| Quantity | Price |
| 1 - 99 | 22,00 $ |
| 100 - 199 | 21,56 $ |
| 200 - 499 | 21,34 $ |
* 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 2.4 mm female straight cable-mount RF connector, model 2.4-KCFS220-1, is a precision interconnect designed for ultra-low-loss assemblies using the CFS220 ultra-low-loss, phase-stable coaxial cable. Operating from DC to 50 GHz with a 50 Ω impedance, VSWR ≤ 1.2, and insertion loss ≤ 0.06 √f dB, it provides metrology-grade accuracy and exceptional phase linearity for demanding microwave and instrumentation applications. See the full 2.4 mm connector family for related models.
The 2.4-KCFS220-1 connector ensures tight impedance control and low reflection across the entire DC–50 GHz range. Its precise interface geometry supports vector network analysis and calibration-grade signal transmission, maintaining consistent return-loss behavior even in repeated use.
Constructed from passivated stainless steel and fitted with a gold-plated beryllium-copper contact, the 2.4-KCFS220-1 combines wear resistance with stable conductivity. Its high-precision alignment guarantees long-term electrical continuity and reliable phase matching. Explore further high-frequency interconnects under RF connectors.
The solder-type cable-mount design provides effective strain relief and robust mechanical integrity during assembly and use. This configuration minimizes dielectric deformation and ensures low VSWR for laboratory, production-test, and measurement environments. For alternative connection styles, see cable-mount connectors.
For optimal broadband stability and minimal attenuation, pair the 2.4-KCFS220-1 connector with the CFS220 ultra-low-loss, phase-stable coaxial cable. Together they deliver exceptional signal integrity and phase accuracy in precision measurement systems, RF calibration setups, and metrology-grade instrumentation links.