Key Specifications
Connector 1
2.92-JCFS150H-1
Connector 2
N-JCFS550H-1
Coaxial cable
CFS550H
Cable Outer Diameter (mm)
5.6
Frequency Max.
Max. VSWR (typical)
Max. VSWR
Insertion Loss
1.26
Amplitude Stability
±0.1
Phase Stability
±3
Min. Static Bending Radius
28
Min. Dynamic Bending Radius
56
Description
The N Male to N Male Low-Loss RF Cable Assembly — model IFCFN-NMNM-1M — is a robust interconnect solution engineered for broadband and microwave test systems requiring stable electrical performance, low attenuation, and long-term mechanical reliability. It is constructed with Mechanc’s CFS550H coaxial cable, a variation of the CFS550 ultra-low-loss 18 GHz precision test coaxial cable with PFA jacket, and terminated with two precision N-type male connectors (reference N-JCFS550H-1). Supporting operation up to 18 GHz, this 5.5 mm-diameter assembly maintains a maximum VSWR of 1.35 and a typical insertion loss of 1.8 dB per meter, ensuring exceptional phase stability and repeatable broadband performance.
Designed for high-frequency applications up to 18 GHz, the IFCFN-NMNM-1M provides precise impedance control and superior return-loss performance. The rugged N male connectors deliver consistent electrical contact and mechanical strength, making this assembly ideal for vector network analyzer (VNA) calibration, broadband measurement systems, and laboratory-grade test setups.
Discover Mechanc’s full range of N RF Cable Assemblies — developed for low-loss, phase-stable, and repeatable signal transmission in RF, broadband, and microwave test environments.
The CFS550H coaxial design combines a low-dielectric-loss core with reinforced mechanical construction to minimize phase variation and amplitude drift during use. The PFA jacket provides outstanding flexibility and chemical resistance, ensuring consistent electrical performance even under frequent handling in laboratory or production conditions.
Part of Mechanc’s System Interconnect RF Cable Assemblies – IFC Series, the IFCFN-NMNM-1M merges low-loss electrical precision with rugged mechanical durability. Each assembly is thoroughly tested for VSWR and insertion loss and is fully compliant with REACH and RoHS standards, ensuring sustainable, high-reliability performance for professional RF and microwave testing applications.