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Electrical Engineer Semiconductor Jobs in Raleigh, NC

NCSU

CLAWS III-N Power Integration Engineer

Raleigh, NC

$101K - $136K/yr

Essential Job Duties We are seeking a highly skilled Wide-Bandgap Power Device Engineer to join our ... Strong background in semiconductor physics, TCAD simulation, and electrical characterization.

Quest Global

DC Protection Engineer

Raleigh, NC · On-site

... semiconductor industries. We are looking for humble geniuses, who believe that engineering has the ... Completed studies in electrical engineering, energy technology or comparable Completed degree in ...

Quest Global

DC Protection Engineer

Raleigh, NC · On-site

$80K - $90K/yr

... semiconductor industries. We are looking for humble geniuses, who believe that engineering has the ... Completed studies in electrical engineering, energy technology or comparable Completed degree in ...

Quest Global

DC Protection Engineer

Raleigh, NC

$80K - $90K/yr

... semiconductor industries. We are looking for humble geniuses, who believe that engineering has the ... Completed studies in electrical engineering, energy technology or comparable Completed degree in ...

Quest Global

DC Protection Engineer

Raleigh, NC

$80K - $90K/yr

... semiconductor industries. We are looking for humble geniuses, who believe that engineering has the ... Completed studies in electrical engineering, energy technology or comparable Completed degree in ...

Wolfspeed

Manager of Research Science

Durham, NC · On-site

... semiconductor/materials science subject matter expertise to discussions Qualifications : Required : • Ph. D. Materials Science, chemical engineering, physics, electrical Engineering, Machine ...

Cree

Product Manager - Materials BU

Durham, NC

Degree in Materials Science, Semiconductor Engineering, Electrical Engineering, or similar technical degree * 7-10 years of semiconductor product management, product engineering, product marketing ...

Wolfspeed

Product Manager - NPI

Durham, NC · On-site

Required : • Degree in Electrical Engineering, or similar technical degree • 7-10 years of semiconductor product management, product marketing and/or applications engineering • Good general ...

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How much do electrical engineer semiconductor jobs pay per year?

As of Jun 15, 2026, the average yearly pay for electrical engineer semiconductor in Raleigh, NC is $107,990.00, according to ZipRecruiter salary data. Most workers in this role earn between $80,700.00 and $128,300.00 per year, depending on experience, location, and employer.

What are some typical projects or responsibilities for an Electrical Engineer working in the semiconductor industry?

As an Electrical Engineer in the semiconductor industry, you will often work on designing, testing, and optimizing integrated circuits, power electronics, or microelectronic devices. Your daily tasks may include circuit simulation, layout design, troubleshooting fabrication issues, and collaborating with process engineers to improve yield and reliability. You may also participate in cross-functional teams with software, mechanical, and manufacturing engineers to bring new products from concept to mass production. This role provides the opportunity to engage with rapidly evolving technology and impact a wide range of high-tech applications.

What engineers make $500,000?

Senior electrical engineers in the semiconductor industry, especially those with extensive experience, advanced skills in circuit design, and leadership roles, can earn salaries approaching or exceeding $500,000 annually. Such compensation often includes bonuses, stock options, and other incentives, typically found in large tech companies or executive-level positions.

How much do semiconductor electrical engineers make?

Semiconductor electrical engineers typically earn a median annual salary ranging from $80,000 to $120,000, depending on experience, education, and location. Senior roles or those with specialized skills in circuit design, process integration, or testing can earn higher salaries, often exceeding $150,000 annually.

Can you make $500,000 as an electrical engineer?

Electrical engineers in the semiconductor industry can potentially earn $500,000 or more annually, especially with extensive experience, advanced skills in circuit design or chip fabrication, and leadership roles such as engineering managers or senior technical directors. High salaries are often associated with working in specialized fields, in high-cost regions, or at large corporations with competitive compensation packages.

What are the key skills and qualifications needed to thrive in the Electrical Engineer Semiconductor position, and why are they important?

To thrive as an Electrical Engineer Semiconductor, you need a solid foundation in electrical engineering principles, semiconductor physics, and circuit design, typically supported by a bachelor’s or master’s degree in electrical engineering or a related field. Familiarity with industry-standard tools such as SPICE simulation software, CAD design tools (e.g., Cadence, Synopsys), and experience with cleanroom processes are highly valued. Excellent problem-solving abilities, teamwork, and strong communication skills help engineers collaborate across interdisciplinary teams and troubleshoot complex technical issues. These competencies are essential for developing reliable semiconductor devices and contributing to the advancement of cutting-edge technology.

Can electrical engineers work in the semiconductor industry?

Electrical engineers can work in the semiconductor industry, where they design, develop, and test electronic components and integrated circuits. They often use tools like CAD software and need knowledge of semiconductor physics, fabrication processes, and circuit design. This industry offers roles in research, manufacturing, and quality assurance for electrical engineering professionals.

What does an Electrical Engineer in the Semiconductor industry do?

An Electrical Engineer in the semiconductor industry designs, develops, and tests electrical circuits and systems used in semiconductor devices. They work on integrated circuits, microchips, and power management systems to improve performance and efficiency. Their role involves simulation, prototyping, and troubleshooting to ensure functionality and reliability. They collaborate with cross-functional teams to optimize manufacturing processes and enhance semiconductor technology.

What are the most commonly searched types of Electrical Engineer Semiconductor jobs in Raleigh, NC? The most popular types of Electrical Engineer Semiconductor jobs in Raleigh, NC are:
What are popular job titles related to Electrical Engineer Semiconductor jobs in Raleigh, NC? For Electrical Engineer Semiconductor jobs in Raleigh, NC, the most frequently searched job titles are:
What job categories do people searching Electrical Engineer Semiconductor jobs in Raleigh, NC look for? The top searched job categories for Electrical Engineer Semiconductor jobs in Raleigh, NC are:
Electrical Engineer Semiconductor jobs near you
CLAWS III-N Power Integration Engineer

CLAWS III-N Power Integration Engineer

NCSU

Raleigh, NC • On-site

Other

Medical, Dental, Vision, Life, Retirement, PTO

Posted 22 days ago

North Carolina State University rating

6.8

Company rating: 6.8 out of 10

Based on 33 frontline employees who took The Breakroom Quiz

388th of 537 rated colleges and universities

Job description

Posting Information
Posting Number PG194126EP Internal Recruitment No Working Title CLAWS III-N Power Integration Engineer Anticipated Hiring Range Commensurate with education and experience Work Schedule Monday - Friday; 8:00 am - 5:00 pm, additional hours as needed Job Location Raleigh, NC Department CLAWS (Commercial Leap Ahead for Wide Bandgap Semiconductors) About the Department
North Carolina State University is leading the charge as the recipient of a $39.4 million award from the Department of Defense to establish the regional Microelectronics Commons regional innovation hub, Commercial Leap Ahead for Wide Bandgap Semiconductors (CLAWS). This initiative, part of the larger $238 million investment through the Creating Helpful Incentives to Produce Semiconductors (CHIPS) and Science Act, aims to revolutionize the field of wide bandgap semiconductors.

Hub leadership, Distinguished Professors John Muth and Fred Kish, are dedicated to the "lab to fab" journey-translating laboratory advancements into fabrication capabilities for wide bandgap semiconductors. The hub brings together a dynamic partnership with N.C. A&T State University and industry leaders, including Wolfspeed, Coherent Corp., General Electric, Bluglass, Adroit Materials, and Kyma Technologies, Inc. This collaborative effort will propel the development of semiconductors crucial for national defense, electric vehicles, power grid technologies, 5G/6G, quantum technologies, and artificial intelligence applications.
Wolfpack Perks and Benefits
As a Pack member, you belong here, and can enjoy exclusive perks designed to enhance your personal and professional well-being.

What we offer:
  • Medical, Dental, and Vision
  • Flexible Spending Account
  • Retirement Programs
  • Disability Plans
  • Life Insurance
  • Accident Plan
  • Paid Time Off and Other Leave Programs
  • 12 Holidays Each Year
  • Tuition and Academic Assistance
  • And so much more!

Attain Work-life balance with our Childcare benefits, Wellness & Recreation Membership, and Wellness Programs that aim to build a thriving wolfpack community.
Disclaimer: Perks and Benefit eligibility is based on Part-Time or Full-Time Employment status. Eligibility and Employer Sponsored Plans can be found within each of the links offered.
Essential Job Duties
We are seeking a highly skilled III-N Power Integration Engineer to join our team and contribute to the development of next-generation power semiconductor devices. The ideal candidate will have expertise in semiconductor process integration, power device design (diodes, FETs, etc.), electrical characterization, and device simulation to drive innovation in high-efficiency, high-performance wide-bandgap power solutions.
Key Responsibilities:
Power Device Design & Development (35%)
  • Design and optimize GaN power devices (HEMTs, Diodes, lateral/vertical FETs) for high-voltage and high-frequency applications.
  • Utilize TCAD simulation (e.g., Synopsys, Silvaco, etc.) for process and device modeling, electrical characteristics prediction, and performance enhancement.
  • Develop and refine device layouts for wafer fabrication, ensuring manufacturability and reliability.

Process Integration & Fabrication (35%)
  • Work to define and optimize GaN-on GaN, GaN-on-Si, GaN-on-SiC, and other heteroepitaxial structures for power applications.
  • Lead the wafer process flow development, including epi structures, etching, metallization, and passivation steps.
  • Troubleshoot process integration challenges related to defectivity, yield, and reliability.
Electrical Characterization & Reliability Testing (20%)
  • Define and execute device characterization plans (IV, CV, breakdown, leakage, switching performance).
  • Analyze reliability metrics such as TDDB, HTRB, HTOL, and step-stress testing to assess long-term device stability.
  • Interface with packaging and application engineers to optimize thermal management and electrical performance in real-world applications.
Cross-functional Collaboration (10%)
  • Work with process engineers and R&D partners to drive technology improvements.
  • Collaborate with circuit designers, applications engineers, and product development teams to translate device-level improvements into system-level advantages.
  • Stay up to date with emerging GaN technology trends, competitive landscape, and industry benchmarks.
Other Responsibilities
The successful candidate will:
  • Comply with stated workplace policies.
  • Communicate results, plans, and other updates to a variety of audiences.
  • Adhere to and mentor others in known best practices.
  • Support CLAWS activities such as tours, meetings, and conferences.
Qualifications
Minimum Education and Experience
  • Ph.D. in Electrical Engineering, Materials Science, or a related field with a focus on power semiconductor devices; OR
  • Bachelor's Degree in a relevant field with at least 5 years of experience in GaN power device design and process integration (industry or research)
Other Required Qualifications
The successful candidate must demonstrate:
  • A track record of publications in high-quality journals and/or conferences.
  • Experience characterizing high-power semiconductor devices and extracting relevant device parameters.
  • Excellent communication and interpersonal skills.
  • Ability to multitask and meet deadlines with moderate supervision.
  • Ability to follow safe procedures for working with semiconductor fabrication equipment, chemicals, and compressed gas cylinders.
  • Comfort in collaborating with students, faculty, and staff of varying experience and backgrounds.
  • Strong background in semiconductor physics, TCAD simulation, and electrical characterization.
  • Hands-on experience with semiconductor process integration, fabrication, and failure analysis.
  • Familiarity with GaN E-mode, D-mode, lateral vs. vertical device structures, and reliability challenges.
  • Eligibility to obtain clearance upon request of the US government.
Preferred Qualifications
The successful candidate would preferably have additional experience in:
  • TCAD device modeling.
  • Additional characterization of materials and devices, including failure analysis, defect inspection, radiation effects, and high-k dielectrics.
  • Fabrication of semiconductor devices for high-power applications.
  • Lithography mask layout.
  • MES and SPC systems.
  • Statistical methods (e.g., DOE, GR&R) and tools (e.g., JMP, Minitab)
  • Experience in power electronics applications (high-voltage converters, automotive, RF, or data centers) is a plus.
  • Knowledge of packaging constraints and thermal management for GaN devices is a plus.
Required License(s) or Certification(s)
  • N/A
Valid NC Driver's License required No Commercial Driver's License required No
Recruitment Dates and Special Instructions
Job Open Date 05/30/2025 Anticipated Close Date Open Until Filled Special Instructions to Applicants
Applicants should upload a cover letter, CV/resume, and contact information for three professional references.
Position Details
Position Number 00111482 Position Type EPS/SAAO Full Time Equivalent (FTE) (1.0 = 40 hours/week) 1.00 Appointment 12 Month Recurring Mandatory Designation - Adverse Weather Non Mandatory - Adverse Weather Mandatory Designation - Emergency Events Non Mandatory - Emergency Event Department ID 140110 - CLAWS EEO
NC State University is an equal opportunity employer. All qualified applicants will receive equal opportunities for employment without regard to age, color, disability, gender identity, genetic information, national origin, race, religion, sex (including pregnancy), sexual orientation, and veteran status. The University encourages all qualified applicants, including protected veterans and individuals with disabilities, to apply. Individuals with disabilities requiring disability-related accommodations in the application and interview process are welcome to contact 919-513-0574 to speak with a representative of the Office of Equal Opportunity.
If you have general questions about the application process, you may contact Human Resources at (919) 515-2135 or workatncstate@ncsu.edu.
Final candidates are subject to criminal & sex offender background checks. Some vacancies also require credit or motor vehicle checks. Degree(s) must be obtained prior to start date in order to meet qualifications and receive credit.
NC State University participates in E-Verify. Federal law requires all employers to verify the identity and employment eligibility of all persons hired to work in the United States.

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About North Carolina State University

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North Carolina State University (NCSU), located in Raleigh, NC, US, is a leading educational institution with a strong emphasis on research, academics, and public service. Established in 1887, NCSU operates in the education industry and endeavors to foster student success, and promote economic development by providing high-quality, affordable education, and conducting groundbreaking research across a variety of disciplines. With more than 100 majors, its academic offerings range from undergraduates to postgraduates along with doctoral studies - in various fields like engineering, natural resources, humanities, and social sciences. NCSU is firmly anchored on the core values of respect, responsibility, integrity, and innovation. Its mission is to create economic, societal, and intellectual prosperity for the people of North Carolina and the nation.

Industry

Colleges, universities, and professional schools

Company size

5,001 - 10,000 Employees

Headquarters location

Raleigh, NC, US

Year founded

1887

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