Key Specifications
Connector 1
1.85-JCFS150UEH-1
Connector 2
N-JCFS830H-1
Coaxial cable
CFS830H
Cable Outer Diameter (mm)
8.3
Frequency Max.
Max. VSWR (typical)
Max. VSWR
Insertion Loss
0.91
Amplitude Stability
±0.1
Phase Stability
±3
Min. Static Bending Radius
41
Min. Dynamic Bending Radius
83
Description
The N Male to N Male Low-Loss RF Cable Assembly — model IFCAN-NMNM-1M — is a precision interconnect solution engineered for broadband and microwave measurement systems that require low-loss performance and excellent mechanical reliability. It is built with Mechanc’s CFS830H coaxial cable, a variation of the CFS830 ultra-low-loss 18 GHz precision test coaxial cable with PFA jacket, and terminated with two precision N-type male connectors (reference N-JCFS830H-1). Supporting operation up to 18 GHz, this 8.3 mm-diameter assembly maintains a maximum VSWR of 1.35 and an insertion loss of 1.5 dB per meter, providing exceptional signal integrity for demanding RF measurement applications.
Optimized for operation up to 18 GHz, the IFCAN-NMNM-1M offers excellent impedance control and low reflection across the entire frequency range. The precision N male connectors provide robust mating, stable phase performance, and consistent return-loss characteristics, making this assembly ideal for vector network analyzer (VNA) testing, system calibration, and broadband RF transmission setups.
Explore Mechanc’s full selection of N RF Cable Assemblies, developed to ensure low-loss, phase-stable, and repeatable performance for professional microwave and broadband testing applications.
The CFS830H coaxial cable combines a low-loss dielectric with a ruggedized core that minimizes phase and amplitude variation during flexure or thermal cycling. The PFA jacket enhances environmental resistance and flexibility, ensuring consistent electrical behavior during repeated handling in laboratory and production testing environments.
Part of Mechanc’s System Interconnect RF Cable Assemblies – IFC Series, the IFCAN-NMNM-1M delivers exceptional electrical accuracy and mechanical stability for high-performance RF measurement systems. Each assembly is fully tested for insertion loss and VSWR and certified to REACH and RoHS standards, guaranteeing environmental compliance and long-term reliability in demanding RF applications.