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Electronic Engineering Jobs (NOW HIRING)

SunSource

Electronic Engineering Technician

Batavia, IL ยท On-site

The Electronic Engineering Technician is also responsible for helping to cross over old and obsolete parts for technicians, working on legacy products, helping to specify and recommend test equipment ...

Amentum

C4I Electronic Engineering Technician

Groton, CT ยท On-site

$24.43/hr

Amentum is seeking a C4I Electronic Engineering Technician in Groton, Connecticut. Essential Responsibilities: * Drawing Reviews * System Operability Verification Test (SOVT) Support * Site ...

Pae

C4I Electronic Engineering Technician

Portsmouth, NH ยท On-site

$25.04/hr

Amentum is seeking a standout electronic engineering expert who wants to shape the future of submarine communications. If you are a former submariner, AIT Lead, or an experienced Technician with ...

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Electronic Engineering information

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$31.5K

$92.3K

$144K

How much do electronic engineering jobs pay per year?

As of Jun 27, 2026, the average yearly pay for electronic engineering in the United States is $92,343.00, according to ZipRecruiter salary data. Most workers in this role earn between $67,000.00 and $116,500.00 per year, depending on experience, location, and employer.

What is the job of an electronics engineer?

An electronics engineer designs, develops, tests, and maintains electronic systems and components such as circuits, devices, and communication equipment. They often work with tools like circuit schematics, simulation software, and testing instruments, and may need relevant certifications or knowledge of industry standards. Their work environment can include laboratories, manufacturing facilities, or office settings, depending on the project.

What are some typical challenges electronic engineers face when working on multidisciplinary teams?

Electronic engineers often collaborate closely with mechanical engineers, software developers, and project managers. One common challenge is ensuring seamless integration between electronic components and other system parts, which requires clear communication and thorough documentation. Additionally, balancing design constraints such as cost, manufacturability, and performance can be complex when multiple disciplines are involved. Staying adaptable and proactive in cross-functional meetings helps electronic engineers contribute effectively to team success.

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

To thrive as an Electronic Engineer, a solid background in electronics theory, circuit design, and a degree in electronic or electrical engineering are essential. Familiarity with industry-standard tools such as MATLAB, SPICE, PCB design software, and relevant certifications like IEEE membership are highly valued. Problem-solving abilities, attention to detail, and effective teamwork are crucial soft skills that set top performers apart. These skills and qualifications ensure engineers can design reliable electronic systems, innovate solutions, and collaborate effectively in technology-driven environments.

What kind of jobs do electronic engineers do?

Electronic engineers design, develop, test, and supervise the manufacturing of electronic devices and systems such as communication equipment, medical instruments, and consumer electronics. They often work with circuit design, embedded systems, and use tools like CAD software, requiring knowledge of electronics principles and certifications like EIT or PE in some regions.

What is the difference between Electronic Engineering vs Electrical Engineering?

AspectElectronic EngineeringElectrical Engineering
FocusDesign and development of electronic circuits, devices, and systemsGeneration, transmission, and distribution of electrical power
Work EnvironmentElectronics labs, manufacturing facilities, R&D centersPower plants, electrical substations, industrial sites
Common CertificationsIEEE certifications, professional engineer licenseIEEE certifications, professional engineer license

Electronic Engineering primarily focuses on designing electronic circuits and devices, while Electrical Engineering deals with power systems and electrical infrastructure. Both fields share similar credentials and often work in overlapping environments, but their core applications differ significantly.

What is electronic engineering?

Electronic engineering is a branch of engineering that focuses on the design, development, and testing of electronic circuits, devices, and systems. It covers a wide range of technologies, including semiconductors, microprocessors, telecommunications, control systems, and embedded systems. Electronic engineers work on everything from consumer electronics and medical devices to industrial automation and communication networks. Their work is crucial for the advancement of modern technology and innovation.

What engineers make $300,000 a year?

Senior electrical and electronics engineers with extensive experience, specialized skills, and advanced certifications can earn $300,000 or more annually, especially in high-demand industries like aerospace, defense, or semiconductor manufacturing. These roles often require advanced degrees, leadership responsibilities, and proficiency with complex design tools and systems.

What jobs can you get with electronic engineering?

Electronic engineering graduates can pursue roles such as electronics engineer, embedded systems engineer, telecommunications engineer, control systems engineer, and hardware design engineer. These positions typically require knowledge of circuit design, programming, and testing, often using tools like CAD software and simulation programs.
More about Electronic Engineering jobs
What cities are hiring for Electronic Engineering jobs? Cities with the most Electronic Engineering job openings:
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What job categories do people searching Electronic Engineering jobs look for? The top searched job categories for Electronic Engineering jobs are:
Electronic Engineering jobs near you
Infographic showing various Electronic Engineering job openings in the United States as of June 2026, with employment types broken down into 89% Full Time, 7% Part Time, and 4% Contract. Highlights an 88% Physical, 3% Hybrid, and 9% Remote job distribution, with an average salary of $92,343 per year, or $44.4 per hour.
Electrical/Electronic Engineering

Electrical/Electronic Engineering

McLaughlin Research Corporation

Keyport, WA โ€ข On-site

Full-time

Posted 6 days ago

Job description

Job Title
Electrical/Electronic Engineering
Location
KEYPORT, WA 98345 US (Primary)
Job Type / Status
Full-Time
Education
Bachelor's Degree
Clearance Level Required
Secret
Job Description
McLaughlin Research Corporation (MRC) is hiring engineers to support four major departments of the Naval Undersea Warfare Center (NUWC) Division, Keyport WA. MRC provides engineering support services for work occurring in the Test and Evaluation Department (Code 20); the Undersea Weapons Department (Code 30); the Undersea Systems & Sustainment Engineering Department (Code 40), and the Unmanned and Theater Undersea Warfare Systems Department (Code 50). This work includes Test, Training, and Evaluation (TT&E) of Undersea Warfare (USW) systems and operational readiness assessment support; repair services for mechanical, electro-mechanical, and electronics systems, assemblies, and components; engineering, production, and test services for assemblies, technical data, and components of varying complexity and life-cycle support of combat and weapon systems.
This position will involve Electrical/Electronic engineering and technical support required across several departments of the Naval Undersea Warfare Center (NUWC) Division, Keyport Washington:
  • CODE 20: Test & Evaluation (T&E) Department: This Department plans, organizes, directs and controls NUWC Division Keyport's capabilities in Undersea Warfare T&E, performance assessment, and assurance capabilities for acquisition and Fleet customers.
  • CODE 30: Undersea Weapons Department: This Department plans, organizes, directs and controls NUWC Division Keyport's efforts in support of this Center's fielding and sustainment role for Weapon Systems. Provides In-Service Engineering Agent (ISEA), maintenance, and repair support for Anti-Submarine Warfare (ASW)and Undersea Warfare (USW) systems for U.S. Fleet and Foreign Military customers. Systems include in-service and developmental Heavyweight and Lightweight torpedoes, various Mine Systems, and other ASW/USW systems as assigned.
  • CODE 40: Undersea Systems & Sustainment Engineering Department: This Department plans, organizes, directs and controls NUWC Division Keyport's efforts to ensure Fleet Operational Readiness through Life-Cycle Support of Combat and Weapons systems. Provides ISEA and other Technical Authority functions as assigned including design, production, test, fielding, sustainment, and improvement modifications.
  • CODE 50: Unmanned and Theater Undersea Warfare Systems Department: This Department plans, organizes, directs and controls NUWC Division Keyport's efforts to accelerate the Navy's ubiquitous use of Unmanned Systems with a comprehensive suite of capabilities that sustain operational readiness and promote rapid integration of military utility into the fleet. Provides systems and project engineering leadership for assigned Integrated Warfare Systems technical programs. Provides ISEA and other Technical Authority (TA) functions as assigned including design, production, test, fielding, sustainment, and improvement modifications.

Job Requirements
  • Junior: A Bachelor of Science (BS) degree in Electrical/Electronic engineering, or higher, from an accredited college or university is desired.
  • Journeyman: A BS degree in Electrical/Electronic engineering, or higher, from an accredited college or university is desired. A minimum of four (4) years of experience in electrical engineering for complex systems, including design, development, integration, test, and deployment is desired. A master of science degree in an appropriate field may substitute for two years of experience.
  • Senior: A BS degree in Electrical/Electronic engineering, or higher, from an accredited college or university is desired. A minimum of seven (7) years of experience in electrical engineering for complex systems, including design, development, integration, test, and deployment is desired. A master of science degree in an appropriate field may substitute for two years of experience.

U.S. citizenship and eligibility for a security clearance required; current clearance a plus.

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