I-PEX Launches Extremely Fine Coaxial Wire Harness Connectors

Extremely fine coaxial cable assemblies are capable of handling high data rates while providing a high degree of flexibility and high shielding performance, making them suitable for many high level applications. Extremely fine coaxial cable connectors are primarily used to connect digital signals between modular boards via differential transmission over extremely fine coaxial cable. The increase in signaling speeds in recent years has led to the increasing use of very fine coaxial cable in patch cords.

Coaxial cables have a multi-layer structure, with the center conductor being insulated, the outer conductor and the outer layer being covered by the cable, known as "coaxial cables".

Extremely fine coaxial cables Coaxial cables for high-performance small devices such as laptop computers, foldable smartphones, and medical devices are very small. Generally speaking, small-sized coaxial cables with an outside diameter of 1mm or less are referred to as "Extremely Fine Coaxial Cables".

High Flexibility Extremely thin coaxial cables are often used because they are more flexible than shielded FPC/FFC and maintain stable electrical characteristics even when bent.

Outstanding impedance controllability When a high-speed signal is transmitted through a cable, the electrical signal is reflected where the impedance changes, so it is necessary to keep the impedance as constant as possible to suppress interference and ensure signal quality. By adjusting the distance between the center conductor and the outer conductor or insulator material, the impedance of very fine coaxial cables can be appropriately controlled.

Excellent shielding function Because the outer conductor of the very fine coaxial cable plays the role of electromagnetic shielding, so it has excellent anti-electromagnetic interference (EMI) performance to prevent the electrical signal transmitted through the center conductor leakage of electromagnetic noise to the outside, in addition, for the electromagnetic noise from the outside, it also has a good anti-magnetization rate (EMS).

The Extremely Fine Coaxial Harness Assembly process creates small, flexible, extremely fine coaxial cable assemblies with excellent electrical characteristics by terminating the coaxial cable with a connector.

High Performance EMC ShieldingUsing I-PEX's EMC shielded connectors (ZenShield®), very fine coaxial cable assemblies can provide significant EMI mitigation. As a result, very fine coaxial cable assemblies using the ZenShield® connector series are often used in high-performance electronic devices equipped with wireless communication capabilities that need to cope with EMC issues within the system.

Product assembly process with the advantage of high flexibilityThe flexible cable characteristics of very fine coaxial cable assemblies allow them to be used in a wide variety of applications, such as equipment where cables must pass through spool assemblies and in applications where narrow and complex structures make wiring during assembly very difficult.

Examples of suitable applications The benefits and advantages of very fine coaxial cable assemblies are mechanical and signal transmission. These assemblies are capable of handling high data rates while providing a high degree of flexibility and high shielding performance. Below are examples of applications that apply the flexibility of instant coaxial cable assemblies.

About I-PEX | I-PEX Extremely Fine Coaxial Wire Harness Connectors Sourcing, Sales and Marketing:

3M electronic products network is a focus on connector | wire harness | cable products supply and demand and sales of professional, accurate, vertical electronic industry comprehensive product sales platform! Specializing in the production / sale of {connector | wire harness | cable products};

If you have any demands for [I-PEX Extremely Fine Coaxial Wire Harness Connectors Product Purchase/Request] and [I-PEX Extremely Fine Coaxial Wire Harness Connectors Product Sales/Resources & Promotions], please feel free to contact us through the following ways.