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Internship Optoelectronics Engineer Jobs (NOW HIRING)

Research Scientist

Ann Arbor, MI · On-site

$105K - $180K/yr

D. in physics, materials science, electrical engineering or related fields in optoelectronic ... Interns are eligible for some of the benefits listed. Our pay ranges are determined by role, level ...

Research Scientist

Ann Arbor, MI · On-site

$105K - $180K/yr

D. in physics, materials science, electrical engineering or related fields in optoelectronic ... Interns are eligible for some of the benefits listed. Our pay ranges are determined by role, level ...

Research Scientist

Ann Arbor, MI · On-site

$105K - $180K/yr

D. in physics, materials science, electrical engineering or related fields in optoelectronic ... Interns are eligible for some of the benefits listed. Our pay ranges are determined by role, level ...

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Internship Optoelectronics Engineer information

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$13

$25

$38

How much do internship optoelectronics engineer jobs pay per hour?

As of Jul 10, 2026, the average hourly pay for internship optoelectronics engineer in the United States is $25.42, according to ZipRecruiter salary data. Most workers in this role earn between $20.67 and $28.85 per hour, depending on experience, location, and employer.

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

To thrive as an Internship Optoelectronics Engineer, you need a solid background in physics, optics, and electronics, typically supported by coursework or a degree in electrical engineering, physics, or a related field. Familiarity with simulation tools like MATLAB or Zemax, laboratory equipment, and basic programming languages is often required. Strong problem-solving abilities, attention to detail, and effective teamwork are valuable soft skills for this role. These competencies enable interns to contribute meaningfully to research and development projects, ensuring accurate experimentation and collaboration within multidisciplinary teams.

What is the difference between Internship Optoelectronics Engineer vs Entry-Level Electrical Engineer?

AspectInternship Optoelectronics EngineerEntry-Level Electrical Engineer
Required CredentialsTypically pursuing or recently completed a degree in optoelectronics, electrical engineering, or related fieldsBachelor's degree in electrical engineering or related discipline
Work EnvironmentResearch labs, manufacturing facilities, or corporate R&D departments focused on optoelectronic devicesVarious settings including design, testing, and manufacturing across electrical systems
Industry UsagePrimarily in optoelectronics, telecommunications, and photonics industriesBroadly across electronics, power systems, and communications industries

The main difference is that an Internship Optoelectronics Engineer focuses specifically on optoelectronic systems and devices during an internship, often with specialized coursework or projects. An Entry-Level Electrical Engineer has a broader scope, working on general electrical systems across multiple industries. Both roles require foundational engineering knowledge, but the internship provides targeted experience in optoelectronics.

What kinds of projects do Internship Optoelectronics Engineers typically work on, and how do they collaborate with other team members?

Internship Optoelectronics Engineers often assist with hands-on projects such as testing photonic devices, assembling optical systems, or collecting and analyzing experimental data. They regularly collaborate with senior engineers, researchers, and technicians to troubleshoot equipment, interpret results, and document findings. Interns are encouraged to participate in team meetings and may contribute to design reviews, gaining exposure to both practical engineering tasks and the collaborative development process. This teamwork provides valuable learning opportunities and insight into industry-standard project workflows.

What does an Internship Optoelectronics Engineer do?

An Internship Optoelectronics Engineer assists in the research, design, and development of devices that use light, such as lasers, LEDs, and optical sensors. Interns typically help with experiments, data analysis, and testing prototypes in lab settings, under the supervision of experienced engineers. This role provides hands-on experience with optical components, electronic circuitry, and software tools, preparing students for future careers in optoelectronics and photonics.
More about Internship Optoelectronics Engineer jobs
What cities are hiring for Internship Optoelectronics Engineer jobs? Cities with the most Internship Optoelectronics Engineer job openings:
What are the most commonly searched types of Optoelectronics Engineer jobs? The most popular types of Optoelectronics Engineer jobs are:
What states have the most Internship Optoelectronics Engineer jobs? States with the most job openings for Internship Optoelectronics Engineer jobs include:
Infographic showing various Internship Optoelectronics Engineer job openings in the United States as of July 2026, with employment types broken down into 87% Full Time, and 13% Temporary. Highlights an 100% In-person job distribution, with an average salary of $52,867 per year, or $25.4 per hour.
Production Engineer - Electrical

Full-time

Medical, Dental, Vision, Retirement, PTO

Re-posted 11 days ago


Job description

Summary

We are seeking a Production Engineer – Electrical to support and improve manufacturing operations through automation, equipment qualification, and data-driven problem solving. In this role, you will be responsible for developing, validating, and supporting automated equipment and production lines to ensure safe, efficient, and reliable manufacturing performance.

Job Duties

  • Lead production process improvements by identifying and implementing automation-based solutions that improve efficiency, reduce operating costs, and enhance safety, in collaboration with cross-functional teams.

  • Lead and support qualification of new equipment, tools, and production lines, including Factory Acceptance Testing (FAT), Site Acceptance Testing (SAT), and Production Verification Testing (PVT), ensuring readiness for volume manufacturing.

  • Interface directly with production lines to identify common failure modes, design and execute experiments or tests, and perform root cause analysis (RCA) to isolate failures and implement effective corrective and preventive actions.

  • Develop, maintain, and analyze issue logs, qualification reports, and performance metrics to track equipment health, yield impact, and process stability.

  • Actively support production by running, troubleshooting, and recovering equipment and automation stations during development, qualification, and early production ramp.

  • Monitor and analyze data from automation systems to identify opportunities for performance optimization, yield improvement, and downtime reduction.

  • Develop required software and hardware solutions to validate unit-under-test requirements and improve throughput and yield, including use of LabVIEW, SQL, Python, PLC development, and advanced analytics or machine-learning-based tools as needed.

  • 5–10% international travel is expected for this position.

  • Other duties as needed or required.

Qualifications

  • Required:
    • Bachelor’s degree in an Engineering discipline (Mechanical, Electrical, Mechatronics, Robotics, or related field).
  • Fundamental understanding of manufacturing or automation systems, gained through coursework, internships, co-ops, or professional experience.
  • Working knowledge of LabVIEW and/or at least one programming or scripting language (e.g., Python, C/C++, Java, or VBA).
  • Hands-on exposure to equipment, test systems, or production environments through academic projects, internships, or entry-level engineering roles.
  • Strong analytical and problem-solving skills with the ability to support troubleshooting and root cause analysis under guidance.
  • Strong teamwork, communication, and organizational skills to support multiple tasks and projects in a production environment
  • Candidates with strong fundamentals and interest in manufacturing, automation, and production environments are encouraged to apply, even if they do not meet every listed requirement.
  • Preferred:
    • Master’s degree in Engineering.
    • Experience in a manufacturing, automation, equipment engineering, or production engineering environment.
    • Exposure to equipment or process qualification activities (e.g., FAT, SAT, PVT, NPI), either academically or professionally.
    • Experience with programmable logic controllers (PLCs), basic mechanical design, electrical systems, or circuit-level troubleshooting.
    • Familiarity with data analysis, automation tools, or machine-learning-based techniques applied to manufacturing or test systems.

Location

This position will be on-site based in Sugar Land, Texas.

WHY AOI?

In addition to competitive salary, AOI offers

  • Flexible and competitive health (medical, dental, vision) plans offer the employee with the right options to meet individual and family needs
  • Employer matching on 401(k) deferrals
  • Generous PTO policy, with unused PTO payout at end of the year
  • Relocation package available within US
  • Immigration sponsorships (Must be currently authorized to work in the US)

We do not accept unsolicited proposals from third-party recruiters or agencies. Contacting hiring managers directly may result in disqualification of submissions.