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Protection And Control Engineer Jobs in Washington

Fire Protection Design Engineer

Rockville, MD · On-site +1

$84K - $114K/yr

... control analyses, and fire barrier qualification assessments. * Write and develop design ... Perform Systems Engineering processes for the designed fire protection systems and components.

Fire Protection Design Engineer

Rockville, MD · On-site

$84K - $114K/yr

... control analyses, and fire barrier qualification assessments. * Write and develop design ... Perform Systems Engineering processes for the designed fire protection systems and components.

Fire Protection Engineer III

Bethesda, MD · On-site

$88K - $119K/yr

The Fire Protection Engineer III is responsible for the design, review, support, and technical ... Perform quality control reviews and audits of field installations and service work * Support AHJ ...

Be Seen First

... control, code consulting, and special hazard suppression - across a broad mix of commercial ... Protection Engineering or closely related engineering field required - Minimum 5 years of ...

New

Conduct quality assurance and quality control on own projects and projects of peers. * Assist in ... Experience as a Qualified Fire Protection Engineer (QFPE) on Federal projects preferred. Registered ...

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Showing results 1-20

Protection And Control Engineer information

See Washington salary details

$76.5K

$133.7K

$208.4K

How much do protection and control engineer jobs pay per year?

As of Jul 12, 2026, the average yearly pay for protection and control engineer in Washington is $133,696.00, according to ZipRecruiter salary data. Most workers in this role earn between $116,100.00 and $147,200.00 per year, depending on experience, location, and employer.

What is the difference between Protection And Control Engineer vs Relay Technician?

AspectProtection And Control EngineerRelay Technician
CredentialsBachelor's degree in electrical engineering, relevant certificationsTechnical diploma or associate degree, specialized relay training
Work EnvironmentDesign, testing, and commissioning of protection systems in substations and power plantsInstallation, maintenance, and troubleshooting of relays on-site
Industry UsageUsed by utilities, power generation companies, and industrial plantsPrimarily employed by utilities and maintenance contractors
Search & Comparison IntentUnderstanding roles, qualifications, and responsibilities of protection engineersTechnical repair and maintenance of relays and protection devices

Protection And Control Engineers focus on designing, testing, and overseeing protection systems in power networks, requiring higher-level engineering credentials. Relay Technicians handle installation and maintenance of relays, often with technical diplomas. Both roles are essential in power systems but differ in scope, responsibilities, and qualifications.

How does a Protection and Control Engineer typically collaborate with other teams during a power system project?

Protection and Control Engineers work closely with various teams such as design, commissioning, operations, and maintenance throughout a project. They coordinate with design teams to ensure protection schemes align with system requirements, communicate with field engineers during installation and commissioning to address technical challenges, and collaborate with operations staff to resolve protection issues post-deployment. Effective communication and teamwork are essential, as these engineers often bridge the gap between theoretical design and practical implementation.

What are Protection and Control Engineers?

Protection and Control Engineers are specialized electrical engineers who design, implement, and maintain systems that protect electrical power grids and equipment from faults and failures. They develop relaying schemes, coordinate protection devices, and ensure the safe and reliable operation of substations and transmission lines. Their work helps prevent equipment damage, minimize power outages, and maintain the safety of utility workers and the public. Protection and Control Engineers often use advanced software tools for system analysis and relay settings, and they play a crucial role in integrating renewable energy sources into the grid.

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

To thrive as a Protection and Control Engineer, you need a strong background in electrical engineering principles, power systems, and typically a bachelor's degree in electrical engineering or a related field. Familiarity with industry standards, relay coordination software (like SEL, GE, or ABB), SCADA systems, and relevant certifications such as Professional Engineer (PE) licensure are commonly required. Effective problem-solving, attention to detail, and strong communication skills set outstanding engineers apart in this field. These competencies are essential for ensuring the safety, reliability, and efficiency of electrical power systems in utility and industrial environments.
What job categories do people searching Protection And Control Engineer jobs in Washington look for? The top searched job categories for Protection And Control Engineer jobs in Washington are:
What cities in Washington are hiring for Protection And Control Engineer jobs? Cities in Washington with the most Protection And Control Engineer job openings:
Infographic showing various Protection And Control Engineer job openings in Washington as of July 2026, with employment types broken down into 1% As Needed, 72% Full Time, 23% Part Time, 1% Temporary, and 3% Contract. Highlights an 89% Physical, 4% Hybrid, and 7% Remote job distribution, with an average salary of $133,696 per year, or $64.3 per hour.
Fire Protection Engineer

$107K/yr

Other

Posted 3 days ago

New


Job description

The Facilities Branch of the Finance and Facilities Division provides a range of facilities management and real estate support, logistic services, engineering and design, construction planning and management across multiple sections. These sections include the National Capital Region and Field Operations Support Sections in the Washington, DC area; Real Property Management Section, in Quantico, VA (FBI Academy); and Redstone Facilities Services Section in Huntsville, AL (FBI Redstone campus).Qualifications:GS-14: Applicant must possess at least one (1) year of SE equivalent to the GS-13 grade level. SE is defined as follows:
  • Experience in engineering principles and practices directly related to fire suppression methods, fire protection equipment (i.e., fire detection and alarm systems, sprinkler systems and other fire extinguishing systems, etc.), fire protection features (i.e., interior finishes, fire-rated construction, smoke control, etc.), and administrative work relating to fire protection and fire prevention programs.
  • Experience in correctly interpreting building and fire code requirements.
  • Experience in engineering principles and skills in interpreting engineering drawings and specifications sufficient to identify potential fire code violations (e.g., insufficient means of egress, inadequate fire-rated construction, etc.) in proposed activity sites.
Education:Positive Education Requirement
This position has a specific education requirement; all applicants must verify completion of this basic educational requirement by submitting a copy of their college transcripts by the closing date of the vacancy announcement.
Basic Requirements:
A. Degree: Engineering. To be acceptable, the program must: (1) lead to a bachelor's degree in a school of engineering with at least one program accredited by ABET; or (2) include differential and integral calculus and courses (more advanced than first-year physics and chemistry) in five of the following seven areas of engineering science or physics: (a) statics, dynamics; (b) strength of materials (stress-strain relationships); (c) fluid mechanics, hydraulics; (d) thermodynamics; (e) electrical fields and circuits; (f) nature and properties of materials (relating particle and aggregate structure to properties); and (g) any other comparable area of fundamental engineering science or physics, such as optics, heat transfer, soil mechanics, or electronics.
OR
B. Combination of education and experience - college-level education, training, and/or technical experience that furnished (1) a thorough knowledge of the physical and mathematical sciences underlying engineering, and (2) a good understanding, both theoretical and practical, of the engineering sciences and techniques and their applications to one of the branches of engineering. The adequacy of such background must be demonstrated by one of the following:
1. Professional registration or licensure - Current registration as an Engineer Intern (EI), Engineer in Training (EIT)1, or licensure as a Professional Engineer (PE) by any State, the District of Columbia, Guam, or Puerto Rico. Absent other means of qualifying under this standard, those applicants who achieved such registration by means other than written test (e.g., State grandfather or eminence provisions) are eligible only for positions that are within or closely related to the specialty field of their registration. For example, an applicant who attains registration through a State Board's eminence provision as a manufacturing engineer typically would be rated eligible only for manufacturing engineering positions.
2. Written Test - Evidence of having successfully passed the Fundamentals of Engineering (FE)2 examination or any other written test required for professional registration by an engineering licensure board in the various States, the District of Columbia, Guam, and Puerto Rico.
3. Specified academic courses - Successful completion of at least 60 semester hours of courses in the physical, mathematical, and engineering sciences and that included the courses specified in the basic requirements under paragraph A. The courses must be fully acceptable toward meeting the requirements of an engineering program as described in paragraph A.
4. Related curriculum - Successful completion of a curriculum leading to a bachelor's degree in an appropriate scientific field, e.g., engineering technology, physics, chemistry, architecture, computer science, mathematics, hydrology, or geology, may be accepted in lieu of a bachelor's degree in engineering, provided the applicant has had at least 1 year of professional engineering experience acquired under professional engineering supervision and guidance. Ordinarily there should be either an established plan of intensive training to develop professional engineering competence, or several years of prior professional engineering-type experience, e.g., in interdisciplinary positions. (The above examples of related curricula are not all-inclusive.)
Education completed in foreign colleges or universities may be used to meet the above requirements provided you can show foreign education is comparable to that received in an accredited educational institution in the United States.Employment Type: OTHER