Information

Important! What You Need To Know About The Role Of Shielding In Control Cables


A shielded control cable is generally used as the connection line of electrical instruments.
It is suitable for the connection line of electrical instruments with an AC-rated voltage of 450/750V and below and the transmission line of the automatic control system.
It has excellent properties such as oil resistance, water resistance, wear resistance, acid and alkali resistance, resistance to various corrosive gases, aging resistance, and non-combustibility.

A shielded control cable is a cable with a layer of mesh copper or metal wire woven around one or more wires. This layer of mesh metal wire can prevent lightning strikes and external signals cannot interfere with it.

The shield also provides some leakage protection. If the cable is damaged during use and leaks, the shield can direct the leakage current to the ground wire, providing some safety protection.

The role of shielding and grounding wire of shielded control cable is that the shielding layer is divided into internal shielding and external shielding.

They are both to make good contact between the cable conductor and insulation layer, and between the cable insulation layer and the inner protective layer, to eliminate the increase of surface electric field strength caused by the unsmooth surface of the conductor and the inner protective layer.

Product characteristics of shielded control cables.

(1) Allowable bending radius of the cable: the minimum bending radius of a non-armored cable is 6 times the outer diameter of the cable. Fluoroplastic insulated and sheathed cables should be at least 8 times the outer diameter of the cable. Copper tape shielded or steel tape armored cable should be at least 12 times the outer diameter of the cable.

(2) Maximum operating temperature: polytetrafluoroethylene propylene (F46) insulation should not exceed 200 . Soluble polytetrafluoroethylene (PFA) insulation should not exceed 260 .

(3) Minimum ambient temperature. PVC sheath: fixed laying -40℃, non-fixed laying -15℃. Fluorine plastic and silicone rubber sheath: fixed laying -60℃, non-fixed laying -20℃. Cable installation and laying temperature shall not be lower than 0℃ (fluoroplastic, silicone rubber and nitrile sheathed cable shall not be lower than -25℃).

    zmswacables

    Recent Posts

    What Is Ethernet?

    In today’s interconnected world, Ethernet serves as the backbone of modern networking. Whether you're setting

    1 week ago

    The Top 10 Advanced Concepts in Electrical Engineering

    Electrical engineering is a complex and dynamic discipline that underpins critical aspects of modern life,…

    2 weeks ago

    Impact of Artificial Intelligence on Electrical Engineering

    Introduction Artificial Intelligence (AI) has permeated numerous industries, revolutionizing processes, enhancing efficiency, and enabling new

    4 weeks ago

    Removing Lead-Sheathed Telecom Cables from Lake Tahoe

    South Lake Tahoe, Calif. – In a groundbreaking environmental achievement, the League to Save Lake

    4 weeks ago

    Smart Grid: Leading the Future of Energy Transformation

    Introduction Global energy demands are soaring alongside urgent calls for climate action. Traditional power grids,…

    4 weeks ago

    What do you know about building electrical systems?

    Electrical systems are the backbone of modern buildings, enabling essential functions such as lighting, heating,…

    1 month ago