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Statistical Process Control Engineer Jobs in Orem, UT

B&T USA

Quality Control Specialist

Herriman, UT · On-site

$21 - $25/hr

Interpret engineering drawings, GD&T (Geometric Dimensioning & Tolerancing), and specifications ... Familiarity with SPC (Statistical Process Control) methods Work Environment & Physical Requirements ...

LVT

Director of Hardware Quality

Spanish Fork, UT

Partner with Engineering to translate complex engineering drawings, schematics, and technical ... statistical process control (SPC). * Travel: Ability to travel up to 15% to visit domestic and ...

Chart Industries

Process Engineer

Orem, UT

Develop and implement industrial-grade process control, including model predictive controls and ... Knowledge of chemical engineering first principles, especially thermodynamics and heat/mass ...

Chart Industries

Process Engineer

Orem, UT · On-site

Develop and implement industrial-grade process control, including model predictive controls and ... Knowledge of chemical engineering first principles, especially thermodynamics and heat/mass ...

Chart Industries

Process Engineer

Orem, UT · On-site

Develop and implement industrial-grade process control, including model predictive controls and ... Knowledge of chemical engineering first principles, especially thermodynamics and heat/mass ...

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Statistical Process Control Engineer information

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$85.9K

$127.8K

How much do statistical process control engineer jobs pay per year?

As of Jun 18, 2026, the average yearly pay for statistical process control engineer in Orem, UT is $85,858.00, according to ZipRecruiter salary data. Most workers in this role earn between $65,600.00 and $101,300.00 per year, depending on experience, location, and employer.

What does a Statistical Process Control Engineer do?

A Statistical Process Control (SPC) Engineer is responsible for designing, implementing, and maintaining systems that monitor and control manufacturing processes using statistical methods. They analyze data to identify trends, reduce process variation, and improve product quality. SPC Engineers work closely with production teams to ensure processes remain stable, efficient, and in compliance with industry standards. Their role often involves training staff in SPC techniques and troubleshooting quality issues using data-driven approaches.

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

To thrive as a Statistical Process Control Engineer, you need a solid background in statistics, process engineering, and quality management, often supported by a degree in engineering or a related field. Familiarity with SPC software (such as Minitab or JMP), Six Sigma methodologies, and quality system certifications like ASQ are typically required. Strong analytical thinking, attention to detail, and effective communication are crucial soft skills for interpreting data and collaborating with cross-functional teams. These skills and qualifications are vital to maintain product quality, optimize processes, and drive continuous improvement within manufacturing or production environments.

What is the difference between Statistical Process Control Engineer vs Quality Engineer?

AspectStatistical Process Control EngineerQuality Engineer
Primary FocusMonitoring and controlling manufacturing processes using statistical methodsEnsuring overall product quality through testing, inspection, and process improvements
CertificationsSix Sigma, Statistical Process Control (SPC) certificationsSix Sigma, Quality Management certifications (e.g., CQE)
Work EnvironmentManufacturing plants, process development labsQuality departments, production facilities
Industry UsageManufacturing, automotive, electronicsManufacturing, healthcare, aerospace

While both roles focus on improving product quality, the Statistical Process Control Engineer specializes in using statistical tools to monitor and control manufacturing processes, whereas the Quality Engineer oversees broader quality assurance activities, including testing and compliance. Understanding these differences helps in choosing the right career path or job search focus.

How does a Statistical Process Control Engineer typically collaborate with production and quality teams to drive process improvements?

A Statistical Process Control Engineer regularly works alongside both production and quality assurance teams to identify trends, troubleshoot issues, and implement data-driven improvements. They analyze real-time data from manufacturing processes, facilitate root cause analysis sessions, and communicate findings through reports or presentations. Collaboration often includes training team members on SPC tools and methodologies, as well as guiding them in using statistical techniques to monitor and control process variability. This cross-functional teamwork ensures that process adjustments are both technically sound and operationally practical, leading to sustained quality improvements.
What are popular job titles related to Statistical Process Control Engineer jobs in Orem, UT? For Statistical Process Control Engineer jobs in Orem, UT, the most frequently searched job titles are:
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Statistical Process Control Engineer jobs near you
Wet Process Development Engineer

Wet Process Development Engineer

Texas Instruments Incorporated

Lehi, UT

Other

Posted yesterday

Texas Instruments rating

8.1

Company rating: 8.1 out of 10

Based on 84 frontline employees who took The Breakroom Quiz

40th of 139 rated electronics manufacturers

Job description

Job Description
Change the world. Love your job.
SiGe strained channel and silicided contact integration at 28nm demands wet etch and clean chemistries that operate at nanometer precision: removing exactly the right material, at exactly the right selectivity, without disturbing adjacent films or device structures. At LFAB, these processes don't yet exist in production form. You will build them. As a Wet Process Development Engineer in TI's ATD organization in Lehi, you will own the development, integration, and qualification of wet etch and clean modules for the 28nm SiGe and silicidation device flows which which directly enabling LFAB's technology ramp from development to high-volume manufacturing. Your work spans the full arc from chemistry formulation through module integration, yield analysis, and production readiness. The wet process modules you develop will run on every wafer at LFAB.
Responsibilities include:
  • Module Integration: Develop and optimize wet process flows for SiGe epi-layer cleaning and selective removal without damage to underlying Si or gate oxide
  • Selective Etching: Define chemistries for high-precision isotropic and anisotropic etching with focus on SiGe/Si/silicided film selectivity and undercut control at 28nm geometries
  • Yield & Defectivity: Identify root causes of process-related defects using FMEA and 8D methodologies; implement Statistical Process Control (SPC) to support the 28nm yield ramp toward high-volume manufacturing
  • Cross-Functional Collaboration: Partner with Epi, Lithography, Spacer Films, and CMP teams to ensure seamless integration of wet modules into the full 28nm SiGe and silicidation fabrication flow
  • Metrology & Characterization: Utilize SEM, TEM, ellipsometry, and AFM to characterize surface roughness and etch profiles at atomic resolution
    This role requires the ability to manage multiple parallel workstreams under schedule pressure, lead technical discussions with authority, communicate status and risks clearly, and drive alignment across organizational boundaries in a fast-paced technology development environment.

Qualifications
Minimum requirements:
  • Master's or Ph.D. in Materials Science, Chemical Engineering, Electrical Engineering, Physics, or related field
  • 5+ years in R&D semiconductor wafer fabrication for advanced nodes (28nm or below)
  • Technical depth in:
    • SiGe device physics, surface preparation, and chemical reaction kinetics
    • Wet etch chemistries across a broad range of film types
    • Hands-on experience with single-wafer or batch wet process tools (LAM, TEL, SCREEN, or equivalent)
    • Design of Experiments (DOE) methodology
    • Leading cross-functional teams from concept to production-ready status

Preferred qualifications:
  • Experience developing new wet process modules from the ground up
  • Strong inline-to-end-of-line signal correlation and process characterization skills
  • Ability to build and maintain stakeholder relationships across internal and external partners
  • Strong verbal and written communication skills
  • Demonstrated ability to ramp quickly on new systems and processes

About Us
Why TI?
  • Engineer your future. We empower our employees to truly own their career and development. Come collaborate with some of the smartest people in the world to shape the future of electronics.
  • We're different by design. Diverse backgrounds and perspectives are what push innovation forward and what make TI stronger. We value each and every voice, and look forward to hearing yours. Meet the people of TI
  • Benefits that benefit you. We offer competitive pay and benefits designed to help you and your family live your best life. Your well-being is important to us. Please find our country-specific benefits here

About Texas Instruments
Texas Instruments Incorporated (Nasdaq: TXN) is a global semiconductor company that designs, manufactures and sells analog and embedded processing chips for markets such as industrial, automotive, data center, personal electronics and communications equipment. At our core, we have a passion to create a better world by making electronics more affordable through semiconductors. This passion is alive today as each generation of innovation builds upon the last to make our technology more reliable, more affordable and lower power, making it possible for semiconductors to go into electronics everywhere. Learn more at TI.com.
Texas Instruments is an equal opportunity employer and supports a diverse, inclusive work environment. All qualified applicants will receive consideration for employment without regard to race, color, religion, creed, disability, genetic information, national origin, gender, gender identity and expression, age, sexual orientation, marital status, veteran status, or any other characteristic protected by federal, state, or local laws.
If you are interested in this position, please apply to this requisition.
About the Team
TI does not make recruiting or hiring decisions based on citizenship, immigration status or national origin. However, if TI determines that information access or export control restrictions based upon applicable laws and regulations would prohibit you from working in this position without first obtaining an export license, TI expressly reserves the right not to seek such a license for you and either offer you a different position that does not require an export license or decline to move forward with your employment.

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About Texas Instruments

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As a global semiconductor company, we design, manufacture, test and sell analog and embedded processing chips to nearly 100,000 customers. Our products enable electronics everywhere and in things you experience every day - from health care, smart homes and connected cars to drones, smart phones and more. Our passion to create a better and more sustainable world by making electronics more affordable through semiconductors drives us to make our technology smaller, more efficient, more reliable and more affordable.

Industry

Semiconductor and electronic component manufacturing

Company size

10,000+ Employees

Headquarters location

Dallas, TX, US

Year founded

1930

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