Airborne Electronic Attack Systems Engineer
Introduction: The Johns Hopkins University Applied Physics Laboratory (APL), a national leader in scientific research and development, located midway between Baltimore and Washington, DC is seeking a Airborne Electronic Attack Systems Engineer.
Job Summary: Participate in system engineering aspects of the development of next-generation airborne electronic attack systems.
- Provide systems engineering expertise and develop system requirements for next-generation electronic warfare subsystems and components for Air Force and Navy offensive and defensive electronic attack systems. Key subsystems include transmit and receive antennas, high power RF amplifiers, electronic support measures receivers, and waveform generators. (30%)
- Support trade studies that analyze and compare airborne electronic attack system concepts and technology alternatives in terms of effectiveness, cost, and risk. Support the use of models and simulations to quantify the effectiveness of electronic attack systems against RF and IR threats in operational environments. (30%)
- Perform threat vulnerability analysis and threat characterization in support of electronic warfare system development and operational use of electronic warfare platforms and systems. (20%)
- Participate in all aspects of open-air testing of electronic attack systems against RF and IR threats. This includes pre-test planning and analysis, on-site participation in testing, post-test analysis, and documentation and reporting. (20%)
Note: This job summary and listing of duties is for the purpose of describing the position and its essential functions at time of hire and may change over time.
Required Qualifications: B.S. degree in Electrical Engineering, Mathematics, Physics, Computer Science, or other related discipline with four or more years of relevant experience in RF systems engineering and analysis and development of RF subsystems. Ability to work as a team with numerous engineers and various levels of experience and technical skills. Effective communicator, both written and orally.
Desired Qualifications: M.S. degree in Electrical Engineering, Mathematics, Physics, Computer Science, or other engineering discipline. Knowledge of key subsystems, including transmit and receive antennas, high power RF amplifiers, electronic support measures receivers, and waveform generators, threat radar and weapon systems that comprise the threat IADS. Experience with operational aspects of electronic warfare. Knowledge of jammer system control and signal processing algorithms and of "precision" passive detection and tracking concepts.
Special Working Conditions: Position will require approximately 10% local and out of town travel to government and contractor facilities and special test ranges.
Security: TS/SCI Clearance is required. Applicants selected will be subject to a Government security investigation and must meet the eligibility requirements for an SSBI and access to Sensitive Compartmented Information. Preference for current SSBI. Eligibility requirements include US citizenship.
Benefits: APL offers a comprehensive benefits package including a liberal vacation plan, a matching retirement program, significant educational assistance, a scholarship tuition program for staff with dependents, and competitive salaries commensurate with skills and experience. For more information about our organization, please visit our web site at www.jhuapl.edu.
Equal Employment Opportunity: Equal Employment Opportunity: Johns Hopkins University/Applied Physics Laboratory (APL) is an Equal Opportunity/Affirmative Action employer that complies with Title IX of the Education Amendments Acts of 1972, as well as other applicable laws. All qualified applicants will receive consideration for employment without regard to race, color, religion, sexual orientation, gender identity, national origin, disability, or protected Veteran status.
Meet Some of Johns Hopkins Applied Physics Laboratory's Employees
Lead RF Systems Engineer
Mary Ann builds prototypes and integrates software and hardware communications in order to create complete systems for APL contracts and projects. She also collaborates with her team to fix software issues.
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