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Internship Mes Engineer Jobs in Raleigh, NC (NOW HIRING)

Automations Engineer

Middlesex, NC · On-site

$95K - $125K/yr

... MES, or cloud platforms. ● Working knowledge of machine learning concepts and data analytics ... Prior internships, capstone projects, or personal projects involving automation, robotics, or ...

Internship Mes Engineer information

See Raleigh, NC salary details

$13

$24

$37

How much do internship mes engineer jobs pay per hour?

As of Jul 13, 2026, the average hourly pay for internship mes engineer in Raleigh, NC is $24.71, according to ZipRecruiter salary data. Most workers in this role earn between $20.10 and $28.03 per hour, depending on experience, location, and employer.

What does an Internship MES Engineer do?

An Internship MES Engineer assists in the implementation, maintenance, and optimization of Manufacturing Execution Systems (MES) within a production environment. They support senior engineers in troubleshooting MES software, integrating it with other IT and automation systems, and ensuring accurate data collection from the manufacturing floor. Interns may also help document system processes, participate in testing and validation activities, and collaborate with cross-functional teams to improve manufacturing efficiency. This role provides hands-on experience in both manufacturing operations and industrial IT systems.

What are some typical projects or tasks an MES Engineer intern might work on during their internship?

As an MES Engineer intern, you can expect to be involved in projects such as assisting with the integration of Manufacturing Execution Systems (MES) into production environments, troubleshooting system issues, and helping configure or develop dashboards for real-time data monitoring. You might also participate in process mapping, documentation, and supporting the deployment of new software updates. Interns often collaborate closely with senior engineers, IT teams, and production staff, gaining hands-on experience in both technical and operational aspects of manufacturing technology.

What is the difference between Internship Mes Engineer vs Manufacturing Engineer?

AspectInternship Mes EngineerManufacturing Engineer
CredentialsTypically pursuing or recently completed relevant degreeBachelor's or higher in engineering or related field
Work EnvironmentInternship setting, learning-focused, entry-levelFull-time manufacturing facilities, process optimization
Industry UsageCommon in manufacturing companies for trainingCore role in production and process improvement

The Internship Mes Engineer is a temporary, learning-focused position for students or recent graduates, whereas the Manufacturing Engineer is a full-time professional responsible for optimizing manufacturing processes. The internship provides exposure and foundational skills, while the manufacturing engineer role involves ongoing process management and improvement.

What are the key skills and qualifications needed to thrive as an Internship MES Engineer, and why are they important?

To thrive as an Internship MES Engineer, you need a foundational understanding of manufacturing processes, industrial engineering principles, and ideally a degree in engineering or a related field. Familiarity with Manufacturing Execution Systems (MES) software, databases (such as SQL), and programming languages like Python or Java is highly beneficial. Strong problem-solving abilities, attention to detail, and effective communication skills help you excel in team environments and adapt to dynamic manufacturing settings. These competencies enable you to efficiently support digital transformation, ensure system reliability, and contribute to process optimization within manufacturing operations.
What are the most commonly searched types of Mes Engineer jobs in Raleigh, NC? The most popular types of Mes Engineer jobs in Raleigh, NC are:

Automations Engineer

SINNOVATEK SERVICES LLC

Middlesex, NC • On-site

$95K - $125K/yr

Full-time

Posted 12 days ago


Job description


As part of our cross-functional engineering team, you will contribute to both mechanical and electrical

systems as well as develop and integrate AI-enabled systems, bridging the gap between traditional

process engineering and smart automation technologies.

Duties and Responsibilities:

● Assist in the design, modeling, and prototyping of process and packaging systems.

● Support testing, assembly, and commissioning of prototypes under supervision.

● Read and interpret mechanical drawings, electrical schematics, and process flow diagrams.

● Specify, install, and troubleshoot sensors, actuators, and instrumentation for food

manufacturing systems.

● Participate in wiring, panel layout, and field testing activities.

● Support integration, programming, and troubleshooting of PLC/HMI and SCADA systems.

● Contribute to coding and testing of automation or AI-driven routines (predictive maintenance,

data monitoring, optimization).

● Assist with sensor data collection, labeling, and preprocessing for machine learning models.

● Work on projects using Python, C++, or similar to interface with hardware systems.

● Maintain accurate documentation including test reports, wiring diagrams, and engineering logs.

● Ensure safe and organized work areas in labs and on production floors.

● Participate in system commissioning and troubleshooting at customer sites when required.

● Uphold SQF requirements including promotion of a strong & positive food safety culture

● Active involvement in implementation, upkeep and continuous improvement of food safety as

part of an interdisciplinary team

● Stewardship for our B-corp mission to promote worldwide health and wellness by fostering the

delivery of high quality, healthy foods through sustainable methods.

What You’ll Learn:

● How to develop and test automated food manufacturing equipment

● Machine learning integration in industrial environments

● Industry codes, standards, and best practices (UL, CE, ISA, etc.)

● Real-world project execution from concept to commissioning

● Microwave and other electrical thermal processing technologies

Required:

● Bachelor’s degree in Mechanical, Electrical, Automation, Mechatronics, Robotics, Computer Science,

or a related engineering field (or graduation within 6 months).

● Introductory experience or coursework in:

○ CAD (SolidWorks or AutoCAD)

○ Programming (Studio 5000, Python, C++, or MATLAB)

○ Instrumentation and control systems

● Controls integration with field devices (sensors, VFDs, flow meters, actuators).

● Strong understanding of industrial communication protocols (EtherNet/IP, Modbus TCP, OPC UA).

● Ability to troubleshoot electrical/automation systems in a production environment.

● Hands-on mindset; comfortable using tools and learning in the field.

● Strong communication, collaboration, and organizational skills.

● Curiosity and eagerness to learn from a multidisciplinary team.

● Active passport or ability to obtain one within the first 6 months.


Preferred (but not required):

● Minimum of 2 years’ experience in automation, instrumentation, or controls engineering.

● Familiarity with SCADA/HMI systems (Ignition, Wonderware, or WinCC).

● Experience with data collection and integration from PLC/SCADA systems into historians, MES, or

cloud platforms.

● Working knowledge of machine learning concepts and data analytics (TensorFlow, PyTorch, scikit-

learn, SQL).

● Practical applications of ML in industrial settings (predictive maintenance, anomaly detection,

process optimization).

● Experience developing middleware or APIs to connect automation platforms with data pipelines.

● Prior internships, capstone projects, or personal projects involving automation, robotics, or controls.

● Basic electronics experience (soldering, sensor setup, instrumentation wiring).

● Knowledge of OSHA safety standards and industrial safety practices.

● Experience in food & beverage or other regulated manufacturing environments is a plus.


Physical Requirements:

● Ability to work on the floor in a manufacturing setting; frequent walking and standing required.

● Ability to work in hot, cold, or wet environments.

● Specific vision abilities required by this job include close vision, distance vision, peripheral vision,

depth perception, and ability to adjust focus.

● Flexibility to alternate between hands-on manufacturing work and office-based programming/data

analysis.

● Comfortable working in environments with shifting priorities and ambiguity.