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Semiconductor Process Jobs in Oregon (NOW HIRING)

onsemi

Process Integration Engineer

Gresham, OR · Hybrid

Experience related to semiconductor processing in BCD, Discretes, and hybrid Smart Power technologies is desired. onsemi (Nasdaq: ON) is driving disruptive innovations to help build a better future.

onsemi

Process Integration Engineer

Gresham, OR · On-site

Experience related to semiconductor processing in BCD, Discretes, and hybrid Smart Power technologies is desired. Responsibilities Process Integration and Technology Development * Develop unit ...

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Semiconductor Process information

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$14

$26

$37

How much do semiconductor process jobs pay per hour?

As of Jun 9, 2026, the average hourly pay for semiconductor process in Oregon is $26.09, according to ZipRecruiter salary data. Most workers in this role earn between $20.82 and $29.76 per hour, depending on experience, location, and employer.

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

To thrive as a Semiconductor Process Engineer, you need a strong background in materials science, chemical engineering, or a related field, often with a bachelor's or master's degree. Familiarity with semiconductor fabrication tools, cleanroom protocols, and statistical process control (SPC) systems is typically required. Problem-solving, attention to detail, and effective teamwork are standout soft skills for this role. These skills and qualifications are crucial to ensure precise manufacturing, yield optimization, and successful innovation in semiconductor production.

What are semiconductor process engineers?

Semiconductor process engineers are professionals who design, develop, and optimize the manufacturing processes used to create semiconductor devices, such as microchips and integrated circuits. They work in cleanroom environments and are responsible for overseeing various steps in chip fabrication, including photolithography, etching, doping, and deposition. Their goal is to ensure high yield, efficiency, and quality in the production of semiconductors, often working closely with equipment engineers and quality control teams.

What is the difference between Semiconductor Process vs Semiconductor Equipment Technician?

AspectSemiconductor ProcessSemiconductor Equipment Technician
CredentialsTypically requires a degree in engineering, materials science, or related fieldOften requires technical certifications and hands-on training in equipment maintenance
Work EnvironmentCleanroom environments focused on process development and manufacturingManufacturing floors, maintaining and repairing equipment
Industry UsageInvolved in designing, developing, and optimizing semiconductor fabrication processesSupports manufacturing by maintaining and troubleshooting equipment

Semiconductor Process roles focus on developing and optimizing fabrication processes in cleanroom settings, requiring engineering knowledge. Semiconductor Equipment Technicians primarily maintain and repair manufacturing equipment, often with technical certifications. Both roles are essential in semiconductor manufacturing but differ in responsibilities and skill sets.

What are some common challenges faced by professionals in semiconductor process roles, and how can they be addressed?

Professionals in semiconductor process roles often face challenges such as maintaining process stability, minimizing defects, and adapting to rapidly changing technology. These challenges can be addressed by staying current with industry best practices, collaborating closely with cross-functional teams like equipment engineers and quality assurance, and actively participating in continuous improvement initiatives. Strong data analysis skills and a proactive approach to troubleshooting also help in quickly identifying and resolving process issues, ensuring high yield and product quality.
Semiconductor Process jobs near you
Infographic showing various Semiconductor Process job openings in Oregon as of June 2026, with employment types broken down into 7% Locum Tenens, 7% As Needed, 64% Full Time, 11% Part Time, 7% Temporary, and 4% Nights. Highlights an 93% Physical, 3% Hybrid, and 4% Remote job distribution, with an average salary of $54,259 per year, or $26.1 per hour.
Process Integration Engineer

Process Integration Engineer

onsemi

Gresham, OR • Hybrid

Full-time

Posted 20 days ago

Onsemi rating

8.0

Company rating: 8.0 out of 10

Based on 18 frontline employees who took The Breakroom Quiz

Job description

The Process Integration and Technology Development Engineer defines, develops, and implements silicon process technology for the manufacture of integrated silicon devices. The successful candidate will be responsible for unit/process module development, process flow implementation, design rule definition, device architecture, electrical characterization, and technology qualification. These tasks support new silicon technology developments and transfers of existing technologies in and out of the resident fab. Experience related to semiconductor processing in BCD, Discretes, and hybrid Smart Power technologies is desired. 

 
onsemi (Nasdaq: ON) is driving disruptive innovations to help build a better future. With a focus on automotive and industrial end-markets, the company is accelerating change in megatrends such as vehicle electrification and safety, sustainable energy grids, industrial automation, and 5G and cloud infrastructure. With a highly differentiated and innovative product portfolio, onsemi creates intelligent power and sensing technologies that solve the world's most complex challenges and leads the way in creating a safer, cleaner, and smarter world.

More details about our company benefits can be found here:

https://www.onsemi.com/careers/career-benefits

We are committed to sourcing, attracting, and hiring high-performance innovators, while providing all candidates a positive recruitment experience that builds our brand as a great place to work.


onsemi is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, ethnicity, color, religion, ancestry, national origin, age, marital status, pregnancy, sex, sexual orientation, physical or mental disability, medical condition, genetic information, military or veteran status, gender identity, gender expression, or any other protected category under applicable federal, state, or local laws.

If you are an individual with a disability and require a reasonable accommodation to complete any part of the application process, or are limited in the ability or unable to access or use this online application process and need an alternative method for applying, you may contact Talent.acquisition@onsemi.com for assistance.

Required

  • MS or PhD in Electrical Engineering, Physics, Chemistry, Chemical Engineering, Materials Engineering, or related technical field. 
  • Experience with semiconductor process technology and wafer fabrication.
  • Understanding of semiconductor device physics, including CMOS, DMOS, Bipolar, and Trench FET devices.  
  • Experience applying DOE, statistical analysis, and data analytics to semiconductor development. 
  • Strong written and verbal communication skills with the ability to convey complex technical concepts clearly. 
  • Proven problem-solving ability and strong collaboration skills in cross-functional teams. 

Preferred 

  • Experience with 180 nm through 40 nm technologies.
  • Knowledge of Bipolar, CMOS, High Voltage DMOS, Vertical FETs, SOI, CIS, EEPROM, NVM, or Dual Damascene copper integration. 
  • Knowledge of intrinsic reliability testing methodologies, including GOI, VRamp, TDDB, HCI, EM, and SM.  
  • Hands-on experience with process and device TCAD simulations. 
  • Experience designing and evaluating physical and electrical design rule test structures. 
  • Familiarity with AI/ML techniques, data mining, or statistical modeling applied to semiconductor process or device data.
  • Experience using scripting languages (e.g., Python, MATLAB, JMP, or equivalent) for data analysis, automation, or model development.

Process Integration and Technology Development

  • Develop unit processes and process modules for CMOS, BCD, Discretes, and hybrid Smart Power technologies. 
  • Perform process module characterization to ensure robustness, manufacturability, and scalability. 
  • Develop and maintain end-to-end technology process flows with detailed process specifications. 
  • Define physical design rules and test structures for characterization.
  • Drive process and device optimization to meet performance, reliability, and cost targets. 
  • Design and analyze statistical experiments using DOE, regression, and AI-assisted methods to optimize device architecture and process modules. 
  • Support intrinsic reliability studies, including gate oxide integrity, TDDB, HCI, EM, and stress migration, using both physics-based and data-driven approaches. 

Manufacturing, Yield & Technology Transfer

  • Facilitate process improvements and corrective actions for yield, reliability, and manufacturability issues using root-cause analysis and data mining and analysis. 
  • Support Process Engineering and Yield Engineering teams to improve process quality and yield for technologies released to manufacturing. 
  • Enable smooth technology transfers into and out of the fab by using data-driven monitoring, excursion detection, and learning systems.

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