Courses

Courses

Prescribed Courses (12 Credits)

  • E E 441 Semiconductor Integrated Circuit Technology (3) Prerequisites: E E 310, E SC 314.
    or
    E E 488 Power Systems Analysis I (3) Prerequisite: E E 387 or E E 485
  • E E 480 Linear Systems: Time Domain & Transformation Analysis (3) Prerequisite: graduate standing
  • E E 460 Communication Systems II (3) Prerequisite: E E 360
  • E E 594 Research Projects (1-3; 3 credits total)

Supporting Courses (21 Credits)

  • 400- or 500-level mathematics, computer science, or engineering course (6)
  • 500-level mathematics, computer science, or engineering course (3)
  • 500-level E E courses (12)

M. Eng. E E Courses

  • E E 410 - Linear Electronic Design (3) Prerequisite: E E 311
  • E E 413 - Power Electronics (3) Prerequisites: E E 310, E E 350
  • E E 420 - Electro-optics: Principles and Devices (3) Prerequisite: E E 320
  • E E 421 - Optical Fiber Communications (3) Prerequisites: E E 350, E E 320, E SC 314
  • E E 430 - Principles of Electromagnetic Fields (3) Prerequisite: E E 330
  • E E 432 - UHF and Microwave Engineering (3) Prerequisites: E E 330, E E 310
  • E E 438 - Antenna Engineering (3) Prerequisite: E E 330
  • E E 441 - Semiconductor Integrated Circuit Technology (3) Prerequisite: E E 310E SC 314
  • E E 442 - Solid State Devices (3) Prerequisites: E E 310, E SC 314
  • E E 453 - Fundamentals of Digital Signal Processing (3) Prerequisite: E E 351 or E E 352 or E E 353
  • E E 456 - Introduction to Neural Networks (3) Prerequisite: CMPSC 201 or CMPSC 202MATH 220
  • E E 458 - Digital Image Processing and Computer Vision (3) Prerequisite: E E 352

Prescribed Courses (12 Credits)

  • E E 441 Semiconductor Integrated Circuit Technology (3) Prerequisites: E E 310, E SC 314.
    or
    E E 488 Power Systems Analysis I (3) Prerequisite: E E 387 or E E 485
  • E E 480 Linear Systems: Time Domain & Transformation Analysis (3) Prerequisite: graduate standing
  • E E 460 Communication Systems II (3) Prerequisite: E E 360
  • E E 594 Research Projects (1-3; 3 credits total)

Supporting Courses (21 Credits)

  • 400- or 500-level mathematics, computer science, or engineering course (6)
  • 500-level mathematics, computer science, or engineering course (3)
  • 500-level E E courses (12)

M. Eng. E E Courses

  • E E 410 - Linear Electronic Design (3) Prerequisite: E E 311
  • E E 413 - Power Electronics (3) Prerequisites: E E 310, E E 350
  • E E 420 - Electro-optics: Principles and Devices (3) Prerequisite: E E 320
  • E E 421 - Optical Fiber Communications (3) Prerequisites: E E 350, E E 320, E SC 314
  • E E 430 - Principles of Electromagnetic Fields (3) Prerequisite: E E 330
  • E E 432 - UHF and Microwave Engineering (3) Prerequisites: E E 330, E E 310
  • E E 438 - Antenna Engineering (3) Prerequisite: E E 330
  • E E 441 - Semiconductor Integrated Circuit Technology (3) Prerequisite: E E 310E SC 314
  • E E 442 - Solid State Devices (3) Prerequisites: E E 310, E SC 314
  • E E 453 - Fundamentals of Digital Signal Processing (3) Prerequisite: E E 351 or E E 352 or E E 353
  • E E 456 - Introduction to Neural Networks (3) Prerequisite: CMPSC 201 or CMPSC 202MATH 220
  • E E 458 - Digital Image Processing and Computer Vision (3) Prerequisite: E E 352
  • E E 460 - Communication Systems II (3) Prerequisite: E E 360
  • E E 480 - Linear Systems: Time Domain and Transform Analysis (3) Prerequisite: graduate standing 
  • E E 481 - Control Systems (4) Prerequisite: E MCH 211PHYS 211E E 352
  • E E 483 – Introduction to Automation and Robotics Systems (3) Prerequisite: E E 481
  • E E 484 - Control System Design (3) Prerequisite: E E 481
  • E E 488 - Power Systems Analysis I (3) Prerequisite: E E 387 or E E 485
  • E E 489 - Power Systems Analysis II (3) Prerequisite: E E 488
  • E E 496 – Independent Studies (1-18)
  • E E 497 - Special Topics (courses vary from semester to semester; see ON-LINE SCHEDULE for current offerings)
  • MATH 414 (STAT 414) - Introduction to Probability Theory (3)  Prerequisite: MATH 230 or MATH 231
  • MATH 430 - Linear Algebra and Discrete Models I (3) Prerequisite: MATH 220
  • E E 500 - Colloquium (1)
  • E E 510 - Linear Integrated Circuits (3) Prerequisite: E E 441, E E 410
  • E E 520 - Electro Optics--Systems and Computing (3) Prerequisite: E E 420
  • E E 521 - Fiber Optics and Integrated Optics (3) Prerequisite: E E 421
  • E E 531 Engineering Electromagnetics (3) Prerequisite: E E 430
  • E E 534 - Conformal Antennas (3) Prerequisite: E E 538
  • E E 537 - Numerical and Asymptotic Methods of Electromagnetics (3)
  • E E 538 - Antenna Engineering (3) Prerequisite: E E 438
  • E E 541 - Manufacturing Methods in Microelectronics (3) Prerequisite: E E 441
  • E E 542 - Semiconductor Devices (3) Prerequisite: E E 442
  • E E 551 - Wavelets, Filter Banks and Multi-Resolution Analysis (3) Prerequisite: E E 453, MATH 220
  • E E 553 - Topics in Digital Signal Processing (3) Prerequisite: E E 453
  • E E 556 - Graphs, Algorithms and Neural Networks (3) Prerequisite: none
  • E E 560 - Probability, Random Variables and Stochastic Processes (3)   Prerequisite: E E 350,  STAT 418
  • E E 561 - Information Theory (3) Prerequisite: E E 460 or STAT 418
  • E E 562 - Detection and Estimation Theory (3) Prerequisite: E E 560
  • E E 568 - Digital Communications I (3) Prerequisite: E E 460; Prerequisite or Concurrent: E E 560
  • E E 580 - Linear Control Systems (3) Prerequisite: E E 380 
  • E E 581 - Optimal Control (3) Prerequisite: E E 580
  • E E 587 - Nonlinear Control And Stability (3) Prerequisite: E E 380 
  • E E 588 - Power Systems Control and Operation (3) Prerequisites: E E 488
  • E E 594 – Research Projects (1-3)
  • E E 596 – Individual Studies (1-9)
  • E E 597 - Special Topics (course names & numbers vary from semester to semester)
  • E E 600 - Thesis Research (1-15)
  • E MCH 524A - Mathematical Methods in Engineering (3) Prerequisite: MATH 250 or MATH 251

This page is not a part of the official Penn State University Bulletin.