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Junior Control Systems Engineer Jobs in Michigan

Chemical Engineering, Quality Control, Electrical Engineering, System Integration, Project Management, Mechanical Engineering Chemical Engineering Ability to understand and communicate with team ...

Control Tower Engineer

Auburn Hills, MI ยท On-site

$57 - $59/hr

Control Tower Engineer - Chassis Systems Location: Auburn Hills Employment Type: Full-Time Position Overview A leading automotive organization is seeking a Control Tower Engineer to join the Control ...

Systems Engineer Controls

Allen Park, MI ยท On-site

$40 - $42/hr

Compensation: $40-42 About the Role We're seeking a Systems Engineer - Controls to support the integration, testing, validation, and launch of advanced automotive electrical and control systems. This ...

The System Engineer is responsible for facilitating the integration of the mechanical, electrical and control systems of a propulsion or driveline an electric propulsion system. Responsibilities ...

The System Engineer is responsible for facilitating the integration of the mechanical, electrical and control systems of a propulsion or driveline an electric propulsion system. Responsibilities ...

Controls Engineer

Warren, MI ยท On-site

$78K - $101K/yr

Controls Engineer - Control System Integrators Inc (CSI) in Warren - MI In this position, you will initiate and control the engineering, design, development, and testing of electrical control systems ...

Systems Engineer

Warren, MI ยท On-site

$160K - $180K/yr

Develop technical documentation including systems engineering plans, interface control documents, and integration assessments. * Engage with industry partners to evaluate emerging commercial and ...

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Junior Control Systems Engineer information

See Michigan salary details

$20.9K

$74.4K

$128.6K

How much do junior control systems engineer jobs pay per year?

As of Jul 3, 2026, the average yearly pay for junior control systems engineer in Michigan is $74,442.00, according to ZipRecruiter salary data. Most workers in this role earn between $54,500.00 and $76,300.00 per year, depending on experience, location, and employer.

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

AspectJunior Control Systems EngineerControl Systems Engineer
QualificationsBachelor's in Engineering, some experienceBachelor's or higher, more experience
Work EnvironmentEntry-level projects, supervised tasksDesign, development, and troubleshooting of control systems
ResponsibilitiesAssisting in system setup and testingLeading system design and implementation

The main difference lies in experience and responsibility level. Junior Control Systems Engineers typically assist with projects and have less experience, while Control Systems Engineers handle more complex tasks and lead projects. Both roles require similar educational backgrounds and are common in industrial and manufacturing sectors.

What are Junior Control Systems Engineers?

Junior Control Systems Engineers are entry-level professionals who assist in designing, developing, and maintaining control systems used to operate machinery and processes in industries such as manufacturing, energy, and automation. They typically work under the guidance of senior engineers, helping with tasks like programming controllers, troubleshooting system issues, and ensuring safety and efficiency. These engineers often use software tools to create and test control logic, and may also be involved in installation and commissioning of systems. The role is ideal for recent graduates with an engineering degree who are seeking to gain practical experience in the field.

How does a Junior Control Systems Engineer typically collaborate with other team members during a project?

As a Junior Control Systems Engineer, you will frequently work alongside senior engineers, project managers, and technicians to design, implement, and test automation solutions. Collaboration often involves participating in team meetings, reviewing design documents, and integrating your work with hardware and software developed by others. You'll also coordinate with commissioning teams during on-site installations and may support troubleshooting activities, providing valuable learning opportunities and exposure to multiple aspects of the project lifecycle.

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

To thrive as a Junior Control Systems Engineer, you need a solid background in electrical or mechanical engineering, with knowledge of automation principles and control theory, often supported by a relevant engineering degree. Familiarity with PLC programming, SCADA systems, and industry-standard software like MATLAB or AutoCAD is typically required. Strong problem-solving skills, attention to detail, and effective teamwork make candidates stand out in this role. These competencies are crucial for developing reliable automation solutions and ensuring the safe, efficient operation of industrial processes.
What are the most commonly searched types of Control Systems Engineer jobs in Michigan? The most popular types of Control Systems Engineer jobs in Michigan are:
What job categories do people searching Junior Control Systems Engineer jobs in Michigan look for? The top searched job categories for Junior Control Systems Engineer jobs in Michigan are:
What cities in Michigan are hiring for Junior Control Systems Engineer jobs? Cities in Michigan with the most Junior Control Systems Engineer job openings:
Emissions Systems Engineer

Emissions Systems Engineer

Optimal Inc.

Dearborn, MI โ€ข Hybrid

Contractor

Posted 6 days ago


Job description

Position Description

Advanced Emissions Systems Engineer (Gasoline ICE/HEV/PHEV) Brief Job Description As an Advanced Emissions Systems Engineer, you will lead the concept definition, design, and integration of cutting-edge emissions systems for gasoline-powered Internal Combustion Engines (ICE), Hybrid (HEV), and Plug-in Hybrid (PHEV) applications. Your primary focus will be developing hardware and software strategies to achieve the stringent regulatory standards, including SULEV20, SULEV15, and SULEV10. You will serve as a technical lead, balancing cross-functional trade-offs between mechanical, electrical, and chemical domains to deliver an optimized, durable propulsion system.

Skills Required:
Chemical Engineering, Quality Control, Electrical Engineering, System Integration, Project Management, Mechanical Engineering Chemical Engineering
Ability to understand and communicate with team regarding exhaust gas chemical reactions
Quality Control Statistical methods for data analysis Electrical Engineering Ability to understand electrical systems and needs for various engine control devices. Understanding of power distribution dn architecture, including 48v system concepts
System Integration Higher level understanding of vehicle control system and electrical systems and ability to consider balances and tradeoffs for system level attributes and balancing the needs to for the entire vehicle in the context of emissions control
Project Management Manage multiyear projects for vehicle system design and testing including managing parts procurement, test resource management and timing, and regular status reporting to management
Mechanical Engineering Understanding of how vehicle engine and powertrains function, from conventional ICE to various hybrid configurations.

Experience Required:

  • Bachelor's degree in Mechanical Engineering, Chemical Engineering, Electrical Engineering, or a related Systems Engineering field.
  • 5+ years of experience in propulsion or emissions system design and integration.
  • 3+ years of experience with Systems Engineering principles and quality tools (e.g., DFMEA, Boundary Diagrams, P-Diagrams).
  • System Design & Integration: Lead the definition and design of new emissions concepts, integrating hardware, controls, and packaging across the engine, transmission, generator, and aftertreatment systems.
  • Cross-Functional Leadership: Coordinate subsystems and lead technical trade-off discussions across different engineering domains to achieve an optimized system-level solution.
  • Project Management: Drive project milestones and workstream coordination using the Global Technical Development System (GTDS) to ensure timely delivery of project goals.
  • Quality & Systems Engineering: Develop and maintain core systems engineering and quality documentation, including Boundary Diagrams, P-Diagrams, and Design Failure Mode and Effects Analysis (DFMEA).