Today
Unspecified
Mid Level Career (5+ yrs experience)
No Traveling
Engineering - Systems
Seeking an Electromagnetic Environmental Effects (E3) engineers to team up and help lead the E3 design, development, and analysis of complex electronic products for space systems.
E3 engineering is the impact of the electromagnetic environment upon the operational capability of components, assemblies, equipment, subsystems, systems, and other space platforms. E3 covers all electromagnetic disciplines, including electromagnetic compatibility (EMC); electromagnetic interference (EMI); electromagnetic vulnerability (EMV); electromagnetic pulse (EMP); electrostatic discharge (ESD); electronic protection; hazards of electromagnetic radiation to personnel, ordnance, and volatile materials; and natural phenomena effects such as lightning and p-static.
Responsibilities:
• Electromagnetic Environmental Effects (E3) engineers must work across diverse engineering disciplines in support of multiple space system programs.
• To meet these challenges an E3 engineer must have a strong aptitude for learning new and exciting innovations and a strong E3 skill set.
• Writing, interpreting, allocating, tailoring, and flowing down E3 requirements to all design levels.
• Present at design reviews to internal and external customers regarding E3 issues.
• Writing E3 design guidelines, developing models and performing analyses on components, subsystems and systems using EMI principles.
• Designing ground systems, chassis and harness shielding, EMI filters, and selecting and laying out interface circuitry for achieving EMC.
• Prepare and review E3 test procedures, E3 test reports, E3 technical analyses, E3 control plans, and participate in cross discipline design reviews for EMC.
E3 engineering is the impact of the electromagnetic environment upon the operational capability of components, assemblies, equipment, subsystems, systems, and other space platforms. E3 covers all electromagnetic disciplines, including electromagnetic compatibility (EMC); electromagnetic interference (EMI); electromagnetic vulnerability (EMV); electromagnetic pulse (EMP); electrostatic discharge (ESD); electronic protection; hazards of electromagnetic radiation to personnel, ordnance, and volatile materials; and natural phenomena effects such as lightning and p-static.
Responsibilities:
• Electromagnetic Environmental Effects (E3) engineers must work across diverse engineering disciplines in support of multiple space system programs.
• To meet these challenges an E3 engineer must have a strong aptitude for learning new and exciting innovations and a strong E3 skill set.
• Writing, interpreting, allocating, tailoring, and flowing down E3 requirements to all design levels.
• Present at design reviews to internal and external customers regarding E3 issues.
• Writing E3 design guidelines, developing models and performing analyses on components, subsystems and systems using EMI principles.
• Designing ground systems, chassis and harness shielding, EMI filters, and selecting and laying out interface circuitry for achieving EMC.
• Prepare and review E3 test procedures, E3 test reports, E3 technical analyses, E3 control plans, and participate in cross discipline design reviews for EMC.
group id: asdinc
