New Process Control and Instrumentation Certifications Are Shaping the Next Generation of Technicians
Two New Instrumentation Micro-Credentials Enter Pilot Testing Phase
The world of process control is changing faster than most plants can keep up and employers are feeling the pressure. Smart instrumentation, tighter tolerances, and data‑driven operations are transforming everyday manufacturing practices, especially in sectors where precision is non‑negotiable like power generation, petrochemicals, food processing, chemical manufacturing, biotechnology, pharmaceuticals, refineries, and water treatment. These industries depend on technicians who can keep complex systems stable, safe, and efficient, yet thousands of open positions remain unfilled.
With so much riding on accurate measurement, reliable instrumentation, and well‑tuned control loops, the pressure on the workforce has never been higher. So when the Smart Automation Certification Alliance (SACA) set out to build its new Process Control & Instrumentation credentials, it made perfect sense to work directly with the people who face these challenges every day.
Industry leaders shaped every detail of the standards, with Endress+Hauser hosting SACA’s Process Control Technical Work Group at its U.S. headquarters in Greenwood, Indiana, and again at its Pearland, Texas campus, bringing together experts from the field to define what real‑world competency should look like in today’s rapidly evolving process landscape.
Reducing Risk Through Verified, Hands‑On Competency
As industry advances, the conversation has shifted from simply finding talent to ensuring that talent is truly prepared for the realities of modern processing environments. Standardized, hands-on credentials, like SACA, take the guesswork out of hiring and onboarding by proving that a technician can perform the tasks the job requires. Instead of hoping someone’s experience translates, employers get clear evidence of real‑world competency.
When discussing why hands-on credentialing is important, Jerry Spindler, of Endress+Hauser, says SACA credentials lead to “familiarity and comfort with the technology as a new hire, and being able to ramp-up quickly in their new roles.” They also lead to a quicker ROI since there is less time for an employee to integrate after hiring.
For all employers, the value of these credentials starts with consistency. By defining clear, performance‑based standards, SACA gives industry a reliable way to benchmark what competent truly means in process control and instrumentation. A workforce built on demonstrated ability is also a workforce that can adapt. As plants introduce new technologies, upgrade instrumentation, or shift toward more data‑driven operations, technicians with validated foundational skills are better positioned to learn, grow, and take on more advanced responsibilities.
Solving Workforce Challenges
Along with other workforce challenges, like generational talent shortages and advancing technology, companies across the process industry realize the importance of setting an industry standard and a more consistent, validated way to prepare the next generation of process control talent.
Plants are becoming more automated, and employers are feeling the strain of trying to develop talent quickly enough to keep up. Internal training programs vary widely from one facility to the next, and on‑the‑job learning alone can’t always provide the depth or consistency needed for such high‑stakes work. Companies are looking for a way to ensure every technician, regardless of where they come from, has demonstrated the same core competencies.
The responsibility for preparing tomorrow’s process control technicians doesn’t rest solely with employers. Education and training providers play an equally critical role, and they need well‑defined, industry‑validated standards to guide how they teach, assess, and develop emerging talent.
Educators want to prepare students for real careers, yet without direct alignment to industry expectations, it’s easy for programs to drift toward theory or outdated practices. That’s why these credentials matter just as much to education as they do to employers. They provide a roadmap for what students must be able to know and do and expose them to careers they might not have known existed.
“Graduates can also settle into their new positions more quickly and confidently and be able to make immediate contributions to their organizations since they would not be working with equipment they are unfamiliar with,” explains Spindler.
Developing Credentials for the Nex Generation
As process industries continue to evolve, the role of the technician is evolving with them. Smart instrumentation, advanced analytics, and increasingly autonomous systems are reshaping what it means to work in process control. Tomorrow’s technicians won’t just maintain equipment, they’ll interpret data, optimize performance, and make decisions that directly influence safety, quality, and efficiency.
SACA’s Process Control and Instrumentation credentials were built with that future in mind. They validate the foundational skills technicians need today while creating a framework that can grow as technology advances, ensuring the workforce stays aligned with the realities of modern operations.
Two of the first micro-credentials are currently available for pilot testing: C-261 (Process Measurement Instrumentation 1) and C-262 (Process Measurement Instrumentation 2). Members are encouraged to familiarize themselves with these first credentials and offer testing.
The newly released Process Control and Instrumentation credentials cover the current analog technologies still widely used across industry, but they represent just one piece of what the future workforce will need. As more facilities transition to digital instruments, smart devices, and networked control systems, additional credentials will be needed to prepare students and emerging technicians.
Stay up to date on future credential updates by signing up for our newsletter: https://mailchi.mp/saca/z4exl2d8ho
Interested in taking pilot tests but not a member? Learn more here: https://www.saca.org/smart-automation-certification-membership/
- Published in Posts, Technology
SACA Certifications Power UW-Stout’s First Automation Leadership Graduate
The University of Wisconsin-Stout is marking a major milestone in its commitment to preparing the next generation of automation leaders. As the manufacturing industry accelerates toward smarter, more connected systems, UW-Stout’s B.S. in Automation Leadership has emerged as a forward‑thinking pathway for working professionals who want to advance their careers without starting from scratch. The program is intentionally designed around minimizing the time to earn a degree, recognizing prior learning, honoring real‑world experience, and integrating industry‑recognized Smart Automation Certification Alliance (SACA) certifications to create a faster, more relevant route to a bachelor’s degree.
At the heart of the program is a simple but powerful idea: professionals shouldn’t have to relearn what they’ve already mastered. A total of 61 credit hours can be earned just through SACA credentials. This structure dramatically shortens time to completion while ensuring every credit reflects validated, employer‑trusted skills.
Just five semesters after being introduced, UW-Stout celebrated its first graduate of the Automation Leadership program.
Cody Erwin is the Industrial Technology Instructor and Technical Training Program Lead at Mid‑Del Technology Center in Oklahoma City. Mid‑Del is a dedicated SACA member institution and offers ten micro‑credential options in its Industrial Technology program, giving students a solid on‑ramp into modern manufacturing.
Erwin knows the value of those credentials firsthand. He came to education after working in industry, and he’s earned twelve SACA certifications himself. That experience shaped the way he now approaches training. As he puts it, he wanted to “build programs that were focused around automation and all the skills that we were needing in those types of roles that I had been in before.”
That industry experience is exactly what led Cody to the Automation Leadership program at UW-Stout. After years of seeing firsthand what today’s technicians and team leads are expected to know, he wanted a degree that aligned with the realities of modern manufacturing, not something disconnected from the work happening on the floor. Stout’s approach immediately stood out.
For Erwin, the way Stout structured the Automation Leadership program made all the difference. By transferring his twelve SACA certifications as university credits, he ended up saving around $20,000 on his degree. And because the coursework was fully online, he was able to complete the degree from Oklahoma and correlate his capstone to his work at Mid-Del.
When speaking about the program, Erwin says, “What stood out to me was how practical the course was. One, that it was offered online so I could take it while I was full-time teaching. And then two was my curiosity for the development between leadership and technical. I wanted to see how we could interplay those to promote more people to get into this trade.”
Being in education, Erwin wanted to focus his capstone project on the people in automation rather than a process itself. He designed a technical system that laid out proper standards, training, and the structure to sustain and grow into a larger scale.
Erwin graduated in December 2025 as the first person to earn a B.S. in Automation Leadership. Erwin is also a first-generation college graduate. “Becoming a college graduate, especially the first in my line of family, it was a goal that I set a long time ago and I slowly chipped away at it,” he commented. “So, to finally see the light at the end of the tunnel was amazing and I’m very thankful that I got to go through that process and grow.”
Looking to the future, Erwin will continue to focus on automation and workforce development. He also plans to keep utilizing SACA certifications with the students he teaches and for his own professional development.
Find more about the Automation Leadership degree here: https://www.uwstout.edu/programs/bs-automation-leadership
Find the latest SACA certifications here: https://www.saca.org/smart-automation-certifications/saca-micro-credential-descriptions/
Join us at the inaugural SACA National Conference: https://www.saca.org/sacacon/
SACA & CESMII to Host Technical Work Group
The Smart Automation Certification Alliance (SACA) has partnered with CESMII to develop certification standards for Smart Manufacturing in Smart Manufacturing OT-IT Integration and Semi-Autonomous Intelligence.
Now, industry experts are needed to validate these standards. This is an opportunity for your organization to have input on the skills and competencies needed for today’s smart manufacturing workforce. The exclusive Technical Work Group will meet on April 16th, 2026, at Rockwell Automation in Milwaukee, Wisconsin.
Your input will be used to create nationally-recognized, occupation-driven certifications. Schools and training programs will use these standards to guide their Industry 4.0, IIoT, and artificial intelligence programs.
Additionally, SACA will seek your feedback on future needs of industry and technology trends that will help shape their strategy moving forward.
Benefits of Participating
- Recognition as a national leader in smart manufacturing, IIoT, and AI
- Gain first access to state-of-the-industry skills standards
- Ensure your company’s skill needs are addressed by a nationally-recognized certification
The Details
April 16, 2026 from 10 am – 2 pm
Rockwell Automation, 1201 S. 2nd Street, Milwaukee, WI 53204
Plan to attend? RSVP here.
Credential Standards
C-221: Smart Manufacturing OT-IT Integrations
The purpose of this credential is to certify that individuals can configure and operate various types of edge and cloud software including SCADA, OPC-UA server, MQTT broker, and SQL Database to enable real-time data exchange with open standards like OPC UA and MQTT between automation equipment and IIoT sensors (a.k.a. Operational Technology – OT), and enterprise systems like Manufacturing Execution Systems (MES) and Enterprise Asset Management (EAM) systems (considered part of the Information Technology systems – IT) . Individuals shall also demonstrate the ability to configure various types of visualizations and organization of the data for use in dashboards and analytical applications.
C-222: Smart Manufacturing OT-IT Semi-Autonomous Intelligence
The purpose of this credential is to certify that individuals have the foundational skills for designing and working with a Unified Namespace (UNS) to organize and contextualize IIoT data from industrial systems. Individuals will demonstrate the ability to collect, model, and prepare operational data for downstream use, including analytics and AI-enabled applications. The credential emphasizes preparing high-quality, well-structured data suitable for programmatic or AI-based workflows, and includes practical experience using Python to access, transform, and analyze industrial data.
- Published in News, Technology
