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Mocvd Process Jobs in Minnesota (NOW HIRING)

Mocvd Process information

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

To thrive as an MOCVD Process Engineer, you need a strong background in materials science, chemical engineering, or physics, often with a relevant degree and experience in semiconductor fabrication. Familiarity with MOCVD (Metal Organic Chemical Vapor Deposition) equipment, process control software, and cleanroom protocols is essential, and certifications in semiconductor manufacturing can be advantageous. Strong analytical thinking, problem-solving skills, and effective communication help you optimize processes and collaborate across multidisciplinary teams. These skills and qualities are crucial for maintaining high yield, product quality, and innovation in advanced semiconductor manufacturing environments.

What are some common challenges faced by MO CVD Process Engineers during production scale-up, and how can they be addressed?

MO CVD Process Engineers often encounter challenges such as maintaining uniform film thickness, ensuring repeatable material quality, and managing equipment stability when moving from lab-scale to full production. Addressing these issues requires close collaboration with equipment engineers, regular process calibration, and rigorous data analysis to identify and mitigate process drifts. Continuous communication with R&D and production teams is essential to implement improvements and rapidly resolve technical bottlenecks.

What is an MOCVD Process Engineer?

An MOCVD Process Engineer is a specialist who operates and optimizes Metal-Organic Chemical Vapor Deposition (MOCVD) systems, which are used to grow thin films of semiconductor materials. These engineers develop and refine processes for depositing complex material layers, often for use in LEDs, lasers, or advanced electronic devices. Their work involves monitoring equipment, troubleshooting process issues, ensuring quality control, and collaborating with research and development teams to improve material performance. A strong background in materials science, chemistry, or engineering is typically required.

What is the difference between Mocvd Process vs Chemical Vapor Deposition (CVD) Technician?

AspectMocvd ProcessCVD Technician
CredentialsTechnical diploma or associate degree in electronics or materials scienceTechnical diploma or associate degree in electronics or materials science
Work EnvironmentCleanroom semiconductor fabrication facilitiesCleanroom environments in semiconductor manufacturing
Industry UsageUsed primarily in III-V compound semiconductor productionUsed across various thin-film deposition processes in semiconductor industry

The Mocvd Process and CVD Technician roles share similar credentials and work environments, often overlapping in semiconductor manufacturing. However, Mocvd Process specialists focus specifically on metal-organic chemical vapor deposition for compound semiconductors, while CVD Technicians may work with a broader range of deposition techniques. Both roles are essential in producing high-quality semiconductor devices and are frequently searched together by industry professionals.

What cities in Minnesota are hiring for Mocvd Process jobs? Cities in Minnesota with the most Mocvd Process job openings:
Principal GaN Technology Development Engineer

Principal GaN Technology Development Engineer

Polar Semiconductor

Bloomington, MN • On-site

$125K - $165K/yr

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Re-posted 23 days ago


Job description

JOB SUMMARY:

  • Contribute to the development/transfer, optimization, and documentation of the overall process flow and macro modules required to fabricate reliable, manufacturable devices on GaN on Silicon (HEMT), which meet parametric and performance goals.

  • Characterize, evaluate, and document semiconductor devices to ensure reliability and performance to quality standards.

  • Evaluate new opportunities for development and/or transfer of new semiconductor technology and processes.

DUTIES AND RESPONSIBILITIES:

  • Set up and perform process and device simulations to determine initial process parameters, capabilities, and direction for optimization of new process flows.

  • Design and perform experiments and analyze the results to determine the process sequences and parameters which will yield the target device parameters, by using the results of the process simulations or initial test lots as a starting point.

  • Analyze data (electrical, in-process measurement or visual inspection) from the fabrication of test lots to determine which parameters require additional optimization.

  • Work with Process Engineering to develop, characterize, and optimize process modules.

  • Support the processing of the initial test chip and transfer lots fabricated with the new process to identify and correct any problem areas and work to achieve first-pass success.

  • Provide inputs to and work with Device Engineers to develop layout rules for the process being developed, using equipment specifications and experimental data.

  • Recommend test structures for and contribute to the layout of test chip mask sets to aid in developing the new process and evaluating specific process-dependencies of device parameters.

  • Provide weekly, monthly, quarterly development updates to upper management and external customers.

  • Support company initiatives, such as; quality, safety and environmental management, CQI, 5S, yield management, and cost containment

  • Perform other duties as required.

KNOWLEDGE, SKILLS, AND ABILITIES:

  • Strong knowledge of several of the following, as needed to perform exact duties:

    • Strong process integration knowledge of GaN on silicon HEMT power devices

    • Strong knowledge of semiconductor device physics, specially III-V nitrides

    • Working knowledge of key process modules (Photo, Etch, Thin Films, CMP, MOCVD, etc.)

    • Broad knowledge of GaN market trends and new opportunity evaluation experience preferred

    • Process Integration Experience in CMOS/BCDMOS or Discrete IGBTs/MOSFETs a plus

    • Experience in Process Flow Design to Achieve Manufacturability Metrics and Meet Electrical Test Targets

    • Experience with and Understanding of Electrical Test Data and its Correlation to Process and Cross-sectional data

    • Experience Interpreting Failure Analysis Results and Familiarity with Failure Analysis techniques

    • Experience with Power Packaging including Assembly and Reliability issues

    • Experience in Backend (BGBM, STM, etc.) Processes

    • Experience in Development of Process, Technology and Design FMEA's

  • Skills
    • DoE Design and Data Analysis Tools (JMP, Spotfire)
    • TCAD Process Simulations
    • Reading and Interpretation of Design Layouts
  • Abilities

    • Working with and Interpreting Information/Data between Design and Process Teams

    • Driving for Solutions and Collaborating on Cross-functional Teams

    • Technical Leadership Ability (Education, experience and communication skills)

Typically requires a Masters or PhD in Electrical Engineering, Physics or Material Science and 5+ years of experience in a relevant job function.

What We Offer

Salary: $125,000-$165,000 per year (good-faith estimate)


Benefits & Other Eligible Compensation: Includes health, dental, vision, disability and life insurance, 401(k) plan with company match, paid time off, annual bonus, and tuition reimbursement.

Polar Semiconductor is an Equal Opportunity Employer and prohibits discrimination and harassment of any kind. We are committed to the principle of equal employment opportunity for all employees and to providing employees with a work environment free of discrimination and harassment. All employment decisions are based on business needs, job requirements, and individual qualifications, without regard to race, color, religion, sex, sexual orientation, gender identity, age, national origin, disability, veteran status, or any other status protected by the laws or regulations in the locations where we operate.

About Us

At Polar Semiconductor, we're on a mission to fulfill our future as the U.S. based manufacturing partner of choice for differentiated power and sensor technologies. With a $525M investment from the CHIPs Act, the state of Minnesota, and private equity, we are looking for the best in the industry to help Polar transform from a captive fab to a pure-play foundry. We are doubling our manufacturing capacity and investing in advanced BCD and Wide Bandgap technology such as GaN. Polar has a long history in manufacturing automotive grade semiconductors and we are expanding in strategic markets such as national defense and AI data centers. We pride ourselves on state-of-the-art semiconductor manufacturing, a collaborative culture, and a commitment to helping our customers succeed.