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Control Systems Engineer Jobs in Minnesota (NOW HIRING)

Linux Systems Engineer The Linux Systems Engineer serves as a systems-level technical facilitator and architecture coordinator for embedded control systems used in power generation products ...

Linux Systems Engineer The Linux Systems Engineer serves as a systems-level technical facilitator and architecture coordinator for embedded control systems used in power generation products ...

Sr. Systems Engineer

Saint Paul, MN · On-site

$120K - $165K/yr

Ensure conformance to the System Engineering Management Plan, Interface Control Plan, Configuration Management Plan, and System Verification Plan * Responsible for cost and schedule estimates and ...

Sr Principal Power Systems Engineer

Medina, MN · On-site +1

$154K - $192K/yr

Design, integrate, test, and commission advanced control systems for electric utilities. * Evaluate ... Work directly with customers and remote engineering team members to understand requirements and ...

Principal Power Systems Engineer

Medina, MN · On-site +1

$127K - $158K/yr

Design, integrate, test, and commission advanced control systems for electric utilities. * Evaluate ... Work directly with customers and remote engineering team members to understand requirements and ...

Power Systems Engineer

Medina, MN · On-site

$77K - $97K/yr

Implementation of control systems at electric utilities that improve their efficiency to operate ... Bachelor's degree in Engineering or equivalent knowledge gained through work experience required.

In the Systems Engineer role, you will be supporting the overall technical direction of Acute ... Drive adherence to FDA, ISO and IEC design control procedures, regulations and standards. * Use ...

Summary In the Systems Engineer role, you will be supporting the overall technical direction of ... and IEC design control procedures, regulations and standards Use various software tools and ...

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Showing results 1-20

Control Systems Engineer information

See Minnesota salary details

$59.7K

$106.5K

$171.9K

How much do control systems engineer jobs pay per year?

As of Jul 5, 2026, the average yearly pay for control systems engineer in Minnesota is $106,536.00, according to ZipRecruiter salary data. Most workers in this role earn between $82,300.00 and $123,900.00 per year, depending on experience, location, and employer.

What engineering jobs pay $500,000?

Control Systems Engineers in senior or specialized roles, especially in industries like aerospace, defense, or oil and gas, can earn $500,000 or more annually with experience, bonuses, and stock options. High-level positions often require advanced degrees, certifications, and extensive expertise in automation, programming, and system integration.

What are some common challenges faced by Control Systems Engineers in fast-paced industrial environments?

Control Systems Engineers often encounter challenges such as troubleshooting unexpected system faults under tight deadlines, integrating new automation technologies with legacy equipment, and ensuring minimal downtime during system upgrades. Collaboration with multidisciplinary teams—including process engineers, IT specialists, and maintenance staff—is essential to address these issues efficiently. Staying current with evolving industry standards and cybersecurity practices also plays a critical role in maintaining reliable and safe control systems.

What does a control systems engineer do?

A control systems engineer designs, develops, and maintains control systems that manage the behavior of machinery and processes. They analyze system requirements, create control algorithms, and use tools like MATLAB or PLCs to ensure systems operate efficiently and safely. This role often involves testing, troubleshooting, and optimizing automation systems in manufacturing, aerospace, or industrial environments.

What is the difference between Control Systems Engineer vs Electrical Engineer?

AspectControl Systems EngineerElectrical Engineer
CredentialsBachelor's in Control Engineering, Electrical Engineering, or related fields; certifications like Certified Control Systems Technician (CCST)Bachelor's in Electrical Engineering; Professional Engineer (PE) license often preferred
Work EnvironmentDesign, develop, and test control systems in manufacturing, automation, or robotics industriesDesign, develop, and test electrical systems in power, electronics, or communication sectors
Industry UsageCommon in automation, robotics, manufacturing, and process controlWidespread across power generation, electronics, telecommunications, and industrial sectors

Control Systems Engineers focus on designing and maintaining automated control systems, while Electrical Engineers work on broader electrical systems. Both roles require similar technical skills and certifications, but their industry applications and daily tasks differ.

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

To thrive as a Control Systems Engineer, you need a strong background in electrical, mechanical, or automation engineering along with expertise in control theory and system dynamics. Familiarity with PLCs, SCADA systems, industrial networking, and programming languages such as ladder logic or MATLAB/Simulink is typically required, and certifications like Certified Automation Professional (CAP) can be advantageous. Analytical thinking, problem-solving, and effective communication are standout soft skills in this role. These skills ensure the design, implementation, and optimization of safe, efficient, and reliable automated systems in industrial environments.

What engineers make $300,000 a year?

Control Systems Engineers can earn $300,000 or more annually, especially with extensive experience, advanced certifications, and work in high-demand industries like aerospace, defense, or large-scale manufacturing. Senior engineers with specialized skills in automation, robotics, or software integration often reach this salary level.

What are control systems engineers?

Control systems engineers are professionals who design, develop, and maintain systems that control and automate the operation of equipment or processes. They use principles from engineering, mathematics, and computer science to ensure that machinery and processes operate efficiently, safely, and reliably. Control systems engineers work in industries such as manufacturing, aerospace, energy, and automotive, where automated control and precision are essential. Their responsibilities often include creating and testing control algorithms, integrating sensors and actuators, and troubleshooting system issues.

What Is a Control Systems Engineer?

A control systems engineer’s duties include designing, building and maintaining instrumentation, monitors, and other equipment used to control complex systems. Some examples of these control systems include navigation networks, production machinery gauges, and computer system monitors. It is the control systems engineer’s job to maintain safe and efficient field operation of the equipment and to ensure the safety of those utilizing the equipment. These skilled engineers are typically well versed in mechanical, chemical, and electrical engineering concepts and design.

What engineers make $200,000 a year?

Control Systems Engineers can earn $200,000 or more annually, especially with extensive experience, advanced certifications, or leadership roles in industries like aerospace, defense, or high-tech manufacturing. Salaries vary based on location, specialization, and company size, with senior engineers and those in managerial positions often reaching this level.
What are the most commonly searched types of Control Systems Engineer jobs in Minnesota? The most popular types of Control Systems Engineer jobs in Minnesota are:
What are popular job titles related to Control Systems Engineer jobs in Minnesota? For Control Systems Engineer jobs in Minnesota, the most frequently searched job titles are:
What job categories do people searching Control Systems Engineer jobs in Minnesota look for? The top searched job categories for Control Systems Engineer jobs in Minnesota are:
What cities in Minnesota are hiring for Control Systems Engineer jobs? Cities in Minnesota with the most Control Systems Engineer job openings:
Infographic showing various Control Systems Engineer job openings in Minnesota as of June 2026, with employment types broken down into 92% Full Time, and 8% Contract. Highlights an 90% In-person, 5% Hybrid, and 5% Remote job distribution, with an average salary of $106,536 per year, or $51.2 per hour.
Linux Systems Engineer

Linux Systems Engineer

Actalent

Minneapolis, MN

Contractor

Medical, Dental, Vision, Life, Retirement, PTO

Posted 4 days ago


Job description

Job Title: Linux Systems Engineer
Job Description

The Linux Systems Engineer serves as a systems-level technical facilitator and architecture coordinator for embedded control systems used in power generation products, including generator set and power system controllers. This role operates at the intersection of embedded software, controls engineering, communications networks, and system-level validation, enabling the evolution of control platforms from RTOS-based systems to Embedded Linux environments. You will work closely with architecture, controls, software, and validation teams to ensure cohesive system behavior, robust integration, and full traceability from requirements through validation, with a strong emphasis on documentation, testability, and cross-functional execution. The position requires deep understanding of embedded systems and software development to effectively support integration, debugging, and validation of complex, networked control systems.

Responsibilities

  • Facilitate and lead structured technical design discussions, driving clear decisions, trade-offs, and actionable outcomes across embedded control system features.
  • Ensure that designs align with system architecture principles for both RTOS-based platforms and Embedded Linux systems.
  • Drive integration across hardware, software, firmware, and communication layers to achieve coherent system-level behavior and well-defined interfaces.
  • Define and maintain system interfaces and communication models, including data flow, timing behavior, and interactions across controllers, devices, and networked components.
  • Support the design and integration of features that interact with power system controls, including generator, switchgear, and distributed energy system applications.
  • Facilitate alignment on communication architectures, including Ethernet-based systems and industrial communication frameworks such as OPC UA, DDS, or similar technologies.
  • Develop and maintain architecture artifacts such as system diagrams, network representations, interface definitions, and decision logs to ensure traceability from requirements through design and validation.
  • Identify and resolve system-level ambiguities, architectural gaps, and integration risks, including failure modes, communication behaviors, and edge-case conditions.
  • Engage with software and platform teams to understand embedded system behavior, including interactions between application software, middleware, operating system, and hardware.
  • Support system-level debugging and integration analysis, investigating issues that span embedded software, operating system behavior, networking, and hardware interactions.
  • Partner with validation teams to define system-level test strategies, including networked test environments, hardware-in-the-loop (HIL) systems, and integration lab testing.
  • Support the development of test setups and validation environments to evaluate reliability, startup behavior, communication stability, and recovery scenarios.
  • Ensure consistency between design intent, configuration artifacts, and validation outcomes to enable traceable and repeatable system verification.
  • Support the use of model-based, data-driven, or configuration-driven workflows, ensuring alignment between system definition and deployed behavior.
  • Act as a cross-functional integration leader, coordinating across global teams, stakeholders, and subject-matter experts to drive system readiness and resolve technical issues.
  • Track and drive closure of cross-team dependencies, design actions, and integration issues to maintain program progress.
  • Contribute to continuous improvement of engineering processes, documentation standards, validation infrastructure, and design governance practices.
Essential Skills
  • Strong understanding of embedded systems and software architecture, including software layering across drivers, middleware, and application, as well as system services and hardware interaction.
  • Hands-on experience with Embedded Linux systems, including system architecture, services, processes, networking, and runtime behavior in embedded environments.
  • Practical experience with embedded software or firmware development environments, including build systems, deployment workflows, and basic debugging approaches.
  • Understanding of real-time operating systems (RTOS) and the differences between RTOS-based and Linux-based control architectures.
  • Experience with embedded communications and networking, including Ethernet-based systems and distributed communication frameworks such as OPC UA, DDS, or comparable technologies.
  • Ability to analyze and troubleshoot system-level issues that span software, operating system, networking, and hardware domains.
  • Familiarity with real-time and deterministic system constraints, including timing behavior, scheduling, communication latency, and system recovery characteristics.
  • Experience with system integration and validation, including development of test plans, test setups, and evaluation of integrated system behavior.
  • Familiarity with integration lab environments, networked test systems, or hardware-in-the-loop (HIL) testing approaches.
  • Understanding of configuration-driven or model-based development approaches and how they translate into deployed system behavior.
  • Demonstrated systems thinking capability, with the ability to evaluate end-to-end system behavior, subsystem dependencies, and design trade-offs.
  • Proven ability to lead technical discussions and influence decisions without formal authority across architecture, software, controls, and validation teams.
  • Strong documentation skills, including creation of architecture diagrams, interface definitions, validation documentation, and decision records.
  • Ability to work effectively across multiple technical domains and collaborate with diverse engineering teams.
  • Knowledge of real-time operating systems, Yocto, and Linux operating systems in embedded contexts.
Additional Skills & Qualifications
  • Experience with Yocto-based build systems for Embedded Linux platforms.
  • Background in power system controls, including generator sets, switchgear, or distributed energy systems.
  • Experience contributing to improvements in engineering processes, documentation standards, and design governance.
  • Exposure to model-based, data-driven, or configuration-driven engineering workflows.
  • Experience working with global, cross-functional engineering teams in a complex product development environment.
Work Environment

You will work in a collaborative, cross-functional engineering environment that brings together architecture, controls, software, networking, and validation teams to develop advanced embedded control platforms for power generation applications. The role involves close interaction with integration labs, networked test systems, and hardware-in-the-loop (HIL) setups to validate system behavior under realistic operating conditions. You will regularly use Embedded Linux and RTOS-based platforms, Ethernet-based communication networks, and industrial communication frameworks such as OPC UA or DDS. The environment emphasizes structured design practices, rigorous documentation, and strong traceability from requirements through validation, while encouraging continuous improvement of engineering processes, tools, and validation infrastructure.

Job Type & Location

This is a Contract position based out of Minneapolis, MN.

Pay and Benefits

The pay range for this position is $50.00 - $57.00/hr.

Eligibility requirements apply to some benefits and may depend on your job classification and length of employment. Benefits are subject to change and may be subject to specific elections, plan, or program terms. If eligible, the benefits available for this temporary role may include the following:
• Medical, dental & vision
• Critical Illness, Accident, and Hospital
• 401(k) Retirement Plan – Pre-tax and Roth post-tax contributions available
• Life Insurance (Voluntary Life & AD&D for the employee and dependents)
• Short and long-term disability
• Health Spending Account (HSA)
• Transportation benefits
• Employee Assistance Program
• Time Off/Leave (PTO, Vacation or Sick Leave)

Workplace Type

This is a hybrid position in Minneapolis,MN.

Application Deadline

This position is anticipated to close on Jul 13, 2026.

About Actalent

Actalent is a global leader in engineering and sciences services and talent solutions. We help visionary companies advance their engineering and science initiatives through access to specialized experts who drive scale, innovation and speed to market. With a network of almost 20,000 consultants and 5,000 clients across the U.S., Canada, Asia and Europe, Actalent serves many of the Fortune 500. We are proud to be an Engineering News-Record (ENR) Top 500 Design Firm for our engineering design services and a ClearlyRated Best of Staffing® winner for both client and talent service.

The company is an equal opportunity employer and will consider all applications without regard to race, sex, age, color, religion, national origin, veteran status, disability, sexual orientation, gender identity, genetic information or any characteristic protected by law.

If you would like to request a reasonable accommodation, such as the modification or adjustment of the job application process or interviewing process due to a disability, please email actalentaccommodation@actalentservices.com for other accommodation options.

San Francisco Fair Chance Ordinance: Pursuant to the San Francisco Fair Chance Ordinance, for all positions located in the city and county of San Francisco, we will consider for employment qualified applicants with arrest and conviction records.

Massachusetts Lie Detector: It is unlawful in Massachusetts to require or administer a lie detector test as a condition of employment or continued employment. An employer who violates this law shall be subject to criminal penalties and civil liability.

Use of Artificial Intelligence (AI): We may use Artificial Intelligence (AI) to support parts of our hiring process, including sourcing, screening, and evaluating candidates. AI helps assess applications and qualifications, but final decisions are made by our hiring team. By applying, you acknowledge and agree that your application may be reviewed using AI tools.


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About Actalent

Sourced by ZipRecruiter

Actalent connects passion with purpose. Our scalable talent solutions and services capabilities drive value and results and provide the expertise to help our customers achieve more. Every day, our experts around the globe are making an impact. We're supporting critical initiatives in engineering and sciences that advance how companies serve the world. Actalent promotes consultant care and engagement through experiences that enable continuous development. Our people are the difference. Actalent is an operating company of Allegis Group, the global leader in talent solutions.

Company size

5,001 - 10,000 Employees

Headquarters location

Hanover, MD, US

Year founded

1983

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