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Mems Engineering Jobs (NOW HIRING)

nEye.ai

MEMS Integration Engineer

Santa Clara, CA · Hybrid

$122K - $164K/yr

Job Overview We are seeking a highly technical MEMS Integration Engineer to bridge the gap between ... This role requires a strong foundry process engineering background combined with the strategic ...

nEye.ai

Senior MEMS Design Engineer

Santa Clara, CA · On-site

$180K - $260K/yr

Master's or PhD degree in Applied Physics, Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. * Experience: 5+ years of hands-on experience in MEMS ...

nEye.ai

Senior MEMS Design Engineer

Santa Clara, CA

Master's or PhD degree in Applied Physics, Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. * Experience: 5+ years of hands-on experience in MEMS ...

nEye.ai

MEMS Integration Engineer

Santa Clara, CA · On-site

$122K - $164K/yr

Job Overview We are seeking a highly technical MEMS Integration Engineer to bridge the gap between ... This role requires a strong foundry process engineering background combined with the strategic ...

Draper

MEMS Design & Analysis Engineer

Cambridge, MA

$75K - $275K/yr

In this senior level MEMS Design & Analysis Engineering role, you'll provide innovative solutions to complex problems by developing novel microsystem devices that integrate precision sensors ...

ZimZee Recruiting

Be Seen First

Sr. MEMS Design Engineer

Sunnyvale, CA · On-site

$160K - $215K/yr

The ideal candidate will lead engineering efforts involving simulation, analysis, fabrication, testing, and evaluation of MEMS sensor technologies while collaborating closely with cross-functional ...

nEye.ai

Senior MEMS Design Engineer

Santa Clara, CA · On-site

$180K - $260K/yr

Master's or PhD degree in Applied Physics, Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. * Experience: 5+ years of hands-on experience in MEMS ...

EngeniusMicro, LLC.

Sr. MEMS Engineer

Atlanta, GA · On-site

$100K - $138K/yr

Contribute to the further development of the engineering teams through continual improvement ... polymers on MEMS resonators * 2-3 years of experience using the NanoScribe * Experience ...

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Mems Engineering information

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How much do mems engineering jobs pay per hour?

As of Jun 18, 2026, the average hourly pay for mems engineering in the United States is $29.53, according to ZipRecruiter salary data. Most workers in this role earn between $20.67 and $32.45 per hour, depending on experience, location, and employer.

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

To thrive as a MEMS Engineer, you need a solid background in microfabrication, semiconductor physics, and materials science, typically with a degree in electrical, mechanical, or materials engineering. Familiarity with CAD design tools, cleanroom processes, and simulation software like COMSOL or CoventorWare is often required, along with knowledge of relevant industry standards. Strong problem-solving abilities, attention to detail, and effective teamwork and communication skills distinguish top performers in this field. These competencies ensure the precise design, fabrication, and integration of MEMS devices for high-performance and innovative applications.

What is MEMS engineering?

MEMS engineering involves the design, fabrication, and testing of micro-electromechanical systems (MEMS), which are tiny devices that combine electrical and mechanical components at a microscale. MEMS are used in a variety of applications, including sensors, actuators, and microfluidic devices, commonly found in smartphones, automotive systems, medical devices, and more. MEMS engineers work on the development of these devices, utilizing specialized fabrication techniques and materials to create innovative solutions for a wide range of industries.

What is the difference between Mems Engineering vs Microfabrication Engineering?

AspectMems EngineeringMicrofabrication Engineering
Required CredentialsBachelor's or higher in Electrical, Mechanical, or Materials Engineering; often includes specialized MEMS coursesBachelor's or higher in Chemical, Materials, or Mechanical Engineering; includes microfabrication process knowledge
Work EnvironmentResearch labs, manufacturing facilities, R&D departmentsCleanrooms, fabrication facilities, R&D labs
Industry UsageDesign and develop MEMS devices like sensors and actuatorsDevelop microfabrication processes for various micro-scale devices

While both roles involve micro-scale technologies, Mems Engineering focuses on designing MEMS devices, whereas Microfabrication Engineering emphasizes developing fabrication processes. MEMS engineers often work on device integration, while microfabrication engineers optimize manufacturing techniques. Both roles are essential in industries like electronics, healthcare, and automotive, but they differ in their core focus and skill sets.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as petroleum engineering, software engineering, and certain aerospace engineering roles can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership responsibilities. High compensation often involves working in high-demand industries, holding advanced degrees, or obtaining professional certifications.

What are some typical challenges faced by MEMS engineers when transitioning prototypes to mass production?

MEMS engineers often encounter challenges such as scaling up fabrication processes, ensuring device reliability, and maintaining yield consistency during the transition from prototype to mass production. Small changes in design or materials can significantly impact performance at scale, so close collaboration with manufacturing teams and iterative testing are crucial. Additionally, MEMS engineers must consider packaging, testing, and integration with electronics, which can add complexity to the production process.

What does a MEMS engineer do?

A MEMS engineer designs, develops, and tests microelectromechanical systems (MEMS), which are tiny devices combining mechanical and electrical components. They work with tools like CAD software and fabrication processes such as lithography, often focusing on sensor or actuator development for applications in electronics, healthcare, or automotive industries.

How to become a MEMS engineer?

To become a MEMS engineer, one typically needs a bachelor's degree in electrical engineering, mechanical engineering, or a related field, with advanced roles often requiring a master's or Ph.D. in microfabrication or nanotechnology. Gaining experience with CAD tools, cleanroom processes, and MEMS fabrication techniques is essential, along with developing skills in design, testing, and characterization of microelectromechanical systems. Certifications or specialized training in MEMS fabrication can enhance job prospects in this field.

What engineers make $500,000?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and certain aerospace engineering roles can earn $500,000 or more annually, especially with experience, bonuses, and stock options. High-level positions often require advanced skills, certifications, and leadership responsibilities.
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Mems Engineering jobs near you
Infographic showing various Mems Engineering job openings in the United States as of June 2026, with employment types broken down into 100% Part Time. Highlights an 96% Physical, 3% Hybrid, and 1% Remote job distribution, with an average salary of $61,424 per year, or $29.5 per hour.

MEMS Integration Engineer

nEye.ai

Santa Clara, CA • Hybrid

$122K - $164K/yr

Full-time

Posted 11 days ago

Job description

nEye.ai, a well-funded optical switch startup, is poised to revolutionize the future of data centers. nEye's MEMS-based silicon photonics optical circuit switches (OCS) eliminate critical bottlenecks in AI processing by enabling direct optical connections among thousands of GPUs and memory units. The company's SuperSwitch is an ultra-low power consumption, high radix, compact chip-scale design, offering hyperscale data centers enhanced performance, efficiency, and scalability.
 
Job Overview
 
We are seeking a highly technical MEMS Integration Engineer to bridge the gap between our internal design engineering teams and external foundry partners.
 
This role requires a strong foundry process engineering background combined with the strategic oversight of a foundry manager. You will be responsible for owning the technical execution of product development, driving new product introduction (NPI), and ensuring the successful transfer of our Silicon Photonics and MEMS processes to high-volume manufacturing.
 
Your success will ensure seamless integration and alignment with nEye's device specifications, optimizing device performance, reducing unit costs, and maximizing wafer yield through continuous improvement.
Key Responsibilities
  • Product Development & Transfer: (1) Partner closely with design engineering and fabs to define, develop, and refine process flows for new MEMS products. (2) Oversee the end-to-end NPI lifecycle, from process transfer to external foundries, ensuring manufacturability and repeatability. (3) Act as the primary technical interface between nEye's design team and foundry integration engineers.
  • Foundry Process Engineering: (1) Design, document, and execute end-to-end MEMS process flows. You will integrate diverse modules (lithography, etch, thin films) into a cohesive fabrication sequence. (2) Develop and maintain rigorous process specifications, utilizing deep expertise in diverse fabrication modules including lithography, etch, and deposition to ensure seamless integration. (3) Wafer Bonding Implementation: Act as the Subject Matter Expert (SME) for back-end bonding technologies, including: anodic, fusion, eutectic, and hybrid bonding to achieve long-term hermeticity; Surface preparation and activation (plasma/chemical); Management of Thermal Expansion (CTE) mismatch and bond-induced stress. (4) TSV & 3D Integration: Lead the development and integration of Through-Silicon Vias (TSVs) for advanced device packaging. (5) Manage Foundry Tape-out activities, ensuring successful execution and alignment with project timelines. (6) Own the technical execution of the fabrication schedule, foundry activities and deliverables to ensure on-time wafer out. (7) Monitor Statistical Process Control (SPC) and address Out of Control (OOC) events immediately.
  • Yield & Failure Analysis: (1) Analyze metrology data (SEM, AFM, C-SAM, IR, profilometry) to identify failure modes in the bond interface (e.g., voids, delamination) and implement corrective actions. (2) Track, analyze, and report on key process and device performance metrics, identifying opportunities for performance uplift and process simplification. (3) Lead Root Cause Analysis (RCA) and 8D reporting for process deviations or hardware failures, working closely with foundry FA labs. (4) Drive Continuous Improvement Plans (CIP) to optimize device performance, reduce unit costs, and maximize wafer yield.
Required Experience
  • BS, MS, or PhD in Electrical Engineering, Mechanical Engineering, MEMS, Applied Physics, Materials Science, or a related technical field.
  • 5+ years of hands-on experience in foundry process engineering, MEMS, or CMOS process development and integration.
  • Product Experience: Proven track record managing tape-outs and taking products through the NPI lifecycle into high-volume manufacturing within a foundry environment.
  • Process Architecture: Proven track record of architecting and executing successful, end-to-end MEMS process flows. Must demonstrate the ability to balance thermal budgets and material compatibility across complex modules.
  • Advanced Wafer Bonding: Deep expertise in Wafer-to-Wafer (W2W) integration, including surface activation, alignment tolerances, and various bonding techniques (Fusion, Anodic, Eutectic, or Hybrid).
  • Experience with Through-Silicon Via (TSV) integration, Cavity SOI processing, and management of TSV-induced thermo-mechanical stress in bonded wafers.
  • Proficiency in SPC methodologies, yield analysis software, and a solid understanding of cleanroom practices.
  • Deep familiarity using AI tools (e.g., LLMs, copilots) to accelerate engineering workflows, debugging, and problem-solving.
Preferred Experience
  • Experience leading foundry-facing engineering initiatives.
  • Layout & DFM: Proficiency in L-Edit, Cadence, or KLayout.
  • Ability to lead Mask Floorplanning, including the strategic placement of Process Control Monitors (PCMs), alignment marks, and dicing streets.
  • Mastery of quality control methods, including 6-sigma, 8D, and FMEA.
  • Ability to thrive in a fast-paced, "zero-to-one" startup environment with minimal supervision.
$150,000 - $210,000 a year
Starting salary and title will depend on, and be commensurate with, relevant experience, skills, training, education, market demands, and the ultimate job duties and requirements.
nEye.ai is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, age, sex, sexual orientation, gender identity, national origin, disability, protected veteran status, or any other characteristic protected by law.
 
We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.
We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses and identifying potential inconsistencies or verification signals in application materials based on available information. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.
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