The SR220 is an electric slip ring developed for applications requiring reliable transmission of both high- and low-power signals together with digital signals. As an electrical slip ring connector, it enables continuous rotation while maintaining electrical connections between stationary and rotating parts.
Electric slip rings are used in rotating systems where uninterrupted transfer of power and signals is required. The SR220 is designed to combine different signal types within a single unit, supporting stable operation in systems where both power and digital signals are present.
Electrical contact design and signal transmission
This electrical slip ring is equipped with internal brass rings featuring nickel and gold plating. These materials provide consistent electrical contact and support stable transmission of both power and signal types.
The brushes are manufactured from monofilament beryllium copper with corresponding plating. This configuration ensures stable contact between brushes and rings and contributes to consistent electrical performance over time.
Mechanical construction and material design
The SR220 slip ring electrical connector features an aluminium housing with a protective surface treatment. This construction supports durability and provides additional resistance in demanding industrial environments.
Mechanical components made of stainless steel contribute to the overall robustness of the unit. The rotating shaft is supported by sealed, lifetime-lubricated ball bearings, enabling smooth rotation during operation.
Cable glands for multi-core cables are integrated into the design, allowing structured and secure cable connections.
Reliable electrical slip ring for rotating systems
The SR220 is designed as a reliable electrical slip ring for applications involving continuous rotation and combined transmission of power and digital signals. Its material selection and construction support consistent operation over time.
Key characteristics of the SR220 electric slip ring include the ability to transmit multiple signal types, the use of durable contact materials and a mechanically robust design. This makes it a suitable solution for rotating systems requiring stable electrical connections.
