| Quantity | Price |
| 1 - 19 | 20,00 $ |
| 20 - 49 | 19,40 $ |
| 50 - 99 | 18,80 $ |
* All Prices are in US Dollars and do not include duties
Key Specifications
Connector 1
Connector 2
VSWR Max
Frequency Max
Insertion Loss Max
Body Style
Description
The CFA520 phase-stable low-loss coaxial cable is optimized for applications that demand high phase and amplitude stability under thermal and mechanical stress. Operating up to 26.5 GHz with a 50 Ω impedance, it delivers consistent phase accuracy (≤ ±3° @ 18 GHz, ≤ ±5° @ 26.5 GHz) and amplitude stability within ± 0.1 dB @ 18 GHz. Explore the complete CFA Series – Phase-Stable Low-Loss Coaxial Cables for more diameter and frequency options.
The CFA520 cable features a 1.29 mm solid silver-plated copper inner conductor combined with a low-density PTFE dielectric and dual silver-plated copper shielding. This structure ensures low attenuation (1.411 dB/m @ 26.5 GHz) and robust phase stability across temperature ranges from –55 °C to +165 °C. The outer FEP jacket provides durability and chemical resistance while maintaining mechanical integrity for fixed and semi-flex installations.
For applications requiring greater flexibility and repeated-bend tolerance, the CFA570MW Phase-Stable Low-Loss Coaxial Cable offers a multi-strand inner conductor design that improves mechanical resilience and bending life while maintaining low-loss and phase-stable performance up to 18 GHz.
With > 90 dB shielding effectiveness, a 26 mm single bend radius, and 52 mm repeated bend radius, the CFA520 low-loss coaxial cable delivers outstanding signal integrity for vector network analyzers, radar systems, and broadband communication setups. For other low-loss cable families, visit the Low-Loss Coaxial Cable Series.
Manufactured by Mechanc Shanghai Information Technology Co., Ltd., the CFA520 phase-stable low-loss coaxial cable combines solid-core stability, low attenuation, and verified REACH and RoHS compliance to ensure long-term electrical accuracy and reliability in phase-critical RF and microwave systems.