Cables/Connecting

ConductRF RF cable assemblies at EuMw 2024

24th September 2024
Harry Fowle
0

ConductRF has announced they are exhibiting at the industry’s premier event in Europe, European Microwave Week, in Paris, France, September 22nd-27th, 2024.

They will be in Booth #715B with their European representative, Richardson Electronics. On display will be a wide array of their most popular RF cable assemblies purchased by customers around the world for RF and microwave communication system applications and vector network analyzer (VNA) test benches.

The best and most often used RF cable assemblies in communication and military systems

RF and microwave communication systems, both commercial and military, rely heavily on robust and specialized RF cable assemblies. These assemblies are crucial for transmitting signals with minimal loss, ensuring the efficiency and reliability of the overall system. According to ConductRF, these are the best and most frequently used RF cable assemblies in both commercial RF/microwave communication systems and military applications, such as radio, radar, and electronic warfare (EW) systems.

Flexible coaxial cables

These cables are widely used in both commercial communication systems and military applications. Flexible coaxial cables are found in radio frequency transmission lines, where their ability to bend and fit into tight spaces makes them highly adaptable. Popular cable assembly choices include MIL-DTL/RG; twin-shielded; and low PIM.

Semi-rigid coaxial cables

Known for their superior signal transmission performance, semi-rigid coaxial cables are used where minimal signal loss and stable performance are essential.

Hand-formable RF cable assemblies

Hand-formable RF cable assemblies are widely utilized in applications where space constraints or unique routing paths require a flexible, customizable solution. They are often used in:

These assemblies strike an ideal balance between the rigidity of standard coaxial cables and the flexibility needed for dynamic, complex installations.

High-frequency RF cables

These are specialized for high-frequency applications, such as in military radar and electronic warfare systems that require operation in high frequency ranges.

Phase-stable coaxial cables

Phase-stable cables are often used in applications where phase consistency over varying temperatures and mechanical stresses is crucial.

The best and most common RF test cable assemblies used with vector network analyzers (VNAs) for high frequency testing

In high frequency engineering and production test environments around the world, ConductRF’s cable assemblies play a critical role in testing, calibration, and performance verification of RF and microwave components and subsystems. One of the primary tools used in these environments is the Vector Network Analyzer (VNA), which measures the performance of RF devices, circuits, and assemblies.

Precision test cables

Precision test cables are specifically designed for use with VNAs and other RF/microwave test equipment. These cables feature high-quality shielding and low insertion loss, ensuring minimal signal degradation. They are also phase-stable, ensuring accurate and repeatable measurements over multiple test cycles. They’re used extensively in VNA calibration and testing environments, where accurate impedance and S-parameter measurements are required. These cables are ideal for production line testing of RF components and systems, such as antennas, filters, and amplifiers.

Phase-stable test cables

Phase-stable cables are essential when testing requires consistent phase response across multiple tests, particularly in high-frequency and temperature-sensitive applications. These cables maintain phase stability over a wide range of mechanical and thermal conditions, minimizing variations that can affect VNA measurements. They’re used in RF component testing, including power amplifiers, filters, and high-precision antennas. Phase-stable test cables are also essential in production environments, ensuring uniformity and reliability in mass-produced RF systems.

Low loss test cables

Low loss test cables are used in applications where signal integrity and minimal attenuation are critical, especially when measuring small signals or in systems operating at high frequencies. They offer reduced signal attenuation, preserving the integrity of measurements at higher frequencies (GHz range) during VNA testing. These cables are used in engineering environments to test sensitive RF components such as mixers, oscillators, and low-noise amplifiers (LNAs). In production environments, they ensure accurate test results for RF assemblies designed for high-performance applications, such as radar and satellite communications.

Torque-stable RF test cables

Torque-stable cables are designed to minimize performance variations due to the mechanical stresses of twisting and bending during testing. They provide consistent electrical performance under repeated movement, ensuring reliable test results when cables are connected and disconnected multiple times. They’re used in high-repetition VNA test environments, where cables are frequently handled, such as during production line quality control testing. They are particularly valuable in environments that require frequent reconfiguring of test setups.

Interconnect cables

Interconnect cables are used to link various test instruments together, allowing for versatile test setups and measurement configurations in RF engineering labs.

These cables offer seamless connections between VNAs, signal generators, and other test equipment. They’re found in engineering and production test benches, where multiple instruments need to be interconnected for component validation, system debugging, and RF performance verification.

Site-flex ruggedized field test cables

ConductRF’s proprietary Site-Flex Ruggedized Field Test Cables have been specially designed for use with hand-held field RF testing devices such as Keysight’s FieldFoxTM handheld RF and microwave analyzers. The ruggedized construction includes anti-torque connectors that are firmly attached to the cables external armor. Crush resistant SF series cable can withstand 1,200lbs/sq.in.

Quality control at the highest level

ConductRF’s dedication to quality is evident in their commitment to 100% testing of every unit they ship. Typically, a supplier will do “lot testing” on a few assemblies to ensure the quality of the entire lot.  At ConductRF, every cable assembly undergoes rigorous testing (see below) to ensure it meets the highest standards of performance and reliability—and this data is backed up and saved for future reference. This meticulous attention to detail ensures ConductRF’s assemblies not only meet your supply chain needs today, but the data is also available to match up with future lots that your company might order tomorrow. 

ConductRF’s 100% testing includes:

  • Frequency
  • Insertion loss
  • Return loss
  • VSWR
  • Impedance
  • Phase variance
  • Mechanical integrity
  • Environmental

Conclusion

Choosing the appropriate cable assembly can ensure efficient, reliable, and interference-free signal transmission across a range of demanding applications. And European Microwave Week is the perfect time to learn more about your options.

Whether in commercial RF/microwave systems, high-stakes military operations, or high frequency testing applications, selecting the right RF cable assembly can significantly impact system performance, and real-time, in-the-field outcomes. Flexible coaxial cables are valued for their adaptability, while semi-rigid and high-frequency cables offer unmatched performance in precision and high-frequency environments. Low PIM and phase-stable cables are specialized solutions that ensure signal clarity and stability, making them indispensable in both commercial and military sectors.

In test labs and production environments, precision RF test cables ensure minimal signal loss, phase-stable cables provide measurement consistency, and torque-stable options handle mechanical stresses for repeated testing. These cables are not just accessories but critical components in the RF testing and production process, ensuring that both engineering prototypes and mass-produced RF systems meet their performance specifications, and the personnel using systems with these components installed, remain as safe as possible.

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