Overview of 2-5221128-1 by TE Connectivity
The 2-5221128-1 by TE Connectivity is a commercial BNC (Bayonet Neill-Concelman) RF coaxial connector. This straight plug is designed with a crimp termination method and is built to accommodate a 50 ohm impedance system. It is compatible with various types of cables, including RG174/U, RG188/U, and RG316/U. The construction of this connector uses brass for the connector material, which is then finished with nickel to enhance its durability and resistance against corrosion.
TE Connectivity’s 2-5221128-1 connector features a characteristic impedance of 50 Ω and can handle a maximum operating frequency of 4 GHz. The operating temperature range of this component stretches from -55 °C to 85 °C, which allows its usage across diverse environmental conditions. It comes with a maximum insertion loss of 0.2 dB at 3 GHz, and a voltage standing wave ratio (VSWR) of 1.3, indicating efficient signal transmission capabilities with minimal signal reflection.
As an electronic component categorized under RF BNC Connectors, it supplies reliable connective solutions in RF applications requiring quick and secure connections using the bayonet coupling mechanism. Despite its status as an obsolete part, its specifications remain relevant for various applications.
Industry Applications for 2-5221128-1
The 2-5221128-1 could potentially serve a variety of industries due to its fundamental role in enabling RF communications. Below are some industry applications where this connector might prove valuable:
- Telecommunications: Used in network infrastructure to connect RF equipment, potentially aiding in signal transmission in telecom towers and base stations. The durability and frequency handling could make it useful for outdoor environments.
- Consumer Electronics: This connector could be used in high-frequency consumer devices, such as radio equipment, where a robust and reliable connection is needed. Its ability to handle significant temperatures could make it suitable for devices exposed to varying environmental conditions.
- Computing and Data Storage: Potentially used for secure data transmission in network hardware. The 50 ohm impedance aligns with common RF applications in computing interfaces, assuring minimal signal loss.
- Medical Imaging: While specific medical standards are not mentioned, if compliance and standards are met, this connector could be utilized in medical imaging devices where precise and stable connections are crucial for the accurate capture and transmission of data.
Note: These potential industry applications are only conceptual/illustrative and require analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements.
About TE Connectivity
TE Connectivity Ltd. is a global leader in connectivity and sensor solutions, known for their innovative and reliable products across a variety of industries. Within the realm of electronic connectors, including RF BNC Connectors, TE Connectivity provides a broad array of parts similar to 2-5221128-1. These connectors are designed to meet the demanding requirements of various applications, from aerospace and military to consumer electronics and telecommunications.
Their expertise in creating products that can withstand tough environments makes TE Connectivity a preferred choice for applications requiring high reliability and durability. The breadth and depth of their product offerings underscore their capability in innovating and tailoring solutions to meet specific industry needs.
Where to Find 2-5221128-1 by TE Connectivity
To find TE Connectivity’s 2-5221128-1, potential buyers should utilize resources like findchips.com. Here, they can search not only for this specific part but also explore other RF BNC Connectors that might be alternatives from TE Connectivity or other manufacturers. Historically, this part has been available at distributors such as TTI, TTI Europe, RS, Avnet Abacus, and Farnell, but availability and pricing can be efficiently compared at Find Chips for the most current data.