| Quantity | Price |
| 1 - 99 | 23,00 $ |
| 100 - 199 | 22,54 $ |
| 200 - 499 | 22,31 $ |
* All Prices are in US Dollars and do not include duties
Key Specifications
Frequency Max
Connector Series
Connector Gender
Body Style
VSWR Max
Termination Type
Interface Type
Attachment Method
Mount Method
Description
The 2.92 mm male straight cable-mount RF connector, model 2.92-JCFS360-3, is precision-machined for ultra-low-loss broadband performance when paired with the CFS360 phase-stable coaxial cable. Operating from DC to 40 GHz with a 50 Ω impedance, VSWR ≤ 1.17, and insertion loss ≤ 0.06 √f dB, it ensures stable signal transmission and repeatable results in advanced microwave and metrology testing. Explore the 2.92 mm connector family for more high-precision models.
The 2.92-JCFS360-3 connector guarantees consistent impedance matching and low reflection across the full operating range. Its precision-machined interface minimizes phase drift and return-loss variation even in temperature-sensitive environments—ideal for network analyzers, vector measurement systems, and microwave calibration benches.
Manufactured from passivated stainless steel with a gold-plated beryllium-copper contact, the 2.92-JCFS360-3 offers low contact resistance, mechanical robustness, and corrosion resistance for long-term reliability. Precision alignment between mating surfaces ensures repeatable signal linearity and phase integrity. Discover more precision interconnects in our RF connectors range.
The cable-mount solder termination provides mechanical stability and dielectric centering to preserve impedance uniformity. Its robust attachment prevents deformation during handling and vibration, minimizing VSWR shift and ensuring reliable broadband performance. For comparable termination types, visit cable-mount connectors.
When used with the CFS360 ultra-low-loss, phase-stable coaxial cable, the 2.92-JCFS360-3 connector delivers excellent repeatability, low insertion loss, and phase coherence—perfect for laboratory setups and microwave instrumentation requiring metrology-grade performance.