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How much do semiconductor characterization jobs pay per year?

As of Jun 5, 2026, the average yearly pay for semiconductor characterization in the United States is $89,369.00, according to ZipRecruiter salary data. Most workers in this role earn between $58,500.00 and $114,500.00 per year, depending on experience, location, and employer.

What are the typical daily tasks of someone working in Semiconductor Characterization?

In a Semiconductor Characterization role, your daily tasks often include preparing test setups, performing electrical and physical measurements on semiconductor devices, and analyzing the resulting data to assess performance or reliability. You'll collaborate closely with design engineers and process technologists to interpret test results and troubleshoot any anomalies. Documentation of procedures, maintaining test equipment, and sometimes developing automated test routines are also common responsibilities. This role typically involves both hands-on lab work and detailed data analysis to support ongoing product development and improvement.

What is a Semiconductor Characterization job?

A Semiconductor Characterization job involves testing and analyzing the electrical, optical, and material properties of semiconductor devices to ensure performance and reliability. Professionals in this role use advanced lab equipment such as probe stations, parameter analyzers, and oscilloscopes to measure key characteristics like mobility, carrier concentration, and defect density. Their work is crucial for optimizing fabrication processes, validating device designs, and troubleshooting issues in semiconductor manufacturing.

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

To thrive in Semiconductor Characterization, you need a strong background in materials science, electrical engineering, or physics, along with experience in device testing and data analysis. Proficiency with tools such as semiconductor parameter analyzers, probing stations, and characterization software like LabVIEW or MATLAB is highly valued. Attention to detail, problem-solving abilities, and effective communication are important soft skills for collaborating with cross-functional engineering teams. These competencies are crucial to ensure accurate device evaluation, efficient troubleshooting, and the reliable reporting of test results in semiconductor development environments.

More about Semiconductor Characterization jobs
What cities are hiring for Semiconductor Characterization jobs? Cities with the most Semiconductor Characterization job openings:
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What job categories do people searching Semiconductor Characterization jobs look for? The top searched job categories for Semiconductor Characterization jobs are:
Semiconductor Characterization jobs near you
Infographic showing various Semiconductor Characterization job openings in the United States as of May 2026, with employment types broken down into 1% Internship, 95% Full Time, 1% Part Time, 1% Temporary, 1% Contract, and 1% Nights. Highlights an 93% Physical, 3% Hybrid, and 4% Remote job distribution, with an average salary of $89,369 per year, or $43 per hour.
Application Engineer Intern

Application Engineer Intern

Navitas Semiconductor

Torrance, CA โ€ข On-site

$25 - $40/hr

Internship

Posted 26 days ago

Job description

Job Purpose:
Navitas Semiconductor (Nasdaq: NVTS) is a next-generation power semiconductor leader driving innovation in gallium nitride (GaN) and high-voltage silicon carbide (SiC) technologies. Our products enable faster, more efficient power delivery across AI data centers, high-performance computing, energy and grid infrastructure, and industrial electrification.
With more than 30 years of combined expertise in wide bandgap technologies, GaNFastโ„ข power ICs integrate GaN power, drive, control, sensing, and protection, delivering faster power delivery, higher system density, and greater efficiency. GeneSiCโ„ข high-voltage SiC devices leverage patented trench-assisted planar technology to provide industry-leading voltage capability, efficiency, and reliability for medium-voltage grid and infrastructure applications.
We are seeking an Applications Engineering Intern to join our fast-growing, collaborative team. The ideal candidate is self-motivated, energetic, and eager to gain hands-on experience in a high-growth, innovative environment, contributing directly to technologies that are shaping the future of power electronics.
Navitas Semiconductor is seeking a highly motivated and experienced analog / power IC Design Engineer to lead the architecture, design, and silicon execution of next-generation power management ICs. This role is hands-on and technical, with end-to-end ownership from concept through production, and close collaboration with systems, devices, layout, and validation teams. This is a key technical expert position for engineers who have successfully brought power ICs into high-volume production and want to shape future architectures.
Key Responsibilities and Duties:
  • Perform high-voltage semiconductor testing and characterization of SiC MOSFET devices, including double pulse testing (DPT) and basic switching measurements.
  • Support schematic review and PCB layout tasks for evaluation boards and test hardware, with attention to isolation, creepage/clearance, and measurement accuracy.
  • Build, bring up, and validate EVAL boards for internal testing and customer demonstrations.
  • Run device-level and system-level simulations using tools such as PLECS and SIMetrix.
  • Perform hands-on lab work using oscilloscopes, current/voltage probes, power analyzers, and electronic loads.
  • Contribute to application notes, test reports, and internal documentation.
  • Support the applications team with data collection, analysis, and presentation of test results.
  • Collaborate with R&D, product marketing, and operations teams on ongoing customer programs and product development activities.

Knowledge, Skills, Abilities, and Other Characteristics (KSAO's)
  • Currently pursuing a Master's or PhD in Electrical Engineering or a related field.
  • Coursework or project experience in power electronics, semiconductor devices, or analog/mixed-signal circuits.
  • Basic understanding of MOSFETs, gate drivers, and switching converter concepts.
  • Familiarity with lab instruments (oscilloscopes, multimeters, function generators).
  • Exposure to simulation tools such as PLECS, SIMetrix, or LTspice is a plus.
  • Exposure to schematic capture or PCB layout tools (e.g., Altium, KiCad, OrCAD) is a plus.
  • Familiarity with power topologies (PFC, LLC, DAB, DC-DC converters) is a plus.
  • Willingness to learn high-voltage testing practices and safety procedures.
  • Strong curiosity, attention to detail, and good communication skills.

Required Qualifications
Basic
  • Currently enrolled in a Master's or PhD program in Electrical Engineering or a related field.
  • Coursework or research in power electronics, semiconductor devices, or related areas.

Preferred
  • Prior lab or research experience in high-voltage power electronics or semiconductor characterization.
  • Familiarity with power electronics topologies used in server and AI data center power systems.

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