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Course Criteria
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4.00 Credits
Prerequisite: Enrollment in or completion of Eltrn 130 or Eltry 240A. Application of algebra to the analysis of electronic circuits. Review of measurement accuracy, precision and tolerance, and the use of scientific notation and scientific calculators. Solution of linear algebraic equations, factoring polynomials, rules of exponents, radicals, simultaneous equations and quadratic equations. Direct current network analysis using electronic laws and algebraic principles applied to problems arising in the laboratory. Use of electronic test equipment, measurements, collection of data and preparation of written reports. Recommended high school algebra or Math 125. Total of 54 hours lecture and 54 hours laboratory.
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3.00 Credits
Prerequisite: Eltrn 109A. Application of trigonometry, number systems and Boolean algebra in electronics. Right angle trigonometry, identities, vector algebra, imaginary operator, impedance, logarithms, solution of exponential equations and use of a scientific calculator. Number systems and theorems of Boolean algebra. Total of 54 hours lecture.
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5.00 Credits
Prerequisites: Eltrn 130 and enrollment in or completion of Eltrn 109B. Measuring units of physics and electricity, nature and laws of the atom, resistance, voltage and current. Network theorems in simple to complex circuits. Theories of magnetism and statics leading to understanding of inductance and capacitance. Sine wave analysis, series and parallel impedance circuits, vector solutions of AC, reactive and resonant circuit problems. Laboratory measurements and test techniques with instruments. Total of 72 hours lecture and 72 hours laboratory.
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2.00 Credits
Prerequisite: Enrollment in or completion of Eltrn 130. Printed circuit board layout, design and construction. Conversion of schematic diagram to printed circuit board layout, photographic reduction, developing and etching and soldering techniques for production. No credit if taken after Eltrn 15. Total of 18 hours lecture and 54 hours laboratory.
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3.00 Credits
Prerequisites: CIS 10 and Eltrn 109A. Development of C++ programs with particular application to problems in electricity and electronics. Program structure, library and programmer defined functions, arrays, recursive and inline functions. Pointer variables and dynamic memory allocation. Object-oriented programming, uses of classes, inheritance and derived classes. Preparation of C++ programs for solution of simultaneous linear equations and in finding roots of nonlinear equations. Recommended CIS 36. Total of 36 hours lecture and 54 hours laboratory.
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3.00 Credits
Prerequisite: Eltrn 130. Introduction to digital circuits including gates, sequential circuits, memory circuits and microcontrollers. Boolean algebra concepts as applied to gaming logic, introduction to programming concepts and computer numbering systems. Embedded microcontrollers and interfacing requirements, A/D and D/A conversion, sensors, operational amplifiers and actuator interfacing. Writing and debugging microcontroller programs. Laboratory experiments in the application of embedded microcontrollers and interfacing with digital and analog systems. Total of 36 hours lecture and 54 hours laboratory.
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4.00 Credits
Prerequisite: Eltrn 32 or 132. Introduction to microcomputer systems, functional elements, organization, instruction sets. Preparation of assembly language programs, elements of structure, stack operations, timing analysis of bus operations. Microprocessor system interfacing, time considerations, interrupts. Multiprocessing and bus-sharing applications. Intel microprocessors with emphasis on 8085 and 8086-type microprocessors. Introduction to embedded controllers, interface design, singlechip controllers. Software development systems and diagnostics. Development and maintenance of microprocessor-based systems. No credit if taken after Eltrn 25. Total of 54 hours lecture and 54 hours laboratory.
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3.00 Credits
Introduction to electronics concepts, components, techniques, digital and analog circuits. Reading schematic diagrams, computer simulation of simple circuits; use of electronics test equipment for measurement, evaluation and troubleshooting. Safety considerations when working with electronic devices. Voltage, current, resistance, Ohm's law, reactance and resonance. Series and parallel connection of resistors, capacitors and inductors. Electromagnetism, electromagnetic induction and semiconductor devices. Introduction to mathematical formulae, scientific notation and use of scientific calculators. Basics of communications systems, signals, modulation, radio and television transmitters and receivers. Automotive electrical systems and sensors. Introduction to binary numbers and digital devices, analog to digital and digital to analog converters, digital audio and video. Introduction to microprocessors, microcontrollers and PC hardware. Recommended high school algebra, Math 125 or enrollment in or completion of Eltrn 109A. Total of 36 hours lecture and 54 hours laboratory.
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5.00 Credits
Prerequisite: Eltrn 113. Field effect and bipolar transistor theory, audio preamplifiers and power amplifiers, coupling and bias stabilization techniques. Analysis of small-signal models, application of Kirchhoff's laws to multi-mesh active circuits, matrix methods. Mathematical analysis of feedback systems, stability considerations, elementary transforms. Applications of electro-optical devices, operational amplifiers. Complex operator in frequency response measurements. No credit if taken after Eltrn 31 or 121A or 131A. Total of 72 hours lecture and 72 hours laboratory.
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4.00 Credits
Prerequisite: Eltrn 109B and 113; or Eltrn 117. Introduction to logic circuit design and microprocessors. Design and analysis of digital, combinatorial logic, and sequential circuits. Minimization techniques using Boolean algebra and Karnaugh maps. Interfacing requirements, truth tables, multiplexers, demultiplexers, A/D converters and DAC's. Computer arithmetic and preparation of assembly language programs. Laboratory experience using digital circuits and microprocessors. No credit if taken after Eltrn 32. Total of 54 hours lecture and 54 hours laboratory.
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