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Detailed Course Information


Fall 2016 Semester
May 24, 2020
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EECE 2150 - Circuits and Signals: Biomedical Applications
Constitutes the lecture portion of an integrated lecture/lab. Covers circuit theory, signal processing, circuit building, and MATLAB programming. Introduces basic device and signal models and basic circuit laws used in the study of linear circuits. Analyzes resistive and complex impedance networks, including Thevenin equivalents. Uses the ideal operational amplifier model, focusing on differential amplifiers and active filter circuits. In the signal processing area, introduces the basic concepts of linearity and time-invariance for both continuous and discrete-time systems, as well as concepts associated with analog/digital conversion such as sampling and quantization. Demonstrates discrete-time linear filter design on acquired signals in the MATLAB environment. Prereq. GE 1111, MATH 2341, and PHYS 1155 (the latter two may be taken concurrently); electrical engineering, computer engineering, and related combined majors only. Coreq. EECE 2151.
4.000 Credit hours
4.000 Lecture hours

Levels: Undergraduate
Schedule Types: Lecture

Electrical and Comp Engineerng Department

Course Attributes:

Must be enrolled in one of the following Programs:     
      BSCMPE Computer Engineering
      BSEE Electrical Engineering
      BSCMPE Elect and Comp Engr
      BSEE Electrical Engr/Physics
      BSEE Elect and Comp Engr
      BSCMPE Computer Engr/Comp. Sci
      BSCMPE Comp Engineer/Physics
Must be enrolled in one of the following Levels:     

EECE 2151

Undergraduate level GE 1111 Minimum Grade of D- and Undergraduate level MATH 2341 Minimum Grade of D- and Undergraduate level PHYS 1155 Minimum Grade of D-

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