A new user-configurable equipment protection interlock system that helps protect scientific equipment and users will provide more flexibility and reliability while improving safety at the Lab.
Equipment protection interlock systems are a vital component of the infrastructure for many types of scientific equipment and facilities, especially at Berkeley Lab facilities like the Advanced Light Source (ALS), BELLA, and the Joint Genome Institute. These specialized interlock systems control the mechanisms that prevent unsafe conditions when using equipment. Actions like protecting beamline slits and components from overheating fall to interlock systems that have been custom-configured to meet the specific requirements of equipment and experiments. The Engineering Division is currently piloting a system for Berkeley Lab that will make setting up and using equipment protection system interlocks safer, faster, and more consistent—with minimal training and no need for coding on the user side.
This new tool has been developed at the ALS in collaboration with the European Synchrotron Radiation Facility (ESRF). The underlying idea for the interlock system comes from ESRF, where more than 400 of the devices are already in use. When Ernesto Paiser, ALS Instrument Software Support Group Lead, formerly of ESRF, arrived at Berkeley Lab, he saw an opportunity to implement a similar system that would provide increased reliability and flexibility while improving safety and efficiency.
“When I started at the Lab,” says Paiser, “I was immediately confronted with numerous challenges related to the equipment protection system (EPS). One of the most significant issues was how complex and inaccessible the system was for end users when they needed to define or modify interlock requirements at the end stations. Even a minor request often required changes to the main front-end interlock program. Each modification triggered a full system retest, regardless of the scope of the change. In many cases, by the time the work was completed, the original request was no longer needed, yet the changes remained permanently embedded in the system.”
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Image: Ernesto Paiser, ALS Instrument Software Support Group Lead, pictured with the new no-code interlock system.
Credit: Engineering Division