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Biomedical Engineer Jobs in Raleigh, NC (NOW HIRING)

Principal Electrical Engineer

Morrisville, NC · On-site

$130K - $159K/yr

We are a growing team of technology developers seeking candidates interested in helping advance our ... The ideal candidate brings deep expertise in biomedical sensing hardware, a track record of ...

Senior Electrical Engineer

Morrisville, NC · On-site

$100K - $131K/yr

Minimum Qualifications: * 5+ years of experience in electrical engineering, with significant focus on medical devices or biomedical sensing systems. * Demonstrated ability to independently lead and ...

Senior Electrical Engineer

Morrisville, NC

$100K - $131K/yr

Minimum Qualifications: * 5+ years of experience in electrical engineering, with significant focus on medical devices or biomedical sensing systems. * Demonstrated ability to independently lead and ...

The laboratory currently is host to world-class scientists and engineers, with advanced degrees in computer science, mathematics, electrical engineering, neuroscience, chemistry, biomedical ...

Senior Electrical Engineer

Morrisville, NC · On-site

$100K - $131K/yr

Minimum Qualifications: * 5+ years of experience in electrical engineering, with significant focus on medical devices or biomedical sensing systems. * Demonstrated ability to independently lead and ...

The laboratory currently is host to world-class scientists and engineers, with advanced degrees in computer science, mathematics, electrical engineering, neuroscience, chemistry, biomedical ...

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Biomedical Engineer information

See Raleigh, NC salary details

$39.9K

$92.2K

$136.1K

How much do biomedical engineer jobs pay per year?

As of Jul 10, 2026, the average yearly pay for biomedical engineer in Raleigh, NC is $92,155.00, according to ZipRecruiter salary data. Most workers in this role earn between $72,400.00 and $112,800.00 per year, depending on experience, location, and employer.

What engineers make $500,000?

Highly experienced biomedical engineers working in senior roles, management, or specialized fields such as medical device development can earn salaries approaching or exceeding $500,000 annually, especially with bonuses and stock options. Achieving this level typically requires advanced degrees, extensive experience, and leadership responsibilities within the industry.

What jobs does biomedical engineering get you?

Biomedical engineering graduates can pursue careers as biomedical engineers, designing medical devices, equipment, and software. They may work in hospitals, research labs, or manufacturing companies, often requiring knowledge of biology, engineering principles, and regulatory standards.

What type of jobs do biomedical engineers do?

Biomedical engineers design and develop medical devices, equipment, and software used in healthcare, such as imaging systems, prosthetics, and diagnostic tools. They often work in research labs, hospitals, or manufacturing environments, applying engineering principles to improve patient care and medical technology. Strong knowledge of biology, engineering, and computer skills are essential for these roles.

What are biomedical engineers?

Biomedical engineers are professionals who apply principles of engineering and biological sciences to design, develop, and maintain equipment, devices, computer systems, and software used in healthcare. They work to improve the quality and effectiveness of patient care by creating technologies such as artificial organs, medical imaging devices, and prosthetics. Biomedical engineers often collaborate with doctors, researchers, and other engineers to solve clinical problems and advance medical technology. Their work can be found in hospitals, research facilities, manufacturing companies, and regulatory agencies.

What Do Biomedical Engineers Do?

A Biomedical Engineer is an expert in the fields of medicine and biological sciences. They use their extensive knowledge base to develop different kinds of equipment and devices with the end goal of improving the effectiveness of patient care. Biomedical Engineers are critical thinkers and analysts. Their time is spent brainstorming solutions to medical problems and designing new devices, such as diagnostic machinery and even equipment for artificial body part generation. It is the job of a Biomedical Engineer to maintain the equipment they develop and to train other clinicians on proper usage and upkeep. In addition to the hands-on aspect of this career, Biomedical Engineers also dedicate time to researching medical dilemmas, studying up on biological discoveries, and assisting in the development of new scientific advances.

What are some common challenges biomedical engineers face when working on interdisciplinary teams?

Biomedical engineers frequently collaborate with professionals from diverse backgrounds, including clinicians, software developers, and regulatory specialists. One common challenge is effectively communicating technical concepts to non-engineers and aligning project goals across disciplines. Navigating differing priorities and timelines can also require strong project management and interpersonal skills. Emphasizing clear communication and a willingness to learn from other fields helps biomedical engineers successfully contribute to innovative healthcare solutions.

What is the difference between Biomedical Engineer vs Mechanical Engineer?

AspectBiomedical EngineerMechanical Engineer
Required CredentialsBachelor's in Biomedical Engineering or related field; often licensed or certifiedBachelor's in Mechanical Engineering; licensure varies by role
Work EnvironmentHospitals, medical device companies, research labsManufacturing, automotive, aerospace, research facilities
Industry UsageHealthcare, medical device development, biotechAutomotive, aerospace, energy, manufacturing

Biomedical Engineers focus on designing and improving medical devices and healthcare solutions, working mainly in healthcare settings. Mechanical Engineers have a broader scope, working on machinery, systems, and products across various industries. While both roles require engineering degrees, their work environments and industry applications differ significantly.

What exactly do biomedical engineers do?

Biomedical engineers design, develop, and test medical devices, equipment, and software used in healthcare. They often work in laboratories or clinical settings, applying principles of engineering and biology to improve patient care and medical technology. Skills in electronics, materials science, and computer programming are commonly used in this field.

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

To thrive as a Biomedical Engineer, you need a solid background in biology, engineering principles, mathematics, and often at least a bachelor's degree in biomedical engineering or a related field. Familiarity with CAD software, medical imaging systems, and regulatory standards such as FDA guidelines is typically required. Strong problem-solving, communication, and teamwork skills help you collaborate with healthcare professionals and translate technical solutions into clinical practice. These competencies are crucial for developing safe, effective medical devices and technologies that improve patient outcomes.
What are the most commonly searched types of Biomedical Engineer jobs in Raleigh, NC? The most popular types of Biomedical Engineer jobs in Raleigh, NC are:
What cities near Raleigh, NC are hiring for Biomedical Engineer jobs? Cities near Raleigh, NC with the most Biomedical Engineer job openings:
Infographic showing various Biomedical Engineer job openings in Raleigh, NC as of July 2026, with employment types broken down into 50% Full Time, and 50% Contract. Highlights an 100% In-person job distribution, with an average salary of $92,155 per year, or $44.3 per hour.
Principal Electrical Engineer

Principal Electrical Engineer

NIRSense Inc

Morrisville, NC • On-site

$130K - $159K/yr

Full-time

Re-posted 11 days ago


Job description

About the Company:
NIRSense is a cardiology company focused on developing world-leading non-invasive medical devices. Our tools measure oxygenation changes in the body 10x deeper than typical pulse oximetry and track the electrophysiological activity of muscles and the brain. We are a growing team of technology developers seeking candidates interested in helping advance our capabilities for a wide range of interested stakeholders who are driven to transform the way humans understand and interact with their own health.
Job Summary:
NIRSense is seeking an experienced principal-level electrical engineer to serve as a technical leader within our growing engineering and scientific team in its Morrisville, NC office. This person will own and drive the complex hardware development efforts across NIRSense's product portfolio, working closely with a multi-disciplinary team of engineers to design and develop cutting-edge electronic circuits and systems for non-invasive medical devices. The ideal candidate brings deep expertise in biomedical sensing hardware, a track record of independently delivering sophisticated miniaturized systems, and the ability to mentor and elevate the engineers around them.
Please note this position is onsite, with flexibility.
Minimum Qualifications:
  • 10+ years of experience in electrical engineering, with significant focus on medical devices or biomedical sensing systems.
  • Demonstrated ability to independently lead and deliver complex medical device hardware development projects from concept through design verification and validation.
  • Deep hands-on expertise with design and integration of electrical components of miniaturized medical device systems such as PCBs, PCB components, batteries, and light-emitting and detecting systems.
  • Expertise in mixed-signal circuit design for physiological sensing, including signal generators, amplifiers, filters, ADCs, and low-noise data acquisition systems.
  • Experience designing low-power architectures and battery management systems for body-worn medical devices.
  • Experience with EMC/EMI design practices and electrical safety standards (IEC 60601-1, IEC 60601-1-2).
  • Experience leading formal design reviews and presenting technical analyses to cross-functional stakeholders in a design-controlled environment.
  • Proficiency in PCB design tools (Altium Designer preferred), including rigid, flex, and rigid-flex designs for space-constrained wearable form factors.
  • Strong technical writing skills, with experience authoring design documentation for regulated environments.
  • Proven ability to mentor engineers and elevate the technical quality of a team.
  • Experience managing PCB fabricator and contract manufacturer relationships, including vendor qualification and supply chain risk mitigation.
  • B.S. in Electrical or Biomedical Engineering or a related field.

Preferred Qualifications:
  • Knowledge of biosensing and electrical stimulation technologies and proficiency in hardware implementations of these technologies.
  • Experience with optoelectronic circuit design, including LED drivers, photodiode front-ends, and transimpedance amplifiers (TIAs).
  • Experience with mechanical-electrical integration for miniaturized wearable enclosures and collaboration with mechanical engineering teams.
  • Familiarity with C/C++ and embedded systems integration with BLE-enabled microcontrollers (e.g., Nordic nRF series) for wireless physiological data streaming.
  • Experience directing and reviewing work from external PCB layout and design contractors.
  • Experience designing medical wearable hardware for manufacturability (DFM) and testability (DFT), including development of test fixtures and validation systems.
  • Experience with design verification and validation (V&V) testing in a regulated medical device environment.
  • Experience supporting FDA regulatory submissions (e.g., 510(k), de novo) and familiarity with design controls under 21 CFR Part 820 or ISO 13485.
  • Experience with hardware FMEA and risk management per ISO 14971.

Job Responsibilities:
  • Serve as the technical lead on the miniaturized and ruggedized analog and mixed-signal electronics development efforts for medical physiological sensors, including EEG, ECG, and biophotonics-based systems.
  • Design low-power architectures, battery charging circuits, and power budgets for portable and wearable device platforms.
  • Design for safety and electromagnetic compatibility (EMC/EMI), conduct pre-compliance testing, and support formal EMC and electrical safety testing per IEC 60601-1 and IEC 60601-1-2.
  • Drive and lead design reviews with multi-disciplinary stakeholders, establishing rigorous engineering practices and collaborating closely with firmware, mechanical, and software engineers to ensure seamless system integration.
  • Independently manage relationships with PCB fabricators and assemblers; oversee BOM cost, sourcing risk, and component lifecycle to supply finished, high-quality electronics.
  • Lead test fixture design and manufacturing test strategy, from prototype PCB evaluation through design transfer and production yield optimization.
  • Author and review technical reports, maintain schematic libraries and design history files (DHF), and contribute hardware FMEA and risk management files (ISO 14971) to support regulatory submissions (510(k), de novo).
  • Mentor junior and senior engineers, providing technical guidance, design feedback, and career development support.
  • Report to the Electrical Engineering R&D Manager.

NIRSense logo

About NIRSense

Sourced by ZipRecruiter

Industry

Medical equipment and supplies manufacturing

Company size

11 - 50 Employees

Headquarters location

Richmond, VA, US

Year founded

2018