In modern wireless communications, radar systems, and high-speed test and measurement fields, high-performance microwave transmission lines play a crucial role. The YX-CA520 microwave cable, with its outstanding engineering design and precise manufacturing process, achieves wide-band coverage from DC to 26.5 GHz within a slim diameter of only 5.2 mm while maintaining a propagation velocity as high as 83%. It provides a reliable and efficient signal transmission solution for high-frequency application scenarios.

Compact Design and Wide-Band Performance

 

One of the most notable features of the YX-CA520 is its slim diameter of only 5.2 mm. This compact structure not only reduces overall weight but also significantly improves wiring flexibility, making it particularly suitable for space-constrained applications such as airborne equipment, portable test instruments, and high-density integrated systems. However, the small size does not compromise performance—the cable achieves wide-band coverage from DC to 26.5 GHz, meeting the needs of most modern microwave applications.

 

The upper frequency limit of 26.5 GHz means the YX-CA520 can support high-frequency bands in 5G communications, satellite communications, millimeter-wave radar, and signal transmission in high-end test and measurement equipment. This wide-band characteristic makes it an ideal choice for multi-band systems or applications requiring frequency scanning.

 

Efficient Transmission and Stable Propagation

 

A propagation velocity of 83% is another key performance indicator of the YX-CA520. Propagation velocity (Velocity of Propagation, VP) represents the ratio of the signal transmission speed in the cable to the speed of light in a vacuum. A VP value of 83% indicates extremely high signal transmission efficiency and low delay in the cable, which is critical for applications requiring high time accuracy and phase consistency, such as phased array radar, precision test systems, and high-speed data communications.

 

A high propagation velocity typically means the cable uses low dielectric constant materials as the insulating layer. This not only reduces signal loss but also minimizes heat generation caused by dielectric loss, improving the cable’s power handling capability and long-term reliability.

 

Engineering Applications and Scenario Advantages

 

The comprehensive performance of the YX-CA520 gives it broad application prospects in multiple fields:

 

1. Test and Measurement Field: As a connecting cable for high-end test equipment such as vector network analyzers and spectrum analyzers, its wide-band and low-loss characteristics ensure measurement accuracy.

2. Communication Systems: Suitable for communication equipment requiring high-frequency transmission, such as 5G base stations, microwave relays, and satellite ground stations, especially in installation environments with limited space.

3. Aerospace and Defense: The slim and lightweight characteristics make it suitable for airborne and shipboard electronic equipment, while its wide-band performance meets the needs of modern electronic warfare and radar systems.

4. Medical and Scientific Research Equipment: High-quality signal transmission is required in precision instruments such as MRI systems and particle accelerators, and the YX-CA520 provides a reliable solution.

Technological Innovation and Materials Science

 

The key to achieving such high performance lies in the materials and structural design of the YX-CA520. The cable likely uses foamed polyethylene or other low-loss dielectric materials as the insulating layer, while the outer conductor may employ seamless copper tubes or precision braiding to ensure stable characteristic impedance under different bending conditions. The precision machining and impedance matching design of the connector interface are also critical factors in ensuring high-frequency performance.

 

Future Prospects

 

As 5G communications expand to higher frequency bands, autonomous driving radar becomes more widespread, and satellite internet develops, the demand for high-performance microwave cables will continue to grow. The YX-CA520 represents a significant step in the development of microwave transmission line technology toward “slimmer, wider, and faster” directions, providing a key foundational component for the miniaturization and high performance of future high-frequency electronic systems.

 

In summary, the YX-CA520 microwave cable, with its slim 5.2 mm diameter, wide-band coverage from DC to 26.5 GHz, and high propagation velocity of 83%, establishes an exceptional performance position in modern high-frequency electronic systems. It is not only a highlight in technical specifications but also a reliable partner for engineers facing complex high-frequency transmission challenges, driving continuous advancements in wireless communications and electronic testing technology.