The purpose of the position is to provide electrical design and systems engineering support to the development of advanced instrumentation for ground based and space borne astrophysical and astronomical research for various Central Engineering projects.
1. Uses knowledge of state-of-the-art to conceive, plan, and execute complex and varied assignments in the electrical engineering required to develop complex instrumentation for astrophysical and astronomical data collection; as well as for its associated test, calibration, and other support equipment.
1.1 Designs, and oversees development of complex state-of-the-art electrical/electronic systems, subsystems, modules, and components. Provides expert technical consultation to SAO scientists and other engineering staff in instrument electrical design.
1.2 Translates scientific objectives into achievable hardware that exploits or extends state-of-the art, advances current technology, and works with scientific investigators to establish the electrical/electronic requirements of new projects. Analyzes scientific data collection requirements, translates these requirements into instrument performance characteristics, and develops instrument concepts and preliminary systems diagrams.
1.3 Performs critical trade-off analyses of various design implementations. Makes and documents recommendations for optimum methods considering both known and anticipated operating environments.
1.4 Evaluates manufacturers’ performance capability data for commercial electronics components, subsystems, and systems for use in instruments and incorporates results into design decisions.
1.5 Prepares cost and schedule estimates for hardware design, fabrication, test, and calibration; including supporting documentation.
1.6. Extensively documents work in technical memoranda, reports, test plans, procedures and presentations.
1.7. Provides hands-on support of the build, test, and integration of new electrical/electronic hardware designs for instruments and supports existing instrument hardware in the field.
1.8 Provides support for the identification and procurement of components, subassemblies, and assemblies used in the implementation of instrument designs.
1.9 May serve as Lead Electrical Engineer on small to mid-sized projects.
2. Analyzes complex electronic systems problems encountered on CE projects, identifies and recommends solutions, and oversees their implementation.
3. Maintains a technical overview of the project in process. Provides technical leadership and direction to, and liaison with, hardware contractors and sub-contractors as required. Investigates, selects, justifies, and oversees procurement of critical electrical, electro-optical, and servo-mechanical components used in astrophysical instrumentation and its development.
4. Plans and directs the activities of technicians and designers in areas related to the design and fabrication of electronic assemblies, to establish goals and deadlines for development efforts, and to manage the resources required to accomplish these goals.
5. Makes both oral and written presentations to project scientists, project engineers, and technical representatives of contracting agencies and cooperating or affiliated organizations: Either singly or in collaboration with project scientists and other engineers, may write technical papers recording innovative design techniques and criteria, and present papers to technical symposia in the specialty field.
6.Travels, both domestically and internationally, to telescope sites, vendor facilities, NASA centers, and the facilities of other associated organizations in support of proposal, design, calibration, test, integration, and mission operations activities.
7. Performs other assignments as required.
Occasional travel - May travel both domestically and internationally
PART-TIME OR UNPAID EXPERIENCE: Credit will be given for appropriate unpaid work on the same basis as for paid experience. Part-time experience will be credited on the basis of time actually spent in appropriate activities. To receive credit for such experience you must indicate clearly the nature of the duties and responsibilities in each position held and the average number of hours per week spent in such employment.
BASIC REQUIREMENTS: Degree: professional engineering. To be acceptable, the curriculum must:
(1) be in a school of engineering with at least one curriculum accredited by the Accreditation Board for Engineering and Technology (ABET) as a professional engineering curriculum; 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.
a 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 professional 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. OR
Bachelor's degree in computer science or bachelor's degree with 30 semester hours in a combination of mathematics, statistics, and computer science. At least 15 of the 30 semester hours must have included any combination of statistics and mathematics that included differential and integral calculus. All academic degrees and course work must be from accredited or pre-accredited institutions. APPLICANT MUST LIST ALL COLLEGE COURSES.
In addition to meeting basic requirements, applicants must meet specialized experience. Specialized experience is defined above.