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Course Criteria
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1.00 Credits
1 credit An introduction to computer programming using Matlab. Emphasis on the logical thought process needed to solve engineering problems, and on the application of engineering principles. Students will use the computer lab to complete assignments. Co-requisite: ECE 106
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1.00 Credits
1 credit Laboratory experience to complement ECE 105. Three hours per week. Concurrent with ECE 105. Co-requisite: ECE 105
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3.00 Credits
3 credits This course is designed for students to build a solid foundation in problem solving with C programming language. Introductory C programming concepts and techniques will be discussed. Contents of the course include: program structure, data types, variables, flow control, functions, I/O's, arrays, strings, pointers, structure and union.
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3.00 Credits
3 credits This course introduces fundamental design concepts and processes for digital logic. Boolean algebra and logic gate operations are discussed, followed by combinational network design and sequential network concepts and design. The use of computer-aided design tools to support circuit design is an integral part of the course. Co-requisite: ECE 141
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1.00 Credits
1 credit This laboratory course is to be taken concurrently with ECE140. The laboratory provides hands-on experience with logic design that includes the applications of Boolean Algebra, Karnaugh Maps, decoders, multiplexers, and flip-flops. Topics also include combinational network design and sequential network design. The use of contemporary software tools to support the digital design process is an integral part of the laboratory. Co-requisite: ECE 140
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3.00 Credits
3 credits This course is designed for students to develop ability in problem solving with object-oriented concepts and programming skills. Introductory C++ syntax and program structure will be discussed. Object-oriented coding style and concepts such as classes and abstraction, inheritance, and virtual functions will be covered. Prerequisite: ECE 111
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3.00 Credits
3 credits This course involves an in-depth programming-based study of data structures, algorithms, and cooperating programming techniques used in real-time and embedded systems. Topics include static and dynamic structures, hashing, searching, signals, distributive and concurrent inter-process communication. Discussions will also cover compiler-linker, multi-core, and other trade-off that impact real-time systems performance. Prerequisite: ECE 111
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3.00 Credits
3 credits This course introduces the basic passive components (R, L, and C) and their terminal voltage and current characteristics. Basic circuit concepts, such as Kirchhoff's laws, linearity/ superposition/Thevenin & Norton equivalents, and the max power theorems are established. The analysis of DC and transient circuits including dependent and independent sources is considered along with the use of computer-aided design tools for solution and verification of problems. AC circuits are also studied. Prerequisite: MATH 140 or permission of Chair.
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1.00 Credits
1 credit This laboratory course is to be taken concurrently with ECE 228 (Circuits I). The laboratory provides hands-on experience with DC and AC circuits that includes the applications of Kirchoff's laws, superposition, Thevenin and Norton equivalent circuits. Topics also include operational amplifier circuits and phasor diagrams. The use of contemporary computer-aided design in support of circuit analysis and design is an integral part of the laboratory. Co-requisite: ECE 228
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3.00 Credits
3 credits This is a basic course that provides general introduction to circuit theory, electronic circuits and electric machines. This course cannot be taken for credit for by Electrical and Computer Engineering students. Prerequisite: PHYS 214 and MATH140
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