Amphenol CDI Swept Right Angle RF Connectors are designed to provide superior signal integrity and reduced insertion loss in high-frequency applications. The swept design optimizes electrical performance by maintaining a smooth signal path, minimizing reflection and impedance mismatch.
Ideal for aerospace, military, space, and industrial applications, these connectors offer enhanced durability, improved shielding, and reduced mechanical stress compared to traditional right-angle designs. Their streamlined geometry allows for easier cable routing in tight spaces while ensuring long-term reliability.
Key Features: ✔ Optimized swept design for improved electrical performance ✔ Reduced insertion loss and enhanced signal integrity ✔ Superior shielding to minimize interference ✔ Durable construction for harsh environments ✔ Designed for easy installation and cable management
Amphenol CDI Swept Right Angle RF Connectors provide a high-performance, space-saving solution for mission-critical RF applications, ensuring reliable connectivity with minimal signal degradation.
The SMA Female Radius Right Angle, 4-Hole, Straight Termination from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The SMA Female Radius Right Angle, 4-HOLE, Vertical SLOT (.028) from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The SMA Female Radius Right Angle,45 Degree (Left),2-Hole, Straight Termination from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The SMA Female Jack from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The SMA Female Jack from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The SMA Male Radius Right Angle, .141 Semi Rigid from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The SMP Male SWEPT Right Angle, PCB Straight thru Termination from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The TNC Female SWEPT Right Angle,4-Hole, Field Replaceable (.036) from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The Radius Right Angle SMA Male to SMA Male from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The Radius Right Angle SMA Male to SMA Male from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
The Radius Right Angle SMA Male to SMA Male from Amphenol CDI is engineered for reliability and precision in high-frequency signal transmission. Ideal for aerospace, defense, and telecommunications, this connector ensures consistent performance in demanding environments.
