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Plastic Metal Electronic Connector for Auto Parts Industrial Control

Injection Molding

Plastic Metal Electronic Connector for Auto Parts Industrial Control

This electronic connector features a multi-pin design, ensuring efficient electrical conductivity and is suitable for various electronic devices and systems. Its plastic housing ensures durability and stability, while also preventing external interference. The pin layout is orderly, making it ideal for multiple signal and power transmission needs. It is commonly used in automotive electronics, industrial control, and consumer electronics.

    Product introduction

    This multi-pin electronic connector offers excellent electrical conductivity and is suitable for a variety of complex electronic devices and systems. Its robust plastic housing not only provides outstanding durability but also features shock resistance and dustproof capabilities, ensuring stable operation in harsh environments. The housing material also has excellent insulation properties, further reducing the impact of external electromagnetic interference. 
    The connector is widely used in automotive electronics, industrial automation equipment, communication devices, and consumer electronics, and offers strong compatibility with a variety of standardized interfaces. Additionally, it supports customized configurations to meet the specific needs of different customers. Excelling in high performance, long lifespan, and multifunctionality, this connector is an ideal choice for both industrial and consumer applications.

    Product Centre

    Production technology

    The connector housing is typically manufactured using injection molding. This process involves injecting heated, molten plastic into a mold cavity, where it cools and solidifies. Injection molding offers high precision, complex shape capabilities, and high production efficiency.
    The metal contacts inside the connector are often produced through stamping. Stamping is a metal forming process in which sheet metal is placed in a stamping press and formed into a desired shape by a die. This process is highly efficient, cost-effective, and capable of producing complex shapes.
    Insulating materials are used inside the connector to prevent short circuits and leakage. Common insulating materials include plastics and ceramics. Plastics offer advantages such as light weight, low cost, and easy processing, while ceramics provide excellent heat resistance, corrosion resistance, and electrical insulation properties. The choice of insulating material depends on the specific application and performance requirements of the connector.

    Product design

    The connector's precisely stamped contacts ensure excellent electrical conductivity and resistance to corrosion, minimizing connection issues and oxidation. Constructed with high-temperature resistant materials, it can withstand harsh automotive environments and maintain reliable performance. Designed for broad compatibility with a variety of automotive electronic devices, this connector offers a wide range of applications.