EE 471 Microwave Engineering

1996-97 Catalog Data: 3 credits

Techniques for microwave measurements and communication system design, including transmission lines, waveguides, antennas and components. Corequisites EE 415 and EE 471L.

Textbooks:

Microwave Engineering, David M. Pozar, Addison Wesley, 1990.

Reference:

None.

Coordinator:

Gary Hancock, Professor of Electrical and Computer Engineering.

Goals:

To introduce students to microwave systems, components, devices and techniques. The wave propagation fundamentals studied in the Electromagnetics II course will be applied to wave guiding systems such as transmission lines and waveguides. Applications are stressed. Homework assignments and class projects include tasks in which engineering design trade-offs must be made. The course culminates in a final project which includes design, analysis, fabrication and test of a microwave filter.

Prerequisites by topic:
  1. Vectors
  2. Phasors
  3. Maxwell's equations
Topics:
  1. Review of Maxwell's equations including general plane wave and propagation in anisotropic media. (3 classes)
  2. Transmission line theory: Practical circuit models, Smith charts, lossy lines and slotted line measurements. (5 classes)
  3. Waveguides: Solution of the wave equation, mode excitation, design of waveguide-to-coax adaptors, attenuation calculations and power handling capability. (5 classes)
  4. Microwave network analysis: Scattering matrices and mulitport analysis techniques. (5 classes)
  5. Impedance Matching: Design of tuners and general matching networks including lumped elements, stubs and transmission line sections. (3 classes)
  6. Components: Theory of operation, practical design and implementation of power dividers, directional couplers and hybrids as well as system applications of these devices. (5 classes)
  7. Filters: Filter design and implementation. (5 classes)
  8. Active Circuits: Detectors, mixers, PIN diodes, and noise including practical design of PIN attenuators, modulators and limiters. (6 classes)
  9. Microwave Systems: Receiver and system noise figure calculations as well as link analysis. Engineering design formulas for antennas as well as end-to-end microwave system analysis. (5 classes)
  10. Tests. (2 classes)
Project:

In addition to homework assignments and in-class exams, this course includes a semester design project. The project involves the design (to specifications), analysis, fabrication and test of a microwave filter. The microwave measurements , which must be completed to determine if the component meets specifications, are performed during the accompanying EE 471L laboratory periods.

ABET Category Content:

Engineering science: 0.5 credit or 16.7%
Engineering design: 2.5 credits or 83.7%

Prepared by:

R. P. Jedlicka
Date: April 26, 1994
Maintained by eeoffice@nmsu.edu Last update 12-12-96
  • Tests. (2 classes)
    • Project:

     

    In addition to homework assignments and in-class exams, this course includes a semester design project. The project involves the design (to specifications), analysis, fabrication and test of a microwave filter. The microwave measurements , which must be completed to determine if the component meets specifications, are performed during the accompanying EE 471L laboratory periods.

     

    ABET Category Content:

     

    Engineering science: 0.5 credit or 16.7%
    Engineering design: 2.5 credits or 83.7%

     

    Prepared by:

     

    R. P. Jedlicka
    Date: April 26, 1994

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