Overview of 172160-1 by TE Connectivity
The 172160-1 is a receptacle housing designed for use in combination line connectors. It features a 6-way configuration, allowing for versatile connectivity in various electronic applications. The connector belongs to the Mini Universal Mate-N-Lok series and is constructed from durable nylon material. This design includes a pitch spacing of 4.14 mm, making it suitable for close positioning of connections while maintaining structural integrity.
TE Connectivity, the manufacturer behind the 172160-1, is known for its extensive catalog of electrical connectors, offering solutions that comply with industry standards like RoHS. The 172160-1 exhibits characteristics such as Pb-free construction, making it environmentally compliant. The part is active in its product lifecycle, ensuring that it remains available for new applications.
Beyond its basic structure, the 172160-1 connector supports a range of important attributes. It features a maximum operating temperature of 105 °C and a minimum of -20 °C, accommodating various operational environments. Its rated voltage is 600 V, providing compatibility with high-voltage applications. Additionally, this receptacle can be terminated using crimp methods, facilitating easy installation into a variety of devices.
Industry Applications for 172160-1
The 172160-1 connector might find applications in several industries due to its versatile design and robust specifications. Below are some potential industry applications that could leverage this component:
- Energy and Power Systems: The connector could potentially be utilized in power distribution systems, connecting various panels and circuitry. Its high voltage rating of 600 V, combined with its durable nylon construction, supports reliable operation in challenging environments.
- Medical Imaging: The 172160-1 might be used in medical imaging devices where compact and reliable connections are vital. Its compliance with industry standards could support applications where safety and reliability are critical, although verification against specific healthcare standards would be necessary.
- Robotics and Drones: In robotic systems and drones, this connector could serve in power management applications, where multiple connections need to be made in a compact space. The 6-way configuration may allow for integrating various sensors and motors efficiently, providing modular flexibility.
It is important to note that these potential industry applications are only conceptual and illustrative. They require thorough analysis and verification by engineering and design teams to ensure adherence to industry standards and specific application requirements.
About TE Connectivity
TE Connectivity is a global leader in connectivity and sensor solutions, specializing in various segments including automotive, industrial, and communications. In the domain of electrical connectors, TE Connectivity offers a diverse range of products, which includes the 172160-1 and other similar connectors in the Mini Universal Mate-N-Lok series.
These connectors are designed for applications that require reliability and ease of use, with a focus on minimizing installation complexity. TE Connectivity’s reputation stems from their ongoing commitment to innovation and adherence to industry standards, making their components suitable for a wide range of applications across numerous sectors.
Research Price and Stock for 172160-1 by TE Connectivity on Findchips.com
For engineers or procurement professionals interested in the 172160-1, it is advisable to conduct research on current stock levels and pricing through Findchips.com. This resource offers a comprehensive view of available stock across multiple distributors, allowing for efficient procurement decisions.
Historically, the 172160-1 has been available from distributors including New Advantage Corporation, Master Electronics, and DigiKey, among others. However, stock levels may fluctuate, so checking these sources directly on Findchips is recommended for the most accurate availability information.