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Temperature-stable & ultra low-loss microwave coaxial cables

HYTEM  >  Temperature-stable & ultra low-loss microwave coaxial cables

Signal transmission and reception

Temperature-stable & ultra low-loss
microwave coaxial cables

CUSTOM CABLE DESIGN FOR YOUR DEMANDING APPLICATIONS

We support you at every stage to design cables that precisely meet your requirements, even in extreme environments. From the initial analysis, we work closely with your teams to define specifications, develop optimized solutions, and ensure manufacturing using the most advanced technologies.

In the face of growing challenges in microwave applications, we continuously innovate. With state-of-the-art equipment and optimized processes, we develop high-performance cables and assemblies tailored to the demands of today and tomorrow.

These diagrams illustrate our advanced insulation technology, designed to ensure optimal stability and minimal microwave losses, while eliminating the limitations of other constructions.

  1. Extruded insulation: requires increased thickness to compensate for potential conductor eccentricities.
  2. Tape-wrapped insulation: creates an uneven surface, incompatible with high-pressure O-rings, encouraging contamination and partial discharge formation within winding voids.
  3. Our innovative insulation: delivers superior reliability while optimizing space and weight, achieving unmatched performance in demanding environments.
Shéma Câbles stables et très faibles pertes hyperfréquences
Temperature-stable & ultra low-loss microwave coaxial cables

Find the right reference for your project

Access our loss calculator

This loss calculator allows you to select the cable reference best suited to your needs, taking into account acceptable signal losses and performance requirements. It helps you maximize the quality and reliability of your signal transmissions while minimizing unwanted signal loss.

Filter by:

P/NTemperature rangeMinimum bend radiusWeightFrequency rangeImpedanceJacket and Color
HY125-65 °C ~ +200 °C6,35 mm (stat) / 15,9 mm (dyn)17,9 kg/kmDC ~ 70 GHz50 OhmsFEP Ø 2,51 mm
HY140-65 °C ~ +200 °C12.7 mm (stat) / 25,4 mm (dyn)28 kg/kmDC ~ 50 GHz50 OhmsFEP Ø 3,30 mm
HY150-65 °C ~ +200 °C12.7 mm (stat) / 32 mm (dyn)33 kg/kmDC ~ 43 GHz50 OhmsFEP Ø 3,65 mm
HY150UF-65 °C ~ +200 °C12,7 mm (stat) / 32 mm (dyn)33 kg/kmDC ~ 42 GHz50 OhmsFEP Ø 3,65 mm
HY157-65 °C ~ +200 °C12.7 mm (stat) / 32 mm (dyn)38 kg/kmDC ~ 40 GHz50 OhmsFEP Ø 4,06 mm
HY180-65 °C ~ +200 °C19 mm (stat) / 32 mm (dyn)58 kg/kmDC ~ 32 GHz50 OhmsFEP Ø 4,8 mm
HY230-65 °C ~ +200 °C19 mm (stat) / 35 mm (dyn)72 kg/kmDC ~ 26,5 GHz50 OhmsFEP Ø 5,79 mm
HY230UF-65 °C ~ +200 °C16 mm (stat) / 32 mm (dyn)68 kg/kmDC ~ 26,5 GHz50 OhmsFEP Ø 5,79 mm
HY280-65 °C ~ +165 °C25,4 mm (stat) / 50 mm (dyn)130 kg/kmDC ~ 18 GHz50 OhmsFEP Ø 7,74 mm
HY280UF-65 °C ~ +165 °C25,4 mm (stat) / 50 mm (dyn)120 kg/kmDC ~ 18 GHz50 OhmsFEP Ø 7,74 mm

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