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Course Criteria
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3.00 Credits
Programming in BASIC with emphasis upon electrical circuit problems. Includes pokes, peeks, string manipulation, arrays, sequential file creation and manipulation, sorts, searches, graphics, external files, and compiling. Cr. 3. Hours Class 2-3, Lab. 0-2.
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3.00 Credits
Basic digital system techniques with emphasis on programmable logic and ASIC theory. Computer-aided design is strongly emphasized along with system considerations such as criteria for device selection, testability, and vendor selection. Preparation for Course P: ECET 111. C: ECET?114 or CS 114. Cr. 3. Hours Class 2, Lab. 2.
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4.00 Credits
AC circuits, including the j operator, phasors, reactance, impedance, and power, are studied. Circuit laws, network theorems, and the fundamental concepts of Fourier analysis are applied in the study of passive filters, resonant circuits, single-phase and three-phase circuits, and elementary magnetic circuits. Preparation for Course P: ECET 107 or CPET 101. Cr. 4.
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4.00 Credits
Capacitors, inductors, switching circuits, transformers, rectifiers, linear regulators, dependent sources, operational amplifiers, BJT & MOSFET based small signal amplifiers, waveform generation, and programmable analog devices are studied. Circuit fundamentals such as Kirchhoff's laws are utilized in analysis and design of circuits. Computer simulation is used. Preparation for Course P: ECET 107, MA 153. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
A study of solid state devices and circuits. Topics include diodes, LED, photosensitive devices, zener diodes, bipolar transistors, MOS devices, linear integrated circuits, and related application circuits such as rectifiers, sensing circuits, various transistor amplifiers, transistor switches, linear OPAMP circuits, and non-linear OP-AMP circuits. Not open to EET majors. Preparation for Course P: ECET 101. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
A study of the applications of transistors, integrated circuits, and other solid-state devices. Feedback principles as applied to amplifiers, oscillators, and regulated power supplies. Includes large-signal power amplifiers, special-purpose amplifiers, and AM and FM modulation and detection techniques. Introduction to filters as applied to tuned amplifiers and rectifier circuits. Preparation for Course P: ECET 152 or 207 and MA 154. Cr. 4.
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4.00 Credits
An introduction to microprocessor and microcontroller hardware and software. Assembly language instructions and programming, troubleshooting, and input/output techniques are studied. Computer-based program editing and assembly techniques are used. Preparation for Course P: ECET 111 or equivalent. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
AC circuits including the j operator, phasors, reactance, and impedance are studied. Circuit laws, network theorems, and the fundamental concepts of Fourier analysis are applied and used in the study of topics such as passive filters, IC filters, amplifiers, resonant circuits, single-phase and three-phase circuits. Computer-aided analysis of circuits is used. Preparation for Course P: ECET157 and MA 154. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
This course is an introduction to microprocessor hardware and software, focusing on embedded control applications. Interconnections of components, peripheral devices, bus timing relationships, structured C-language programming, debugging, input/output techniques, and use of PC based software development tools are studied. Preparation for Course P: ECET 146 and 114. Cr. 4.
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3.00 Credits
Lecture, demonstration, and laboratory experiments are combined to acquaint the student with the elements of electrical power circuits and machines. Preparation for Course P: MA 154. Cr. 3. Hours Class 2-3, Lab. 0-2. Notes Course not open to EET students.
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