Computer Electronics Technology

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100s

CET 113 Introduction to Information Processing 3
Emphasis placed on the computer as a productivity tool. Laboratory assignments are related to technical applications and problem solving. Two hours lecture and two hours laboratory, course meets four hours per week. On demand. Skill Area IV

CET 179 Basic Network Administration 3

Introduction to techniques and skills essential for system and network administration in Unix/Linux or similar network operating system (NOS) environment. Topics include physical network installation, software installation, configuration, administration, performance monitoring, analysis, and troubleshooting. Two hour lecture and two hour laboratory, course meets four hours per week.

200s

CET 201 Photonics Principles 3
Prereq.: MATH 115. Exploration of light, the laws of reflection and refraction and how they apply to several devices. Examination of wavelike behavior of light. An overview of fiber optics and optical image is presented. Two hours lecture and three hours laboratory, course meets five hours per week. Fall.

CET 223 Basic Electrical Circuits 3
Prereq.: PHYS 111 and either MATH 115 or MATH 119 (either with C- or higher) or math placement exam. Operation of DC circuits including voltage, current, resistance, power, electromagnetism, capacitance, inductance, and basic theorems. Laboratory experiments involve building circuits and using instruments to measure quantities. Two hours lecture and three hours laboratory, course meets five hours per week. No credit given to those with credit for CET 236.

CET 229 Computer Hardware Architecture 3
Laboratory based course emphasizing the computer architecture and related components. Analyzing and troubleshooting the interrelationships between the operating system, computer hardware, and peripheral devices. Two hours lecture and three hours laboratory, course meets five hours per week.

CET 233 Advanced Electrical Circuits 3
Prereq.: CET 223; PHYS 111 or 122 or 126. Reactance and power concepts in AC. Phasor analysis of RC, RL and RCL circuits, resonance, and filters. Laboratory experiments involve building circuits, using instruments to measure quantities, and observing phenomena. Two hours lecture and three hours laboratory, course meets five hours per week. No credit given to those with credit for CET 236. Spring.

CET 236 Circuit Analysis 3
Prereq.: ENGR 150 or ROBO 110, and either MATH 135 or MATH 152, and either PHYS 122 or PHYS 126. Basic concepts and laws, methods of analysis and circuit theorems in DC and AC circuits. Topics include voltage, current, power, resistance, capacitance, inductance, node analysis, mesh analysis, Thevenin's theorem, Norton's theorem, phasors, transfer functions, steady state and transient analysis. Laboratory experiments involve building circuits, using instruments to measure quantities and observe phenomena. Two hours lecture and three hours laboratory, course meets five hours per week.

CET 243 Analog Electronics I 3
Prereq.: CET 233 or CET 236. Semiconductor and p-n junction theory. Structure, parameters, performance characteristics of diodes, bipolar and field effect transistors, operational amplifiers and special semiconductor devices. Basic circuit analysis, synthesis, and laboratory experiments, emphasize building circuits, troubleshooting, and using instruments to measure quantities, and observe phenomena. Two hours lecture and three hours laboratory per week. Fall.  

 CET 249 Introduction to Networking Technology 3
Introduction to the OSI model concentrating on the network, data link and physical layers. Emphasis on IP addressing (IPv & IPv6), Ethernet technologies and copper and fiber optic cabling. Lab includes trouble shooting and testing Layer One devices. Two hours lecture and two hours laboratory, course meets four hours per week.

300s

CET 301 Fiber-Optics Communications 3
Prereq.: CET 201. Introduction to fiber-optic communication systems. Optical detectors and receivers. Coherent light wave systems. WDM communication systems and optical amplifiers. Two hours lecture and three hours laboratory, course meets five hours per week.

CET 323 Analog Electronics II 3
Prereq.: CET 243. Discrete and linear integrated circuits and their applications. Topics include multistage and power amplifiers, operational amplifiers, oscillators, voltage and current regulators, passive and active filters. Analysis, synthesis, and laboratory experiments emphasize building circuits, simulation, troubleshooting, and using instruments to measure quantities and observe phenomena. Two hours lecture and three hours laboratory, course meets five hours per week. Spring. 

CET 339 Computer System Administration 3
Prereq.: CET 229. Laboratory course emphasizing concepts, tools, and application of technologies related to computer system administration. Includes the design, implementation, management, and maintenance of a state-of-the-art network operating system. Two hours lecture and three hours laboratory, course meets five hours per week.

CET 346 Signals & Systems 3
Prereq.: CET 236, and either MATH 136 or MATH 221; or PHYS 122 or PHYS 126. Signal representation, applications of Fourier series, Fourier transform, Laplace transform, and Z-transform in the analysis of circuits and systems. Two hours lecture and three hours laboratory, course meets five hours per week. Spring.

CET 349 Network Routing 3
Prereq.: CET 249. Major emphasis on routing theory and design, TCP/IP protocol stack, how this applies to Internet access. Concentrates on OSI model transport, network, data link and physical layers. Lab includes hands-on routing configuration and troubleshooting Layer 2 and Layer 3 equipment and software. Two hours lecture and two hours laboratory, course meets four hours per week.

CET 363 Digital Circuits 3
Prereq.: CET 223 or CET 236. Principles and applications of digital circuits, number systems, Boolean Algebra, combinatorial and sequential logic circuits, arithmetic circuits, and MSI logic circuits. Laboratory experiments focus on circuit building and troubleshooting using TTL integrated circuits. Two hours lecture and three hours laboratory, course meets five hours per week.

400s

400-LEVEL CLASSES ARE FOR UNDERGRADUATE CREDIT ONLY, EXCEPT WHERE NOTED WITH "[GR]"

CET 402 Topics in Computer Electronics Technology 1 TO 3
Prereq.: Permission of department chair. An individualized inquiry of comprehensive study into a selected technical area. The students may elect to examine processes, products or developmental aspects of networking, telecommunications or electronics. May be used as an elective on a graduate student's planned program advisor. Course may be repeated for a maximum of 6 credits for different topics. On demand. [GR]

CET 405 Applied Topics in Computer Electronics Technology 3
Prereq.: Permission of department chair. A laboratory oriented course providing comprehensive study of a selected technological topic. May be used as an elective on a graduate student's planned program of study with the permission of the program advisor. Course may be repeated for a maximum of 6 credits for different topics. Two hours lecture and three hours laboratory, course meets five hours per week. On demand. [GR]

CET 439 Enterprise Messaging Systems 3 
Prereqs: CET 339. Laboratory course emphasizing knowledge and skills related to enterprise-level messaging environment. Topics include concepts, guidelines, protocols, best practices, and considerations when implementing, managing, and optimizing the messaging server deployment. Two hour lecture and two hour laboratory, course meets four hour per week.

CET 443 Electronic Communications 3
Prereq.: CET 323 or acceptance to the Graduate MSCIT or MSTM programs. Radio Frequency transmitting and receiving circuits, modulation and detection techniques, noise in circuits and systems, transmission lines, antennas analog and digital communications. Analysis and synthesis laboratory experiments emphasize building circuits, troubleshooting, and using instruments to measure quantities and observe phenomena. Two hours lecture and three hours laboratory, course meets five hours per week. [GR]

CET 449 Advanced Networking 3
Prereq.: CET 349 or acceptance to the Graduate MSCIT or MSTM programs. Major emphasis on switching and STP, VLANs and InterVLAN routing. Basic Wireless concepts and configuration. In-depth focus on WAN technology, theory and design including serial communication, HDLC, PPP, Frame Relay. Secure router management and ACL creation. Lab includes hands-on switching and routing configuration and troubleshooting Layer 2 and Layer 3 networking equipment and software. Two hours lecture and three hours laboratory, course meets five hours per week. [GR]

CET 453 Microcomputers 3

Prereq.: CS 213 or CS 151 or ROBO 110, and CET 363; or acceptance to the Graduate MSCIT or MSTM programs. Microcontroller architecture including basic memory design, address decoding and internal register structure, and assembly language programming including addressing modes and instruction set. Laboratory work consists of programming and interfacing experiments. Projects focus on solving real world problems following a standard development process. Two hours lecture and three hours laboratory, course meets five hours per week. Fall

CET 459 Network Security Technologies 3
Prereq.: CET 249. Practical techniques of network security and how the field is related to information technology. Topics include general security concepts, communication security, infrastructure security, cryptography basics, and operational security. On demand.

CET 463 Advanced Microcomputers 3
Prereq.: CET 453. Focus on real world applications of microcontrollers and theory behind building robust real time systems. Covers building software components that interact with microcontroller hardware to produce functionality. Students will solve larger, more complex problems with individual and group development projects. Two hour lecture and three hour laboratory, course meets five hours per week.

CET 466 Logic Design 3
Prereq: CET 363. Use of hardware design languages to implement digital design, including modular combinational circuits, flip-flops, latches, counter and synchronous sequential circuits in programmable devices such as FPGA. Two hours lecture and three hours laboratory, course meets five hours per week.

CET 479 Network Administration 3
Prereq.: CET 339 or acceptance to the Graduate MSCIT or MSTM programs. Advanced network administration using network operating system. Emphasizes internet-related protocols and server configurations, including the planning, design, building, and management of internet name server, web server, mail server, and file server. Two hour lecture and two hours laboratory, course meets four hours per week. [GR]

CET 497 Capstone Project I 1
Prereq.: CET 346, CET 349. Identification, investigation, research, and proposal of an implementation approach to a selected solution for a problem. Social, environmental, ethical, economic, and legal factors are considered. A detailed concept and design proposal is presented. On demand.

CET 498 Capstone Project II 2
Prereq.: CET 497. implementation of the proposed solution in the developed Report in CET 497. A functional prototype is simulated, build, measured, and evaluated. A final Report is presented and the project demonstrated. On demand.

500s

CET 501 Applied Networking Technology I 3
Prereq.: acceptance to the Graduate MSCIT or MSTM programs. Functions and capacities of LAN/WAN networks, emphasis on TCP/IP network model. Credit not given to students who have completed CET 249 as an undergraduate student. Fall.

CET 502 Applied Networking Technology II 3
Prereq.: CET 501. Router configurations, router algorithms and protocols, switching terminology. Design, implementation and troubleshooting of interconnected networks. IP and data link addressing. Credit not given to students who have completed CET 349 as an undergraduate student. On demand.

CET 513 Computer Applications for the Professional 3
Prereq.: Admission to the School of Graduate Studies. Designed for business professionals who need to expand their knowledge of application software. Includes the in-depth application and interrelationship of state-of-the-art managerial software packages. On demand.

CET 533 Digital Transmission in Telecommunications 3
Prereq.: acceptance to the Graduate MSCIT or MSTM programs. Digital tansmission techniques including signals, coding, decoding, modulation, multiplexing, and switching in telecommunications networks. Also covers fundamental principles, system architectures and services. On demand.

CET 543 Telecommunications Systems 3
Prereq.: CET 533 or permission of department chair. Radio and optical transmission systems, electromagnetic waves propagation, reflection, refraction and diffraction. Covers satellite communication related to broadcasting, telephony and data transmission. Introduction to characteristics and applications of antennas, cellular phones, fiber optics cables. On demand.

CET 559 Applied Network Security 3
Prereq.: CET 501. Practical techniques of network security. Current applied research project presentation is expected. Topics include general security concepts, communication security, intrastructure security, cryptography basics, and operational security. This is a link course with CET 459. On demand.

CET 596 Technological Problems and Issues 1 TO 3
Prereq.: Admission to graduate program. Extensive study of selected technological issues and problems. Course may be repeated with different topics for a maximum of 6 credits. On demand.

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