Parker recently announced expanded certifications and significant enhancements to its EY and EX servo motor series, solidifying its position as a partner of choice in critical and regulated applications, in particular for explosive environments .
Global level certifications
Parker continues its mission to ensure high-quality solutions while meeting the most stringent international regulations. Prominent among new developments is China Compulsory Certificate (CCC) certification for the EY series, a key recognition for the Chinese market. This certification not only expands Parker’s access to an important industrial region, but also strengthens its ability to meet the needs of ATEX Zone 2 applications, where safety requirements are particularly stringent.
Technology improvements for superior performance
In parallel, Parker has made significant improvements to the EX series, introducing a new polyurethane paint that increases its strength and durability. This innovation is a major step forward in ensuring that the servomotors remain compliant with the highest standards of safety and performance. Already certified to CE, IECEx, KOSHA and CCC standards, the EX series proves to be a versatile and reliable solution for applications in ATEX Zone 1, where the risks associated with explosive environments and atmospheres require the highest quality products.
Outstanding performance for critical sectors
Parker’s ATEX-certified servomotors are distinguished by their ability to deliver smooth, precise motion combined with impressive torque output over a wide speed range. Their outstanding acceleration and deceleration characteristics make them ideal for a wide range of industries operating under critical conditions. Prominent among these are:
Oil and gas: Robust solutions for high-risk environments.
Pharmaceutical: Guaranteed safety in sensitive processes.
Automotive: High-precision paint lines.
Biogas production and gas turbines: Reliable performance in extreme conditions.
Printing and distilleries: Efficiency and reliability in potentially explosive atmospheres.
