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Biomedical Rf Engineer Jobs in St Paul, MN (NOW HIRING)

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Biomedical Rf Engineer information

See St Paul, MN salary details

$37.4K

$119K

$185.1K

How much do biomedical rf engineer jobs pay per year?

As of Jun 8, 2026, the average yearly pay for biomedical rf engineer in St. Paul, MN is $119,019.00, according to ZipRecruiter salary data. Most workers in this role earn between $98,600.00 and $140,600.00 per year, depending on experience, location, and employer.

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

To thrive as a Biomedical RF Engineer, you need a solid background in electrical engineering, RF circuit design, and a thorough understanding of biomedical applications, often supported by a relevant engineering degree. Familiarity with simulation tools like HFSS, CST, and MATLAB, as well as knowledge of FDA or ISO regulatory standards, is typically required. Strong problem-solving abilities, attention to detail, and effective collaboration skills help distinguish top performers in this field. These competencies are crucial for developing safe, innovative biomedical devices that meet stringent performance and regulatory requirements.

What is the difference between Biomedical Rf Engineer vs Biomedical Signal Processing Engineer?

AspectBiomedical Rf EngineerBiomedical Signal Processing Engineer
Required CredentialsBachelor's or Master's in Biomedical Engineering, RF Engineering certificationsBachelor's or Master's in Biomedical Engineering, Signal Processing certifications
Work EnvironmentDesigning RF components, testing medical devices, working in labs or manufacturingAnalyzing medical signals, developing algorithms, working in research or clinical settings
Employer & Industry UsageMedical device companies, hospitals, research labsMedical device companies, research institutions, healthcare providers

The main difference between a Biomedical Rf Engineer and a Biomedical Signal Processing Engineer lies in their focus areas. The Biomedical Rf Engineer specializes in RF components and systems used in medical devices, while the Biomedical Signal Processing Engineer concentrates on analyzing and developing algorithms for medical signals. Both roles require a strong background in biomedical engineering but serve different functions within the healthcare technology industry.

What are Biomedical RF Engineers?

Biomedical RF Engineers are professionals who design, develop, and maintain radio frequency (RF) systems used in biomedical applications. This can include medical imaging devices like MRI machines, wireless patient monitoring systems, and other medical instruments that utilize RF technology. They work closely with medical professionals and researchers to ensure devices operate safely and effectively, comply with regulations, and meet the unique requirements of healthcare environments. Their role often involves troubleshooting, testing, and optimizing RF performance to support advancements in medical technology.

What are common challenges faced by Biomedical RF Engineers when integrating wireless technologies into medical devices?

Biomedical RF Engineers often encounter challenges such as ensuring electromagnetic compatibility, meeting strict regulatory standards, and minimizing interference with other medical equipment. These professionals must carefully design and test RF systems to operate reliably within the sensitive environment of healthcare facilities. Collaboration with multidisciplinary teams—such as clinicians, regulatory specialists, and device designers—is crucial to successfully address these issues and ensure patient safety.
What cities near St. Paul, MN are hiring for Biomedical Rf Engineer jobs? Cities near St. Paul, MN with the most Biomedical Rf Engineer job openings:
Biomedical Rf Engineer jobs near you

Principal Electrical Engineer

Enterra Medical, Inc.

Minneapolis, MN • On-site

$160K - $185K/yr

Full-time

Posted 3 days ago

Job description

Principal Electrical Engineer
St. Louis Park, MN
Job Summary
We are seeking an experienced Principal Electrical Engineer to lead the electrical design and development of next-generation active implantable medical devices (AIMDs). This role involves architecting complex analog, digital, and mixed-signal circuits while ensuring compliance with stringent medical device regulations. The ideal candidate will provide technical leadership and collaborate cross-functionally to translate clinical needs into manufacturable, high-performance products.
Key Responsibilities
  • Lead the design, development, prototyping, and testing of electrical hardware for implantable devices, including analog/mixed-signal circuits, low-power electronics, power management systems, and wireless communication interfaces (e.g., BLE, RF telemetry).
  • Architect system-level electrical designs, considering implantable constraints such as ultra-low power consumption, biocompatibility, miniaturization, hermetic packaging, and long-term reliability.
  • Perform circuit simulation, schematic capture, PCB layout oversight, and hardware verification/validation, including ISO14708 (e.g. EMC/EMI testing).
  • Conduct risk analyses (e.g., dFMEA), root cause investigations, and failure mode testing to ensure device safety and efficacy.
  • Collaborate with cross-functional teams (firmware, mechanical, systems, clinical, and quality engineering) to integrate electrical subsystems and support closed-loop therapies.
  • Drive compliance with medical device standards and regulations, including ISO 13485, ISO 14971, ISO14708, and IEC 60601 series.
  • Mentor and provide technical guidance to junior electrical engineers; lead design reviews and contribute to strategic technology roadmaps.
  • Support sustaining engineering for existing products, including troubleshooting, design improvements, and regulatory submissions.
  • Stay current with advancements in implantable electronics, such as custom ASIC development, battery technologies, and neuromodulation systems.
Qualifications
Required:
  • Bachelor's degree in Electrical Engineering, Biomedical Engineering, or a related field.
  • 10+ years of experience in electrical hardware design for active implantable medical devices (e.g., neurostimulators, pacemakers, defibrillators, cochlear implants, or similar Class III devices).
  • Expertise in analog and digital circuit design, low-power mixed-signal electronics, power electronics, and control systems.
  • Proven track record in medical device development, including full product lifecycle from concept to commercialization.
  • Strong knowledge of regulatory requirements for implantable devices and experience with design controls, verification/validation, and risk management.
Preferred:
  • Master's or Ph.D. in Electrical Engineering or related field.
  • Experience with neuromodulation, cardiac rhythm management, or closed-loop implantable systems.
  • Familiarity with ultra-low-power custom ASIC fabrication, wireless power transfer, or adaptive algorithms.
  • Experience and or understanding in embedded firmware design preferable
  • Experience leading technical teams, design reviews, FMEA sessions, or regulatory audits.
  • Proficiency in tools such as Altium, SPICE simulation, MATLAB/Simulink, or similar.
Skills and Competencies
  • Excellent problem-solving and analytical skills with a focus on reliability and patient safety.
  • Strong communication skills for cross-functional collaboration and technical documentation.
  • Ability to work in a fast-paced, regulated environment with attention to detail.

Compensation: $160,000-$185,000 DOE

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