Ampheol connectors are renowned for their unparalleled reliability and performance in demanding applications across various industries. Among the extensive range of Ampheol connectors, the 336203-12-0250 series stands out as a versatile and robust solution. This comprehensive guide delves into the features, specifications, and applications of the Ampheol 336203-12-0250 connector, providing valuable insights for engineers and professionals seeking high-quality interconnect solutions.
The Ampheol 336203-12-0250 connector boasts an array of impressive features, including:
The versatility of the Ampheol 336203-12-0250 connector makes it suitable for a wide range of applications, including:
Feature | Specification |
---|---|
Contact Count | Up to 68 |
Termination Options | Solder cups, crimp, PCB mount |
Contact Plating | Gold over nickel |
Operating Voltage | 500 VAC/VDC |
Operating Current | Up to 3 A per contact |
Shell Material | Metallized plastic |
Temperature Range | -55°C to +125°C |
Insulation Resistance | ≥1000 MΩ |
Dielectric Withstanding Voltage | 1000 VAC |
The success of the Ampheol 336203-12-0250 connector has been instrumental in numerous groundbreaking projects and applications.
These stories underscore the profound impact that high-quality connectors have on innovation and technological advancements.
To ensure optimal performance of the Ampheol 336203-12-0250 connector, consider these practical tips:
Avoid these common mistakes when working with Ampheol 336203-12-0250 connectors:
Follow these steps for a successful installation and maintenance of Ampheol 336203-12-0250 connectors:
The Ampheol 336203-12-0250 connector represents the epitome of reliability and performance in demanding interconnect applications. Its high-density contacts, versatile connection formats, EMI shielding, and durability make it an ideal choice for military, aerospace, industrial, medical, and telecommunication systems. By understanding the features, specifications, and best practices associated with this connector, engineers and professionals can harness its full potential for optimal system performance and innovation.
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