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Electrical Engineer Matlab Jobs in Indiana (NOW HIRING)

Provide mechanical and electrical component/system analyses, using various analytical methods and engineering tools (e.g., MathCAD, MATLAB, Excel, etc.) * Develop new design tools to improve ...

Provide mechanical and electrical component/system analyses, using various analytical methods and engineering tools (e.g., MathCAD, MATLAB, Excel, etc.) * Develop new design tools to improve ...

Bachelor's degree in Electrical Engineering, Computer Engineering, or a related field. * Strong ... Basic scripting or programming skills (e.g., Python, MATLAB) Our most important asset is our People.

Bachelor's degree in Electrical Engineering, Computer Engineering, or a related field. * Strong ... Basic scripting or programming skills (e.g., Python, MATLAB) Our most important asset is our People.

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Electrical Engineer Matlab information

See Indiana salary details

$48.1K

$105.7K

$159.9K

How much do electrical engineer matlab jobs pay per year?

As of Jul 14, 2026, the average yearly pay for electrical engineer matlab in Indiana is $105,710.00, according to ZipRecruiter salary data. Most workers in this role earn between $79,000.00 and $125,600.00 per year, depending on experience, location, and employer.

What does an Electrical Engineer Matlab do?

An Electrical Engineer Matlab specializes in using MATLAB software to design, simulate, and analyze electrical systems and components. They apply their knowledge of electrical engineering principles to develop models, run simulations, and interpret results to improve product designs or solve technical problems. Their work often involves signal processing, control systems, circuit analysis, and data visualization. MATLAB skills are crucial for automating calculations, prototyping, and validating engineering concepts efficiently.

What are the key skills and qualifications needed to thrive as an Electrical Engineer specializing in MATLAB, and why are they important?

To thrive as an Electrical Engineer with a focus on MATLAB, you need a strong background in electrical engineering principles, mathematics, and signal processing, typically supported by a relevant engineering degree. Proficiency in MATLAB for modeling, simulation, and data analysis—as well as familiarity with related toolboxes and potentially Simulink—is essential. Critical thinking, problem-solving, and effective communication skills help you interpret complex data and convey technical information clearly. These capabilities ensure accurate system design, efficient troubleshooting, and successful collaboration on complex engineering projects.

What is the difference between Electrical Engineer Matlab vs Electrical Engineer Simulink?

AspectElectrical Engineer MatlabElectrical Engineer Simulink
CredentialsBachelor's or higher in Electrical Engineering, MATLAB certification often preferredBachelor's or higher in Electrical Engineering, Simulink certification advantageous
Work EnvironmentDesign, analysis, and programming using MATLAB softwareModeling, simulation, and system design using Simulink environment
Industry UsageResearch, automation, signal processing, control systemsSystem modeling, control design, dynamic system simulation

Electrical Engineer Matlab focuses on programming and data analysis within MATLAB, while Electrical Engineer Simulink emphasizes system modeling and simulation using Simulink. Both roles often overlap and require similar qualifications, but they specialize in different aspects of electrical system design and analysis.

How does an Electrical Engineer using MATLAB typically collaborate with other engineering teams during project development?

Electrical Engineers who specialize in MATLAB often work closely with multidisciplinary teams, including hardware engineers, software developers, and project managers. They use MATLAB to simulate and model electrical systems, and their findings help inform design decisions and troubleshoot potential issues early in the development process. Effective communication and documentation are key, as engineers must translate complex data and simulation results into actionable insights for colleagues who may not have a MATLAB background. Regular meetings, shared reports, and collaborative problem-solving sessions are common to ensure alignment and project success.
What cities in Indiana are hiring for Electrical Engineer Matlab jobs? Cities in Indiana with the most Electrical Engineer Matlab job openings:
Product Functional Test Technology Specialist

Product Functional Test Technology Specialist

Cummins Inc.

Columbus, IN • Hybrid

Full-time

Posted 5 days ago


Cummins rating

8.0

Company rating: 8.0 out of 10

Based on 259 frontline employees who took The Breakroom Quiz

133rd of 527 rated manufacturers


Job description

We are looking for a talented Product Functional Test Technology Specialist to join our team specializing in Engineering for our Cummins location in Columbus, IN.  

Role Overview 

The Test Technology Engineer will be responsible for implementing, developing, and troubleshooting measurement and control systems within an engine and hybrid powertrain test facility. This role requires a strong foundation in electrical engineering, controls, data acquisition, and experimental methods, along with the ability to work effectively with a diverse team of technicians and engineers. The position also demands strong strategic thinking-seeing how individual technical issues connect to broader departmental objectives-and the ability to contribute to globally aligned initiatives by understanding tools, practices, and goals across multiple sites. 

Key Responsibilities for the role are: 

Electrical Engineering & Test Systems 

  • Develop a deep understanding of battery emulators and their application in hybrid powertrain testing. 
  • Support and troubleshoot dynamometer systems, including motoring and eddycurrent dynos. 
  • Understand hybrid test configurations involving engines, generators, and dynos, including the underlying physics and the measurement objectives of customer test programs. 

Controls Engineering 

  • Understand and work with various test cell control modes. 
  • Diagnose and resolve controlrelated issues such as torque spikes or instability between engine and dyno systems. 
  • Understand how different control strategies (e.g., dyno controlling speed vs. engine controlling torque) affect system behavior. 
  • Support and tune additional control loops associated with other test cell subsystems. 
  • Understand how changes in control strategy, PID tuning, or subsystem interactions can introduce bias, noise, or drift into measurement systems, and adjust control settings to minimize uncertainty. 

PLC Systems & Safety 

  • Contribute to PLCbased projects, including the ongoing safeentry system for test cells. 
  • Develop, modify, and troubleshoot PLC logic to support safety and operational improvements. 

HighVoltage & FacilityLevel Electrical Knowledge 

  • Understand buildinglevel electrical noise, including total harmonic distortion (THD), and how it affects dyno drives and other sensitive equipment. 
  • Determine whether mitigation strategies (e.g., transformers or filters) are required. 
  • Measure and characterize THD using appropriate tools. 
  • Build MATLAB or similar models to simulate regenerative power flow from dynos back to the grid and predict resulting THD levels. 

Experimental & Data Skills 

  • Understand the full data acquisition chain, from sensor output to digitization and storage. 
  • Distinguish between accuracy and precision and apply this understanding to test planning and data interpretation. 
  • Have at least a basic understanding of uncertainty analysis, including how measurement uncertainty propagates and affects test results. 
  • Support calibration processes and ensure measurement integrity. 
  • Process and analyze data using MATLAB or similar tools. 
  • Apply signalprocessing techniques (FFTs, filtering, smoothing) and numericalmethods approaches within MATLAB and related platforms for data analysis. 
  • Develop scripts or utilities to automate data processing and improve workflow efficiency. 
  • Document test results and research findings using LaTeX or similar reporting tools. 

Strategic Thinking & Systems Perspective 

  • Maintain awareness of how individual test cell issues, engineering tasks, and subsystem behaviors connect to broader departmental objectives. 
  • Identify patterns, recurring failure modes, or inefficiencies and propose longterm, scalable solutions rather than oneoff fixes. 
  • Anticipate downstream impacts of technical decisions on safety, data quality, scheduling, and crossteam workflows. 
  • Contribute ideas that improve the overall test technology roadmap, not just local processes or tools. 

Global Collaboration & CrossSite Awareness 

  • Understand the goals, priorities, and technical strategies of the global Test Technology organization. 
  • Stay informed about tools, methods, and innovations being developed at other sites and proactively evaluate their applicability to CTC. 
  • Participate in global projects that require coordination across multiple locations, ensuring solutions are consistent, scalable, and aligned with enterpriselevel standards. 
  • Bring an "outsidethebox" mindset to problemsolving by integrating lessons learned, best practices, and emerging technologies from across the global network. 
  • Communicate effectively with engineers and leaders at other sites to share knowledge, align on technical direction, and support unified global initiatives. 
Cummins is an equal opportunity employer. Our policy is to provide equal employment opportunities to all qualified persons without regard to race, sex, color, disability, national origin, age, religion, union affiliation, sexual orientation, veteran status, citizenship, gender identity, or other status protected by law.

Key Responsibilities

Electrical Engineering & Test Systems

  • Develop a deep understanding of battery emulators and their application in hybrid powertrain testing.
  • Support and troubleshoot dynamometer systems, including motoring and eddycurrent dynos.
  • Understand hybrid test configurations involving engines, generators, and dynos, including the underlying physics and the measurement objectives of customer test programs.

Controls Engineering

  • Understand and work with various test cell control modes.
  • Diagnose and resolve controlrelated issues such as torque spikes or instability between engine and dyno systems.
  • Understand how different control strategies (e.g., dyno controlling speed vs. engine controlling torque) affect system behavior.
  • Support and tune additional control loops associated with other test cell subsystems.
  • Understand how changes in control strategy, PID tuning, or subsystem interactions can introduce bias, noise, or drift into measurement systems, and adjust control settings to minimize uncertainty.

PLC Systems & Safety

  • Contribute to PLCbased projects, including the ongoing safeentry system for test cells.
  • Develop, modify, and troubleshoot PLC logic to support safety and operational improvements.

HighVoltage & FacilityLevel Electrical Knowledge

  • Understand buildinglevel electrical noise, including total harmonic distortion (THD), and how it affects dyno drives and other sensitive equipment.
  • Determine whether mitigation strategies (e.g., transformers or filters) are required.
  • Measure and characterize THD using appropriate tools.
  • Build MATLAB or similar models to simulate regenerative power flow from dynos back to the grid and predict resulting THD levels.

Experimental & Data Skills

  • Understand the full data acquisition chain, from sensor output to digitization and storage.
  • Distinguish between accuracy and precision and apply this understanding to test planning and data interpretation.
  • Have at least a basic understanding of uncertainty analysis, including how measurement uncertainty propagates and affects test results.
  • Support calibration processes and ensure measurement integrity.
  • Process and analyze data using MATLAB or similar tools.
  • Apply signalprocessing techniques (FFTs, filtering, smoothing) and numericalmethods approaches within MATLAB and related platforms for data analysis.
  • Develop scripts or utilities to automate data processing and improve workflow efficiency.
  • Document test results and research findings using LaTeX or similar reporting tools.

Strategic Thinking & Systems Perspective

  • Maintain awareness of how individual test cell issues, engineering tasks, and subsystem behaviors connect to broader departmental objectives.
  • Identify patterns, recurring failure modes, or inefficiencies and propose longterm, scalable solutions rather than oneoff fixes.
  • Anticipate downstream impacts of technical decisions on safety, data quality, scheduling, and crossteam workflows.
  • Contribute ideas that improve the overall test technology roadmap, not just local processes or tools.

Global Collaboration & CrossSite Awareness

  • Understand the goals, priorities, and technical strategies of the global Test Technology organization.
  • Stay informed about tools, methods, and innovations being developed at other sites and proactively evaluate their applicability to CTC.
  • Participate in global projects that require coordination across multiple locations, ensuring solutions are consistent, scalable, and aligned with enterpriselevel standards.
  • Bring an "outsidethebox" mindset to problemsolving by integrating lessons learned, best practices, and emerging technologies from across the global network.
  • Communicate effectively with engineers and leaders at other sites to share knowledge, align on technical direction, and support unified global initiatives.

To be successful in this role, you will need the following:

Interpersonal Skills

  • Work effectively with a team of engineers and associate engineers with varying work styles.
  • Maintain productive relationships by balancing expectations, communication, and respect for established work dynamics.
  • Navigate sensitive interpersonal situations with professionalism and tact to ensure tasks are completed without damaging longterm cooperation.

Initiative and Curiosity

  • Identify useful tasks, improvements, or opportunities without requiring constant direction.
  • Explore new tools, methods, and ideas with a researchoriented mindset.
  • Demonstrate a genuine interest in understanding the physics behind systems and applying that knowledge to develop practical, elegant solutions.

ProblemSolving Approach

  • Approach test cell issues analytically, using first principles when appropriate.
  • Enjoy the process of diagnosing complex problems and developing solutions grounded in engineering fundamentals.

Education, Licenses, Certifications:

  • Demonstrated aptitude is required. College, university, or equivalent Associate's degree or certification inan appropriate STEM field is required.
  • Equivalent Bachelor's degree in a relevant discipline area may be required for select roles.
  • This position may require licensing for compliance with export controls or sanctions regulations.

Experience:
Prior Senior or Lead Engineer equivalent work experience in a relevant discipline area is required with a demonstrated track record of technical problem solving and quality decision making. Knowledge of MS Office tools is preferred.


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About Cummins

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Cummins Inc., headquartered in Columbus, IN, US, is a global power leader that designs, manufactures, and distributes numerous power products and systems. With its genesis from as early as 1919, the company readily serves diverse industries such as transportation, industrial, generator drive, or marine applications, among others. At the heart of Cummins' operations, its key product lineup encompasses diesel & natural gas engines, generator sets, engine components, and filtration, emission solutions, and electrical power generation systems. Cummins deeply embodies core values of integrity, respect for diversity, teamwork, performance excellence, and social responsibility - all of which dynamically fuel their mission 'Making people's lives better by powering a more prosperous world'.

Industry

Transportation equipment manufacturing

Company size

10,000+ Employees

Headquarters location

Columbus, IN, US

Year founded

1919