The graduate will possess:
  1. Knowledge of probability and random processes, vector analysis, Boolean Algebra, Fourier series and transforms, discrete analysis and mathematics through differential equations.
  2. Knowledge of the fundamentals of elementary chemistry and physics, i.e., inorganic chemistry, energy bands, mechanics and electromagnetics.
  3. Knowledge of statics and the analysis of analog and digital circuits.
  4. Ability to analyze analog and digital systems, using PSpice, B2Logic and THRSim11.
  5. Knowledge of one or more of the following programming languages; assembly, MATLAB, SIMULINK, VHDL, C++ .
  6. Understanding and applications of their professional and ethical responsibility.
  7. Understanding of the global and societal implications of engineering design solutions.
  8. Ability to undertake the research necessary for class work and projects, reflecting an understanding of the need for and the commitment to life-long learning and self-education in the profession.
  9. Ability to interact effectively with other individuals and members of engineering teams.
  10. Ability to write effective technical reports.
  11. Ability to make effective technical presentations.
  12. Knowledge of proper use of typical laboratory instruments.
  13. Knowledge of the use of statistics and techniques of error analysis in data reduction and interpretation of experimental data.
  14. Ability to design experiments including formulating objectives, specifying experimental procedures and selecting instrumentation.
  15. Knowledge of design procedures using THRSim11 or ASIC.
  16. Ability to generate original design solutions that meet prescribed specifications and constraints.
  17. Ability to analyze and test designs to determine compliance with prescribed specifications and constraints.