1

Control System Engineering Jobs in Nebraska (NOW HIRING)

... Control System (TCS) and all connected client-server systems currently used by Union Pacific and ... software engineering, management information systems, or a related field. • 7 years of ...

... control systems that require network connectivity for data collection. ESSENTIAL FUNCTIONS ... Required -Two (2) year degree in engineering or applied technical sciences. * Preferred - Bachelor ...

New

What We Look For In a Electrical Engineering Tutor * Advanced Subject Mastery: Deep knowledge of ... Skilled at breaking down AC circuit analysis, filter design, and control system stability analysis.

next page

Showing results 1-20

Control System Engineering information

See Nebraska salary details

$58.2K

$103.7K

$167.3K

How much do control system engineering jobs pay per year?

As of Jul 15, 2026, the average yearly pay for control system engineering in Nebraska is $103,712.00, according to ZipRecruiter salary data. Most workers in this role earn between $80,100.00 and $120,600.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Control System Engineer, and why are they important?

To thrive as a Control System Engineer, you need a solid background in electrical or mechanical engineering, systems analysis, and control theory, typically supported by a relevant engineering degree. Familiarity with PLC programming, SCADA systems, MATLAB/Simulink, and certifications like Professional Engineer (PE) are highly valued. Analytical thinking, problem-solving, and effective communication are crucial soft skills for designing, troubleshooting, and collaborating with multidisciplinary teams. These skills and qualifications are vital to ensure efficient, safe, and reliable automation and process control in industrial environments.

What are some common challenges faced by control system engineers when integrating new technologies into existing systems?

Control system engineers often encounter challenges when integrating new technologies, such as ensuring compatibility with legacy hardware and software, maintaining system stability during upgrades, and minimizing downtime. Effective integration requires thorough testing, detailed documentation, and close collaboration with operations and IT teams. Staying current with industry standards and proactively addressing cybersecurity concerns are also crucial for successful technology adoption.

What is the difference between Control System Engineering vs Electrical Engineering?

AspectControl System EngineeringElectrical Engineering
Required CredentialsBachelor's or Master's in Control Systems, Electrical, or Mechanical EngineeringBachelor's or Master's in Electrical Engineering or related fields
Work EnvironmentDesigning, analyzing, and testing control systems in manufacturing, automation, or roboticsWorking on electrical circuits, power systems, and electronic devices across various industries
Industry UsagePrimarily in automation, robotics, aerospace, and manufacturingBroadly across power, electronics, telecommunications, and industrial sectors

Control System Engineering focuses on designing and optimizing control systems for automation and robotics, while Electrical Engineering covers a wider range of electrical devices and power systems. Both roles require similar educational backgrounds and often overlap in industry applications, but their core focuses differ significantly.

What is Control System Engineering?

Control System Engineering is a branch of engineering that focuses on designing, analyzing, and implementing systems that manage, command, direct, or regulate the behavior of other devices or systems. It involves using sensors, controllers, and actuators to ensure processes operate efficiently and safely, often in industries like manufacturing, automotive, aerospace, and robotics. Control engineers work to optimize system performance, improve reliability, and automate operations by applying principles from electrical, mechanical, and computer engineering.
Infographic showing various Control System Engineering job openings in Nebraska as of July 2026, with employment types broken down into 1% As Needed, 74% Full Time, 19% Part Time, 1% Temporary, 4% Contract, and 1% Nights. Highlights an 96% Physical, 1% Hybrid, and 3% Remote job distribution, with an average salary of $103,712 per year, or $49.9 per hour.

Associate Controls Engineer - Omaha

EAD Management Services Inc

Omaha, NE • On-site

$79K - $103K/yr

Full-time

Re-posted 26 days ago


Job description

Join EAD to help solve complex controls and automation challenges in industrial facilities.

EAD supports projects across industrial manufacturing facilities, including food processing, pharmaceutical manufacturing, and parcel handling environments. This role offers the opportunity to lead a controls engineering team across projects of varying size and complexity in a fast-paced, multi-discipline, and practical engineering setting.

The Controls Engineer delivers accurate, practical, and high-quality controls engineering for industrial and manufacturing facilities. This role is responsible for control system design, programming, field support, troubleshooting, and cross-discipline coordination. EAD expects strong performance at every level: Associate Controls Engineer is expected to perform well in front of clients, work effectively in demanding on-site environments, and take ownership of their work.

This role requires sound judgment in active industrial facilities where field conditions, client operations, and project timelines demand a composed, adaptable, and resourceful engineer.

What Success Looks Like

In this role, success means:

  • Delivering controls engineering work that is accurate, on time, on budget, and meets client and project requirements.
  • Producing functional, buildable, and well-documented control system solutions.
  • Coordinating effectively with project teams, other disciplines, and clients.
  • Performing confidently and professionally in field environments, including commissioning, startup, and troubleshooting.
  • Continuously building technical skills and discipline versatility.
  • Owning your role in the success of the project by asking questions, closing loops, and learning fast.

Level Expectations

Associate Controls Engineer (3-6 years of experience)

  • Delivers quality controls engineering work with growing independence under the guidance of a Discipline Lead or senior team member.
  • Performs well in front of clients and in demanding on-site situations.
  • Supports proposals and estimates by contributing technical input and hours estimates.
  • Actively builds skills across control system platforms, field environments, and project types.
  • Participates in design reviews and contributes to quality assurance.

Key Responsibilities

  • Design, program, and commission PLC and DCS-based control systems for industrial and manufacturing facilities.
  • Develop and configure HMI and SCADA applications to meet client and project requirements.
  • Perform field activities including existing-condition verification, construction support, system checkout, commissioning, startup, and troubleshooting.
  • Coordinate with mechanical, electrical, process, and other project team members to ensure controls scope aligns with overall project design and intent.
  • Prepare clear engineering deliverables including control system design documentation, specifications, instrument lists, and panel design input.
  • Support proposals and estimates with technical input, hours estimates, and scope definition appropriate to level.
  • Participate in and contribute to design reviews, quality checks, and lessons learned.
  • Interface with clients, vendors, contractors, and construction teams professionally and effectively.
  • Maintain knowledge of applicable codes and standards such as National Electrical Code (NEC), National Fire Protection Association (NFPA), Underwriters Laboratories (UL), and International Society of Automation (ISA).
  • Communicate proactively with the project team and Discipline Lead regarding progress, issues, risks, and decisions.
  • Contribute to a safe working environment and follow EAD safety standards and practices.

Required Qualifications

  • Bachelor's degree in Electrical Engineering, Controls Engineering, or a related technical field; equivalent combination of education, military service, training, and experience may also be considered.
  • Associate: 3–6 years of controls engineering experience in industrial or manufacturing environments.
  • Experience with PLC and/or DCS-based control system design, programming, and troubleshooting.
  • Experience with HMI or SCADA programming and configuration.
  • Experience performing field work including commissioning, startup, and troubleshooting in active industrial facilities.
  • Experience working with multi-discipline project teams.
  • Strong written and verbal communication, including the ability to interact effectively with clients, project teams, and field personnel.
  • Ability to manage time, prioritize tasks, and deliver results within cost and schedule constraints.

Preferred Qualifications

  • Experience in food and beverage, life sciences, pharmaceutical, parcel, or other industrial manufacturing environments.
  • Experience with Rockwell / Allen-Bradley platforms including ControlLogix and CompactLogix.
  • CAP, CCST, PE, or similar relevant credential, or commitment to pursuing one.
  • Knowledge of NEC, NFPA, UL, and ISA codes and standards.
  • Experience supporting or leading controls input to proposals and cost estimates.
  • Professional Engineer (PE), Project Management Professional (PMP), Certified Automation Professional (CAP), or similar relevant credential.
  • Established industry relationships and a demonstrated ability to build client trust, support repeat business, and contribute to growth are strongly preferred.

Behavioral Expectations

  • Acts with integrity, sound judgment, and professionalism.
  • Owns commitments, follows through, and closes loops.
  • Communicates early and clearly when risks, questions, or changes arise.
  • Works in a way that helps the broader project team succeed.
  • Brings a practical, solution-oriented mindset to complex field and project challenges.
  • Seeks to understand field conditions, client needs, and cross-discipline impacts before acting.

Working Conditions

  • Office, plant, or client site environment*
  • Ability to perform field and client-site work.
  • Ability to sit and work at computer for extended periods of time
  • Ability to walk up numerous flights of stairs or ladders multiple times a day and/or work in tight spaces in extreme conditions
  • May work near moving mechanical parts and equipment*
  • Office, commercial and/or industrial setting with the potential of exposure to fumes or airborne particles, toxic or caustic chemicals*
  • Ability to lift and/or move up to 50 lbs.*
  • Travel required, with periods of significant travel depending on project needs.
  • Occasional night shift work may be required based on client operations and project schedules, though this is infrequent.
  • Periodic weekend, holiday or evening work as needed
  • Maintain a valid driver's license.

*EAD will provide training, administrative/engineering controls, and personal protective equipment as necessary.

We strongly believe that diversity of experience, perspectives, and background will lead to a better workplace for our employees and a better product for our customers.

EAD is an Equal Opportunity Employer

Duties, responsibilities and activities may change, or new ones may be assigned at any time with or without notice.