Overview of D38999/26WE6SN by Amphenol Corporation
The D38999/26WE6SN is a MIL-DTL-38999 series III circular connector featuring 6 contacts within a rugged aluminum alloy body. This female connector operates with a crimp terminal and is designed as a straight plug. Its attributes include a corrosion and environmental resistance, a shell size of E, and its contacts are finished in gold, supporting optimized conductivity and resistance to wear. The connector’s coupling type is threaded, securing a stable and reliable connection in demanding environments. It exhibits a high degree of mechanical and environmental integrity, adhering closely to military specifications. Notably, the connector offers EMI (Electromagnetic Interference) shielding, adheres to the MIL-DTL-38999 standard, and supports operations across a broad temperature range from -65 °C to 175 °C.
This part’s lifecycle status is active, as indicated by its life cycle code, and it is noted to be REACH compliant, although it is not RoHS or Pb-free, reflecting exemption possibly due to military or critical use exemptions.
As of the current writing, the factory lead time for the D38999/26WE6SN is specified at 12 weeks.
Industry Applications for D38999/26WE6SN
Given its robust design and compliance with military specifications, the D38999/26WE6SN could be potentially employed in a variety of demanding industry environments where reliability and durability are paramount. Despite this, exact applications should be verified by engineering teams to ensure compliance and suitability.
- The Military Circular Connectors nature of D38999/26WE6SN makes it potentially suitable for use in Aerospace and Defense. For instance, it could be used in communication systems, avionics, or other military hardware requiring durable and secure connections.
- In the realm of Telecommunications, this connector might be used in equipment that demands robust performance under varying environmental conditions, such as field-deployable communications gear where EMI shielding is critical.
- Given the high temperature tolerance and corrosion resistance, the D38999/26WE6SN could also find applications in Industrial Automation, possibly in robotics or in manufacturing plants requiring reliable data or power transmission under harsh conditions.
- The attributes of the D38999/26WE6SN might render it useful in Maritime environments, particularly for its corrosion-resistant aluminum alloy shell and capability to withstand a wide range of operating temperatures, useful in shipboard systems.
These potential industry applications are conceptual and require detailed analysis and verification by respective industry-specific engineering teams to confirm adherence to standards and precise application needs.
About Amphenol Corporation
Amphenol Corporation is a leading innovator in the design and manufacturing of electrical, electronic, and fiber optic connectors, interconnect systems, and coaxial and specialty cable. Amphenol is particularly noteworthy in its production of Military Circular Connectors, with products like the D38999/26WE6SN serving as a testament to their prowess in this field. D38999/26WE6SN, among others in the MIL-DTL-38999 series, showcases Amphenol’s commitment to providing high-quality connectors that meet stringent military specifications for performance and reliability under extreme conditions. Their product offerings extend beyond just military applications, reaching into aerospace, telecommunications, and beyond.
Where to Find D38999/26WE6SN by Amphenol Corporation
To source the D38999/26WE6SN, potential buyers can conduct a search on findchips.com. By accessing the section dedicated to Military Circular Connectors, it is possible to explore alternate parts offered by Amphenol Corporation or other manufacturers. Historically, this part has been available at distributors such as Avnet Asia, Quest Components, Avnet Americas, Verical, TTI Europe, Mouser Electronics, and Avnet Abacus. However, for the most current stock levels and pricing, it is recommended to check on findchips.com directly.