Canted Coil Springs are a very practical product in EMI shielding applications. They are usually made of steel wire , wound wire and have high strength and elasticity.Canted coil springs are available in two configurations: welded ring configuration and non-welded length. The welded ring configuration means that both ends of the spring have welded rings, which can be easily installed on electronic equipment. The non-welded length means that there are no welded rings at both ends of the spring. Solder ring can be mounted by other means, especially suitable for EMI shielding applications requiring linear mounting.
The main purpose of canted coil springs is to reduce electromagnetic interference between electronic equipment and the external environment and improve the stability and reliability of the equipment.These springs can be plated with silver, gold, and other highly conductive metals to enhance electrical performance and provide better shielding properties than other materials in some applications.In addition to the basic functions mentioned above, canted coil springs can also be customized and produced according to customers’ specific requirements, including different lengths, widths and thicknesses, which can be achieved through different material combinations.For example, customers can choose different wire diameters and winding diameters to meet different shielding performance requirements.
Therefore, canted coil springs are a highly flexible EMI shielding solution that can be customized and produced according to customers’ specific needs to meet their diverse needs.For example, customers can choose different wire diameters and winding diameters to meet different shielding performance requirements.At the same time, taking into account customer needs and applicable scenarios, specific accessories can be added or reduced during the production process according to actual conditions, such as adjusting the protruding height of the end or adding nuts, etc., to improve the stability and reliability of the spring.