Mwrf 4485 Cablesconnectors
Mwrf 4485 Cablesconnectors
Mwrf 4485 Cablesconnectors
Mwrf 4485 Cablesconnectors
Mwrf 4485 Cablesconnectors

Ensure Success When Making Connections

March 13, 2017
This white paper explains why RF connectors are an important aspect of many systems, as well as describes proper connection approaches.

Although they may not seem glamorous, RF connectors play a crucial role when it comes to achieving desired system performance. Making the effort to properly install connectors thus becomes extremely important. In the white paper, “Bulletproofing the Critical Connection: What You Need to Know About RF Connectors For Critical Communications Applications,” RF Industries delves into the methods that should be used to properly install and test RF connectors. The paper also explains how the requirements of future wireless networks are likely to produce new developments in connector technology.

Although it may seem like connectors have remained unchanged throughout the years, the paper begins by explaining that connector technology does indeed progress over time. Moreover, connectors do not have the luxury of backup protection. Thus, a bad connection can lead to negative consequences, ranging from slight voltage-standing-wave-ratio (VSWR) changes to complete failures.

The paper details a number of parameters, processes, and procedures that apply to connector installation. Foremost, the operational status of the system must be verified to ensure proper connector operation. In terms of successful connector installation, the focus should be on cable preparation and connector preparation, with an emphasis on proper cable cutting and stripping.

After identifying the right connector for the specific cable, the next step involves making the actual connection. A connector can be attached to a cable using one of three methods: solder/clamp, crimp, or compression. The document presents the advantages and disadvantages of each one.

Of course, after making a connection comes the testing phase. The general rule is to first conduct a physical inspection. Once a connection has been physically inspected, it must go through electrical testing.

The white paper also discusses some causes of connection failures. For instance, contamination induced by foreign substances will likely lead to failure. Moisture is another frequent nemesis of connectors. The document concludes with a look at the future connector landscape.

RF Industries, 7610 Miramar Rd., San Diego, CA 92126; (858) 549-6340; www.rfindustries.com.

Sponsored Recommendations

Microelectromechanical 3D Printing Resources

March 28, 2024
Check out our curated list of microelectromechanical 3D printing resources and see how PµSL technology offers freedom and speed.

Understanding 3D Printing Tolerances: A Guide to Achieving Precision in Additive Manufacturing

March 28, 2024
In the world of additive manufacturing, precision is paramount. One crucial aspect of ensuring precision in 3D printing is understanding tolerances. In this article, we’ll explore...

Making the Case for Micro-Precision 3D Printing

March 28, 2024
Read this white paper to learn how micro-precision 3D printing can provide the flexibility of additive manufacturing at a micro scale.

125 GHz Frequency Doubler using a Waveguide Cavity Produced by Stereolithography

March 28, 2024
Read this technical paper to learn how a 125 GHz frequency doubler using a waveguide cavity was produced by stereolithography.