Avionics Engineer

Vehicles

DESCRIPTION:  As part of a small team, you will be responsible for the overall development of the avionics (hardware and software) for various flight vehicles. This position includes both avionics systems tasks and hands-on design, development, and test tasks. The scope of the avionics includes:
 
  • Flight avionics hardware, including computing, signal conditioning and data acquisition, actuator control, RF communication, electrical and hydraulic power, and wire harness elements
  • Flight software, including hardware I/O interface, vehicle guidance, navigation, and control, fault tolerance, and Integrated Vehicle Health Management (IVHM) elements
  • Ground-support electronics hardware and software
 
Responsibilities
  • Avionics system engineering tasks, including requirements definition and verification; budget, schedule, and cost management; the development of test plans, procedures, and reports; and design documentation
  • Architectural development of flight and ground support avionics hardware and software systems
  • Avionics hardware procurement, including requirements definition, subcontractor management, and acceptance testing
  • The development of custom avionics hardware components, including design, functional and environmental testing, and flight hardware assembly support
  • The design of wiring harnesses and support for mechanical packaging of avionics hardware components
  • The development of flight and test FPGA code and software
  • The identification of opportunities for safety improvements and system and operational cost savings
 
QUALIFICATIONS:
Required
  • B.S. degree or higher in electrical or an appropriate engineering field
  • 5+ years of relevant experience in the design, development, testing, and operation of launch vehicles and subsystems
  • Demonstrated experience in the design of avionics hardware and software systems
  • Must be a U.S. citizen or permanent resident alien
Desired
  • Digital and analog circuit design, simulation, assembly, and test, with knowledge of design principles for non-laboratory environments
  • FPGA code (VHDL or Verilog) design, simulation, and test
  • High-level and low-level software design and test
  • The use of electronic test equipment and data acquisition systems
  • The development of automated test environments
  • Knowledge of systems engineering practices, integration processes, and quality control

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