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Electrical Systems Engineer Jobs in Florida (NOW HIRING)

Electrical Systems Installer

Orlando, FL ยท On-site

$19 - $26/hr

Under specific supervision, performs routine installation and checkout on a variety of systems utilizing electrical codes, company procedures, engineering drawings, and analysis. Works with "Prime ...

Electrical Systems Installer

Orlando, FL ยท On-site

$19 - $26/hr

... of systems utilizing electrical codes, company procedures, engineering drawings, and analysis ... Provides feedback to JCI Engineering on changes and keeps as-built drawings current. 7. Resolves ...

Electrical Systems Installer

Orlando, FL ยท On-site

$19 - $26/hr

... of systems utilizing electrical codes, company procedures, engineering drawings, and analysis ... Provides feedback to JCI Engineering on changes and keeps as-built drawings current. 7. Resolves ...

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Electrical Engineer

Saint Petersburg, FL ยท On-site

$75K - $85K/yr

Knowledge of control systems, power distribution, electrical systems, motors and motor control ... Experienced in Electrical Systems Engineering. * Detail-oriented, organized, strong written ...

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Showing results 1-20

Electrical Systems Engineer information

See Florida salary details

$38.1K

$73.5K

$122.6K

How much do electrical systems engineer jobs pay per year?

As of Jul 15, 2026, the average yearly pay for electrical systems engineer in Florida is $73,480.00, according to ZipRecruiter salary data. Most workers in this role earn between $50,400.00 and $91,200.00 per year, depending on experience, location, and employer.

What is the difference between Electrical Systems Engineer vs Electrical Design Engineer?

AspectElectrical Systems EngineerElectrical Design Engineer
CredentialsBachelor's in Electrical Engineering; Professional Engineer (PE) often preferredBachelor's in Electrical Engineering; certifications like PE are common
Work EnvironmentSystems integration, testing, and troubleshooting in industrial, aerospace, or power sectorsDesigning electrical components and circuits, often in office or lab settings
Industry UsageUsed in industries requiring complex system integration like power, aerospace, and automationCommon in product development, manufacturing, and electronics industries

Electrical Systems Engineers focus on integrating and maintaining electrical systems within larger projects, while Electrical Design Engineers primarily develop electrical components and circuits. Both roles require similar credentials and often work in overlapping industries, but their core responsibilities differ in scope and focus.

What does an Electrical Systems Engineer do?

An Electrical Systems Engineer is responsible for designing, developing, and maintaining complex electrical systems used in various industries such as automotive, aerospace, energy, and manufacturing. Their work often involves creating system schematics, selecting appropriate components, integrating subsystems, and ensuring that all systems meet safety, reliability, and regulatory standards. They also perform system testing, troubleshooting, and may collaborate with other engineering teams to optimize system performance. This role requires strong analytical skills, knowledge of electrical theory, and proficiency with engineering software.

What are the key skills and qualifications needed to thrive as an Electrical Systems Engineer, and why are they important?

To thrive as an Electrical Systems Engineer, you need a solid background in electrical engineering principles, circuit design, and systems analysis, usually supported by a bachelor's degree in electrical engineering or a related field. Familiarity with industry-standard tools such as MATLAB, AutoCAD, and simulation software, along with certifications like Professional Engineer (PE), is often required. Strong problem-solving abilities, teamwork, and effective communication skills help you collaborate across disciplines and convey complex concepts. These skills and qualifications are vital for designing, implementing, and maintaining reliable electrical systems that meet safety and performance standards.

How does an Electrical Systems Engineer typically collaborate with other engineering disciplines during a project?

Electrical Systems Engineers frequently work alongside mechanical, civil, and software engineers to ensure seamless integration of electrical components within broader systems. Collaboration often involves regular design reviews, cross-functional meetings, and shared project management tools to address issues like system compatibility, safety standards, and project timelines. Effective communication and problem-solving skills are crucial, as these engineers must translate electrical requirements into actionable tasks for other teams while also accommodating constraints from other disciplines.
What cities in Florida are hiring for Electrical Systems Engineer jobs? Cities in Florida with the most Electrical Systems Engineer job openings:
Principal Electrical / Systems Engineer

Principal Electrical / Systems Engineer

Omega Medical Imaging LLC

Sanford, FL โ€ข On-site

$125K - $153K/yr

Full-time

Re-posted 11 days ago


Job description

Principal Electrical / Systems Engineer โ€” Interventional X-Ray Systems
Omega Medical Imaging โ€” Sanford, FL
Position Summary
Omega Medical Imaging is seeking a highly capable Principal Electrical / Systems Engineer to support the design, integration, troubleshooting, and continuous improvement of advanced interventional X-ray imaging systems. This role requires a naturally curious, hands-on problem solver who can move fluidly between board-level design, system-level debugging, production support, field service escalation, EMC troubleshooting, documentation, and supplier technical management.
This is not a narrow design-only position. The successful candidate will become one of Omegaโ€™s technical experts on interventional X-ray systems, helping support new product development, manufacturing, service, regulatory readiness, and legacy system sustainment.
Key Responsibilities
Electrical and Systems Engineering
  • Design, review, debug, and sustain electrical hardware for robotic interventional X-ray imaging systems.
  • Develop and troubleshoot analog, digital, mixed-signal, and embedded hardware designs.
  • Support PCB/CCA design, schematic capture, board layout review, bring-up, verification, and production release.
  • Design and troubleshoot FPGA/programmable logic functions using Verilog and/or VHDL.
  • Support interfaces involving detectors, generators, video management systems, motion/control subsystems, operator controls, I/O, and safety-related circuits.
  • Develop robust subsystem-level test strategies for circuit card assemblies and system-level integration.
  • Help transition designs from engineering prototype to production-ready configuration.

EMC / EMI / Regulatory Robustness
  • Diagnose and resolve EMC, EMI, grounding, shielding, filtering, and cabling issues.
  • Apply good design practices for medical electrical equipment, including noise immunity, leakage current awareness, isolation, grounding, and regulatory robustness.
  • Support EMC testing, pre-compliance troubleshooting, and design changes needed to pass regulatory testing.
  • Contribute to risk reduction and design documentation needed for medical device compliance.
Production and Field Service Support
  • Provide advanced technical support to manufacturing, test, and field service teams.
  • Act as a Tier 4 technical escalation resource for Field Service Engineers and internal technicians.
  • Troubleshoot urgent field and production issues involving interventional X-ray systems.
  • Communicate clearly with service personnel, technicians, engineers, suppliers, and leadership.
  • Teach and mentor others so that manufacturing and service teams become more self-sufficient.
  • Develop practical troubleshooting guides, work instructions, checklists, test procedures, and service documentation.
Debugger and Problem Solver
  • Serve as a high-level technical troubleshooter for complex product, production, and field issues.
  • Diagnose system-level failures involving hardware, firmware, cabling, grounding, noise, timing, communication, power, video, and subsystem interactions.
  • Use oscilloscopes, logic analyzers, spectrum analyzers, current probes, DMMs, protocol analyzers, and other lab tools to isolate root cause.
  • Lead structured root-cause analysis and corrective action for difficult or intermittent technical problems.
  • Remain composed when systems are down, information is incomplete, or the problem is not obvious.
Documentation, Test, and Supplier Support
  • Create clear, detailed, user-friendly engineering documentation, work instructions, checklists, and test procedures.
  • Design or support test fixtures for subsystem and circuit card verification.
  • Assist with verification, validation, design transfer, and production readiness activities.
  • Provide technical oversight for suppliers, including review and validation of hardware/software updates.
  • Support technical interface activities with key subsystem suppliers.

Required Qualifications
  • Bachelorโ€™s degree in Electrical Engineering or related technical discipline.
  • Significant hands-on experience in electrical design, system integration, and troubleshooting.
  • Strong analog and digital circuit design experience.
  • PCB schematic and layout experience.
  • Experience with board bring-up, circuit card troubleshooting, and design verification.
  • Experience with FPGA or programmable logic design using Verilog and/or VHDL.
  • Strong lab/debug skills using oscilloscopes, logic analyzers, DMMs, power supplies, current probes, and related tools.
  • Ability to diagnose complex system-level failures, not just isolated circuit issues.
  • Excellent written and verbal communication skills.
  • Ability to explain complex technical issues clearly to engineers, technicians, service personnel, and leadership.
  • Strong documentation discipline.

Preferred Qualifications
  • Experience with medical electrical equipment or regulated product development.
  • Experience with IEC 60601, EMC testing, safety testing, or medical device design controls.
  • Experience with interventional X-ray, fluoroscopy, imaging systems, detectors, generators, video systems, or motion/control systems.
  • Experience supporting production, field service, or customer-facing technical escalation.
  • Experience developing test fixtures, subsystem test procedures, and production test strategies.
  • Experience with EMI/EMC troubleshooting, grounding, shielding, filtering, and cable design.
  • Experience working with suppliers on technical issue resolution and validation of design updates.
Ideal Candidate Profile
The ideal candidate is:
  • Naturally curious and driven to understand how systems really work.
  • A master debugger who enjoys hard problems and does not stop at superficial answers.
  • Comfortable working from schematic to system level.
  • Calm and methodical when problems are urgent or ambiguous.
  • Strong enough technically to challenge assumptions, but humble enough to keep learning.
  • A clear communicator who can support Field Service Engineers, manufacturing technicians, suppliers, and leadership.
  • Willing to become a true subject-matter expert in interventional X-ray systems.
  • Equally comfortable designing new hardware, fixing legacy issues, writing a test procedure, helping a technician, or chasing an EMC problem.

Position Type
Full-time, on-site or primarily on-site engineering role due to the hands-on nature of system troubleshooting, lab work, production support, and medical imaging equipment integration.
Omega Medical Imaging, LLC is an Equal Opportunity Employer (EOE) and Drug-Free Workplace (DFW). Must be legally authorized to work in the U.S., sponsorship not available.
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