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Embedded Electronics-Associate Staff

Min Experience

5 years

Location

Lexington, MA, remote

JobType

full-time

About the job

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About the role

MIT Lincoln Laboratory sits at the intersection of academia, industry, and government. Our nationally-recognized staff work collaboratively to solve some of the nation's most challenging problems. As part of the Engineering Division, we team broadly across MIT Lincoln Laboratory and MIT campus to address a wide variety of problems through analysis, design, prototyping, and testing. Our teaming culture energizes our staff and fosters a high level of collaboration among a wide array of skills and experience levels. In addition, the group values work-life balance, using hybrid arrangements and flexible schedules to maximize productivity. Help us build highly impactful space prototypes for NASA, the DoD, and others! The Control and Autonomous Systems Engineering Group is dedicated to developing highly complex, reliable space systems with core capabilities in precision pointing, low noise and high-power electronics, firmware, and software. We have the unique ability to take programs from initial concept through full qualification, all within our group. Position Description In the Associate Staff role you will be an individual contributor on significant portions of space electronics programs that have huge impact for the nation. In this role you will contribute to the team's involvement in all phases of hardware development: requirement definition and functional decompositions, architecture studies, detailed circuit design and component selection, fabrication and assembly oversight, testing, troubleshooting and system integration. Therefore, hands on experience is critical to the role. Given the wide range of work in our Group, we seek the following attributes A MS in Electrical Engineering or BS degree with 5+ years of hands-on experience in designing electronics for the space environment in one or more of the following areas: Analog, Digital, Mixed-Signal, Power, FPGA, Single Board Computers. Experience with schematic capture and printed circuit board layout (e.g. Mentor Graphics, Altium, KiCAD, etc). Familiarity with radiation, screening and derating requirements for high-reliability, space-rated EEE components. Ability to perform Worst-Case Circuit Analyses for various types of electronic designs. Working knowledge of circuit simulation tools such as PSpice. Use of test equipment such as oscilloscopes, waveform generators, spectrum analyzers and logic analyzers for integration and hardware debugging. Excellent written, verbal communication skills and ability to work effectively with other team members. Exceptional candidates may also have experience in one or more of the following Experience with developing real-time embedded software in C++ using VxWorks (or similar) Real-Time Operating Systems. Working knowledge of Matlab, Python, Ruby or similar computing platforms to develop various tools and utilities to support hardware design and test efforts. Experience with FPGA firmware development using VHDL, Verilog or System Verilog to model, design, simulate, test and implement FPGA-based systems.

About the company

MIT Lincoln Laboratory sits at the intersection of academia, industry, and government. Our nationally-recognized staff work collaboratively to solve some of the nation's most challenging problems.

Skills

analog
digital
mixed-signal
power
fpga
single board computers
schematic capture
printed circuit board layout
radiation
screening
derating
worst-case circuit analyses
circuit simulation
test equipment
embedded software
c++
vxworks
matlab
python
ruby
fpga firmware
vhdl
verilog
system verilog