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Signals Electives
Signals Electives
SP4th->Signals Electives
Power Electives
Power Electives
Signals Electives->Power Electives
Control Electives
Control Electives
Power Electives->Control Electives
Communication Electives
Communication Electives
Control Electives->Communication Electives
Circuits Electives
Circuits Electives
Communication Electives->Circuits Electives
Computing Electives
Computing Electives
Circuits Electives->Computing Electives
MATH150 - 5 Calculus I - Fundamental concepts of calculus: limits, continuity, and derivatives. Mean Value Theorem of Calculus, integration techniques, and applications. Prerequisite: ALEKS PPL placement score of 76 or above or MATH 125 with C or better. [IAI course no. M1 900-1] NOTE: Counts for QR requirement (must be completed within first 60 hours)
MATH150
MATH152 - 5 Calculus II - Applications of integration; techniques of integration; improper integrals; polar coordinates; infinite sequences and series; and Taylor's theorem. Prerequisite: Undergraduate level MATH 150 Minimum Grade of C
MATH152
MATH150->MATH152
ECE210 - 0 to 3 Circuit Analysis I - DC and AC steady-state circuit analysis. Loop and nodal analysis, network theorems, phasors, complex power, single-phase and three-phase circuits. Prerequisite: Declared major in engineering discipline; [PHYS 151 or PHYS 211A], [PHYS 151L or PHYS 212A], MATH 150, and MATH 250 with minimum grades of C (concurrent enrollment allowed in MATH 250).
ECE210
MATH150->ECE210
ECE211 - 0 to 4 Circuit Analysis II - Time-domain transient analysis; complex frequency; frequency response; two-port networks; Laplace transform techniques; and impulse response and convolution. Three hours lecture and one laboratory session per week. Prerequisite: Declared major in an engineering discipline, ECE 210, MATH 150, MATH 152, MATH 250 and MATH 305 with minimum grade of C (concurrent enrollment allowed in MATH 305).
ECE211
MATH150->ECE211
IE106 - 3 Engineering Problem Solving - Fundamental steps of problem definition, formulation, and solution approaches universal in all engineering disciplines. Basic skills of reasoning and logic. Case studies and small projects. Prerequisite: None
IE106
CHEM131 - 4 Engineering Chemistry - Fundamental principles of chemistry especially for students planning careers in engineering fields. Concepts represent the basic principles of chemistry with emphasis on engineering applications. Prerequisites: High School chemistry and placement by ACT score; or placement by chemistry Readiness Exam; or successful completion of 113 and Math 120 or higher Math course.
CHEM131
CHEM135 - 1 Engineering Chemistry Lab - Chemical laboratory experiments with an emphasis on engineering applications. Laboratory safety practices, techniques, qualitative and quantitative analysis, chemical change and equilibria. One three-hour laboratory per week. Prerequisite: None
CHEM135
ENG101 - 3 English Composition I - Instruction and practice in analyzing and composing the academic expository essay. Prerequisite: (ACT Reading score of 21 or higher; or Reading score of 81 or higher; or Reading Placement test score of 39 or higher; or completion of AD 082 or AD 116 with a grade of C or better) AND (ACT English score of 21 or higher; or E-Write placement test score of 8 or higher and Writing Skills placement test score of 90 or higher; or Placement test Writing score of 5 or higher; or completion of AD 090A and AD 090B with a grade of C or better or completion of AD 092 with a grade of C or better). NOTE: Must be completed in first 30 hours.
ENG101
ENG102 - 3 English Composition II - Builds upon the analytical and writing skills developed in 101 with emphasis on argumentation and critical synthesis of information based on research. Prerequisite: Undergraduate level ENG 101 Minimum Grade of C
ENG102
ENG101->ENG102
PHYS141 - 3 Physics I for Engineering - Introductory calculus-based course for engineering students: Motion, kinematics, dynamics, Newton's Laws, applications; work; kinetic, potential energy, momentum; rotational dynamics, angular momentum; gravity; oscillations. Prerequisite: ACT Math 28 or Undergraduate level PHYS 140 Minimum Grade of C or Physics Readiness Exam Score 09 or MATH TEST SCORE 32.5
PHYS141
PHYS151L - 1 University Physics I Laboratory - Physics measurements; data analysis and presentation, error analysis. Velocity; acceleration; force and moments; work and kinetic energy, and fluids. Prerequisite: PHYS 151 and PHYS 211A with minimum grade of D (concurrent enrollment allowed in PHYS 151).
PHYS151L
PHYS141->PHYS151L
PHYS152 - 4 University Physics II - Bulk properties of matter; oscillations and waves; electric charge; electric fields; Gauss' law; potentials; circuits; magnetic fields; and electromagnetic waves. Prerequisite: Undergraduate level MATH 152 Minimum Grade of C and (Undergraduate level PHYS 151 Minimum Grade of C or Undergraduate level PHYS 211A Minimum Grade of C)
PHYS152
PHYS141->PHYS152
MATH305 - 3 Differential Equations I - First order ordinary differential equations, linear ordinary, differential equations of higher order, systems of first order linear equations, and applications. Prerequisite: Undergraduate level MATH 250 Minimum Grade of C and (Undergraduate level PHYS 151 Minimum Grade of C or Undergraduate level PHYS 141 Minimum Grade of C or Undergraduate level PHYS 211A Minimum Grade of C or Undergraduate level ME 492 Minimum Grade of C)
MATH305
PHYS141->MATH305
PHYS151L->PHYS141
MATH250 - 4 Calculus III - Vectors; dot and cross products; lines and planes in space; and vector-valued functions. Partial derivatives, gradient, extrema, and multiple integrals. Theorems of Green, Stokes, and Gauss. IAI Number: M1 900. Prerequisite: Undergraduate level MATH 152 Minimum Grade of C
MATH250
MATH152->MATH250
MATH152->ECE211
ACS103 - 3 Interpersonal Communication Skills - Principles and practices of oral communication emphasizing message formation and delivery; listening; perception; awareness of verbal and nonverbal codes; and managing conflict. [Skills, IGR] Prerequisite: None (NOTE: Must be taken within first 30 hours)
ACS103
CS145 - 3 Introduction to Computing for Engineers - Introduces C++ programming and basic problem solving. Focuses on computer applications in engineering, science and numeric methods. Prerequisite: Basic computer literacy.
CS145
ECE282 - 0 to 4 Digital Systems Design - Concepts and design of computer circuitry; binary number systems; study of microprocessors and assembly language programming. Introduction to Verilog HDL. Laboratory exercises involve circuit implementation and programming. Three lecture hours and one laboratory session per week. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level CS 140 Minimum Grade of C or Undergraduate level CS 145 Minimum Grade of C
ECE282
CS145->ECE282
PHYS152L - 1 University Physics II Lab - Physics measurements; data analysis and presentation; error analysis; thermal and bulk properties of matter; simple harmonic motion and waves; electromagnetism; simple circuits; and optics. Prerequisite: None
PHYS152L
PHYS152->PHYS152L
PHYS152L->PHYS152
ECE340 - 0 to 3 Engineering Electromagnetics - Introduction to engineering electromagnetics. Includes vector analysis, time-harmonic fields, electromagnetic wave propagation, transmission lines, waveguides, antennas. Declared major in engineering discipline. Prerequisite: (Undergraduate level PHYS 152 Minimum Grade of C or Undergraduate level PHYS 211B Minimum Grade of C) and (Undergraduate level PHYS 152L Minimum Grade of C or Undergraduate level PHYS 212B Minimum Grade of C) and Undergraduate level ECE 211 Minimum Grade of C and Undergraduate level MATH 305 Minimum Grade of C
ECE340
PHYS152L->ECE340
ECE210->MATH250
ECE210->ECE211
MATH250->ECE210
MATH250->ECE211
MATH250->MATH305
BFPA - 3 Breadth-Fine & Performing Arts
BFPA
ECE404 - 3 Electrical and Computer Engineering Design - Design overview, design methodologies, design considerations, and project communication. Students work in groups to complete the initial design of their capstone design project. Not for graduate credit. Prerequisite: Undergraduate level ECE 282 Minimum Grade of C and Undergraduate level ECE 351 Minimum Grade of C and (Undergraduate level ECE 375 Minimum Grade of C or Undergraduate level ECE 381 Minimum Grade of C)
ECE404
ECE282->ECE404
ECE485 - 3 Embedded Power Electronics Controllers - Practical approach to programming dedicated microprocessor systems, communication links, sensor signal conditioning, gate driver, inner and outer control loops, power startup, and user interface. Prerequisite: Undergraduate level ECE 282 Minimum Grade of C
ECE485
ECE282->ECE485
ECE477 - 3 Network Engineering - Principles and practices of network engineering with particular emphasis on the physical, data-link, and network layers as applied to telecommunication and computing systems. Prerequisite: Undergraduate level ECE 282 Minimum Grade of C
ECE477
ECE282->ECE477
ECE381
ECE381
ECE282->ECE381
ECE482 - 0 to 3 Microprocessor System - Design of microprocessor systems using VLSI building blocks. Several microprocessors and peripheral ICS studied laboratory experiments with microprocessor systems using logic analyzers. Three hours lecture and one laboratory session per week. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 282 Minimum Grade of C
ECE482
ECE282->ECE482
ECE483 - 0 to 3 Advanced Digital Systems Engineering - Design of digital systems using a hardware description language, and logic synthesis tools. Three hours lecture and one laboratory session per week. Prerequisite: Undergraduate level ECE 282 Minimum Grade of C
ECE483
ECE282->ECE483
ECE211->MATH305
ECE326 - 0 to 4 Electronic Circuits I - Introduction to semiconductors; diode, transistor and FET; small and large signal analysis; and logic gate families and design. Three hours lecture and one laboratory session per week. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 211 Minimum Grade of C and Undergraduate level MATH 305 Minimum Grade of C
ECE326
ECE211->ECE326
ECE351 - 3 Signals and Systems - Basics of continuous and discrete signals and systems. Convolution; Fourier analysis; filtering; modulation and sampling; and Z-transforms. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 211 Minimum Grade of C and Undergraduate level MATH 305 Minimum Grade of C
ECE351
ECE211->ECE351
ECE211->ECE340
MATH305->ECE211
MATH305->ECE326
MATH305->ECE351
MATH355 - 5 Engineering Mathematics - Linear algebra: Gaussian elimination, linear independence, vector spaces, eigenvalues; discrete mathematics including: combinations and graph theory; and complex analysis (differentiation, integration, and series). Prerequisite: Undergraduate level MATH 305 Minimum Grade of C
MATH355
MATH305->MATH355
MATH305->ECE340
ECON111 - 3 Principles of Macroeconomics - Measurement and determination of national economic activity including production, income, employment, and prices. Role of government policy in U.S. macroeconomy. Prerequisite: None
ECON111
EH - 0/2 Health Experience - BIOL203 or BIOL205 will fulfill BLS and Health Experience. Approved project activity will count too.
EH
ECE426 - 3 High Frequency Design - High frequency circuit design with elements of RF engineering. Amplifiers, oscillators, modulators, impedance matching, switching, signal integrity, and tuning. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 326 Minimum Grade of C
ECE426
ECE326->ECE426
ECE428 - 3 Analog Filter Design - Active and passive filter synthesis. Standard low-pass approximations: Butterworth, Chebyshev, Inverse Chebyshev, Cauer, Bessel and frequency transformations. Active and passive circuit implementations. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 351 Minimum Grade of C and Undergraduate level ECE 326 Minimum Grade of C
ECE428
ECE326->ECE428
ECE476 - 3 Electronic Circuits II - Small signal analysis, transistor amplifier design, frequency response, feedback system analysis, output stage design, signal generation and waveform shaping circuits. Three hour lecture and one hour laboratory session per week. Prerequisite: Undergraduate level ECE 326 Minimum Grade of C
ECE476
ECE326->ECE476
ECE484 - 3 Digital VLSI Design - Discussion of CMOS circuits, MOS transistor theory, CMOS processing technology, circuit characterization, and CMOS Circuit and Logic Design. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 326 Minimum Grade of C
ECE484
ECE326->ECE484
ECE352 - 3 Engineering Probability and Statistics - Probability; random variables and probability distributions; statistics; Monte-Carlo simulations; estimation theory; decision theory; hypothesis testing; random processes; and linear system response to random processes. Prerequisite: Declared major in an engineering discipline and ECE 351 with minimum grade of C or concurrent enrollment.
ECE352
ECE351->ECE352
ECE365 - 3 Control Systems - Mechanical and electrical systems modeling, signal flow graphs, state variable approach, root-locus approach, Bode ploys/Nyquist plots, frequency domain design and Proportional-Integral-Derivative (PID) controller turning methods. Prerequisite: Undergraduate level ECE 351 Minimum Grade of C
ECE365
ECE351->ECE365
ECE375 - 3 Introduction to Communications - Time- and frequency-domain analysis; and bandwidth, distortion, and noise. Baseband pulse transmission; sampling; pulse shaping. Digital and analog modulation techniques. Analysis of bit-error probability. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 351 Minimum Grade of C and Undergraduate level ECE 352 Minimum Grade of C
ECE375
ECE351->ECE375
ECE351->ECE404
ECE436 - 3 Digital Signal Processing - Discrete-time signals and systems; sampling; z-transforms; discrete Fourier transform; difference equations; design and implementation of digital filters; and DSP development systems. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 351 Minimum Grade of C
ECE436
ECE351->ECE436
ECE438 - 3 Image Analysis and Computer Vision - Image formation, geometrical and topological properties of binary images; image filtering; boundary detection; image segmentation; and pattern recognition. Two hours lecture and one laboratory session per week. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 351 Minimum Grade of C
ECE438
ECE351->ECE438
ECE439 - 3 Digital Image Processing - Fundamentals of human perception; sampling and quantization; image transforms; enhancement; and restoration and coding. Two hours lecture and one laboratory session per week. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 351 Minimum Grade of C
ECE439
ECE351->ECE439
ECE455 - 3 System Modeling & Optimization - Mathematical modeling of engineering systems; dynamic response of electrical and mechanical systems; and optimization models in electrical engineering. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 351 Minimum Grade of C
ECE455
ECE351->ECE455
ECE447 - 3 Radar Systems - Introduction to radar systems, including antenna fundamentals, radar equation, radar signals and systems, CW radar, FM-CW Radar, pulse radar, and tracking radar. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 340 Minimum Grade of C and Undergraduate level ECE 351 Minimum Grade of C
ECE447
ECE351->ECE447
ECE352->ECE351
ECE352->ECE375
BLS - 3 Breadth Life Science -
BLS
BICS - 3 Info & Communication in Society
BICS
TE - 3 Non ECE Tech Elective - CE 240, MATH 321, ME 310, PHYS 303 or any 3 credit hour 400 loevel course in Engineering (non ECE), Math, or Physics
TE
ECE341 - 0 to 4 Principles of Electro-Mechanical Energy Conversion - Basic electromagnetic concepts; energy-based torque and force and calculations; transformers; induction machines; synchronous machines; and DC machines. Three hours lecture and one laboratory session per week. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 340 Minimum Grade of C
ECE341
ECE340->ECE341
ECE340->ECE447
ECE465 - 3 Control Systems Design - Root-locus analysis; frequency-response analysis; design and compensation technique; describing-function analysis of nonlinear control systems; and analysis and design by state-space methods. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 365 Minimum Grade of C
ECE465
ECE365->ECE465
ECE466 - 3 Digital Control - Topics include finite difference equations; Z-transforms and state variable representation; analysis and synthesis of linear sampled-data control systems using classical and modern control theory. Same as ME 466. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ME 450 Minimum Grade of C or Undergraduate level ECE 365 Minimum Grade of C
ECE466
ECE365->ECE466
ECE375->ECE404
ECE475 - 3 Communication Systems - Digital transmission through band-limited channels; optimum receiver principles; symbol synchronization; channel capacity and coding; Bandpass digital modulation; and case studies of communication systems. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 375 Minimum Grade of C
ECE475
ECE375->ECE475
ECE ELECTIVE1
ECE ELECTIVE1
ECE ELECTIVE2
ECE ELECTIVE2
ECE445 - 3 Power Distribution System - Distribution system planning; load characteristics; application of distribution transformers; design of distribution system; voltage-drop and power-loss calculations; voltage regulation; and protection and reliability. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 341 Minimum Grade of C
ECE445
ECE341->ECE445
ECE446 - 3 Power System Analysis - Synchronous machines; power transformers; transmission lines; system modeling; load-flow study; economic operation of power systems; symmetrical components; symmetrical and unsymmetrical faults; and power system stability. Student must be a declared major in an engineering discipline. Prerequisite: Undergraduate level ECE 341 Minimum Grade of C
ECE446
ECE341->ECE446
ECE405
ECE405
ECE404->ECE405
PHIL323 - 3 Engineering, Ethics, and Professionalism - Safety, liability, codes, employment relations, public responsibility, and other professional engineering issues are addressed, employing methods of argument analysis, evaluation, and construction. Prerequisite: None
PHIL323
ECE ELECTIVE3
ECE ELECTIVE3
ECE ELECTIVE4
ECE ELECTIVE4
IE345 - 3 Engineering Economic Analysis - Introduction to engineering cost and decision analysis. Utilizing principles of economic analysis for choice of engineering alternatives and engineering systems. Requires upper division standing in engineering or consent of instructor. Prerequisite: None
IE345
IS - 3 Interdisciplinary Studies
IS
ECE427 - 3 Knowledge-Based Systems - Engineering-oriented perspective on artificial intelligence (AI) technology. General AI concepts specifically knowledge-based (expert) systems applied to engineering problem-solving. Student must be a declared major in electrical and computer engineering, and have knowledge of one of the familiar computer programming languages (BASIC, C, Fortran or Pascal). Prerequisite: None
ECE427
ECE433 - 3 Fuzzy Logic and Applications - Fundamentals of fuzzy sets, basic operations, fuzzy arithmetic, and fuzzy systems. Examples of applications in various fields of engineering and science. Student must be a declared major in an engineering discipline Prerequisite: None
ECE433
ECE441 - 3 Finite Element Analysis and Design of Electrical Machines - Practical design of electrical machines based on finite element analysis. Prerequisite: None
ECE441
ECE444 - 3 Power Electronics - Basics of DC/DC and DC/AC conversion, inductors, transformers, switching characteristics of semiconductor devices, elements of electromagnetic compatibility. Prerequisite: None
ECE444
ECE467 - 3 Robotics-Dynamics and Control - (Same as ME 454 and MRE 454) Robotics; robot kinematics and inverse kinematics; trajectory planning; differential motion and virtual work principle; and dynamics and control. Student must be a declared major in an engineering discipline and obtain the consent of the instructor. Prerequisite: None
ECE467
ECE Core Courses: 40 hours
ECE Electives: 12 hours
Math/Science: 38 hours
Non-ECE Engineering: 12 hours
Others: 26 hours
Legend
ECE Dependency Chart - 2018
tyork - 12Sep2018