors can handle a maximum continuous service temperature of 85°C and have a maximum isolation rating of 4 kV. This makes them suitable for various environments and applications, ensuring reliable performance even under challenging conditions.

Package Contents

Each package includes only the 2-way wire connector, providing everything you need for your electrical projects. Please note that the item color displayed in photos may vary slightly due to monitor calibration differences.

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