Pasternack, a prominent name in RF, microwave, and millimeter-wave products and an Infinite Electronics brand, has unveiled an expanded line of low-loss and low-PIM cable assemblies. This new range aims to meet the increasing demand for superior signal transmission and minimal interference across various applications.
Enhanced Flexibility and Durability
The updated offerings feature a diverse selection of LMR cable assemblies available in multiple configurations, including PVC, fire-rated, ultra-flexible (UF), and lightweight variations. These assemblies are designed to accommodate a wide array of uses and support numerous connectors such as BNC, MCX, MMCX, N, SMA, SMB, SSMB, SSMC, and TNC.
In addition to LMR options, Pasternack now provides low-PIM cable assemblies equipped with 4.3-10 and 2.2-5 connectors. These assemblies are engineered to minimize passive intermodulation, ensuring optimal signal integrity for high-performance systems.
Versatile Configurations for Diverse Applications
Pasternack's new cable assemblies are highly adaptable, featuring straight, right-angle, standard, and reverse polarity configurations to suit various installation needs. Customization options include clocking and heat-shrink features, allowing cables to meet the specific environmental and operational requirements of different projects.
These cable assemblies are particularly well-suited for applications demanding high signal integrity, such as wireless communication systems, satellite networks, and outdoor installations. With the ability to customize cable lengths and connector types, Pasternack ensures flexible solutions tailored to meet precise project specifications while maintaining high performance in challenging environments.
Commitment to Quality and Performance
“These new low-loss and low-PIM products are tailored for critical applications in wireless communications, satellite systems, and data networks,” said Amar Ganwani, Senior Product Manager at Pasternack. “They are essential where clear and reliable signal transmission is a priority.”
Click here for more information on Passive Intermodulation (PIM).
