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Course Criteria
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr Students learn how to implement and analyze control functions and arithmetic operations using digital IC's. Computer techniques are used to simulate systems and for troubleshooting. Laboratory problemsolving through the synthesis, breadboarding and testing of such systems. State-of-the-art integrated circuits are used with students working with their individual digital trainers. Prerequisites: EMT 1111/EM 111, EMT 1130/EM 130, EMT 1150/EM 150
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr Non-linear behavior using semiconductor devices from diodes to CMOS IC's. A black box analysis of amplifiers and other circuits is introduced, as well as basic optical devices. Typical circuits are breadboarded, analyzed and tested in the laboratory. Computer simulations are used for the additional reinforcement of course material. Pre- or corequisites: EMT 1250/EM 250, MAT 1375/MA 375
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5.00 Credits
4 cl hrs, 3 lab hrs 5 cr Representative components are studied in terms of how basic concepts previously covered are utilized to provide specialized devices that convert signal data to desired movements, motions and forces to perform specific actions. Typical items studied include pneumatics, solenoids, relays, stepping motors and computer peripherals. Applications in writing and reading data and power control are discussed in detail. The student evaluates the performance characteristics and limitations of these devices by constructing and testing breadboard subsystems. The computer disk drive is studied in detail as a representative system. Prerequisites: EMT 1120/EM 120.1, EMT 1220/EM 220; pre- or corequisite: EMT 1255/EM 255
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2.00 Credits
1 cl hr, 2 lab hrs, 2 cr Computer hardware systems, along with several software concepts, are studied to understand the function and relationship of the CPU, memory and peripheral equipment. Course material is chosen for relevance to industry certification exams, such as A+. The peripheral equipment includes monitors, disk drives, scanners and printers. During laboratory exercises, computer systems, with monitor and operating system, are provided for analysis by students working in teams. However, as an option, each student can build, configure, analyze and troubleshoot his or her own IBM PC (or compatible) computer. Prerequisite: EMT 11250/EM 250
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1.00 Credits
3 lab hrs, 1 cr Students study the characteristics of operating systems used in IBM systems. They learn how to install the operating system and set it up to control the computer hardware. They also learn to use features of the operating system to manage the computer system. Pre- or corequisite: EMT 2370/ EM 370
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2.00 Credits
1 cl hr, 2 lab hrs, 2 cr This course introduces the foundations of data communications with applications in engineering technology. It provides a basic understanding of data communication systems and practical examples of communications networks. Topics include core network concepts, standards, physical layer propagation, a small Ethernet PC network, other LAN technologies, Wide Area Networks (WANs), TCP/IP internetworking, security, network management and systems administration, and network applications for computer-based control of devices. Prerequisites: EMT 1250/EM 250, EMT 2370/EM 370
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2.00 Credits
1 cl hr, 2 lab hrs, 2 cr How computer hardware and electromechanical systems control external devices, both electrically and mechanically. Students build a project to learn the interface of software and hardware for use as a control element. Prerequisites: EMT 1111/EM 111, EMT 2370/EM 370; pre- or corequisites: EMT 2455/EM 455, EMT 2480L/EM 480L, MAT 1475/MA 475
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1.00 Credits
3 lab hrs, 1 cr An actual electromechanical system used in biomedical technology, robotics, or a related field is chosen for study. Computer - aided drafting (CAD) is utilized to prepare drawings of one or more selected components. Computer - aided engineering (CAE) techniques are utilized to introduce concepts of applied mechanics and mechanics of materials needed to analyze the selected component(s). A student presentation (written and oral) is required. Prerequisites: EMT 2320/EM 320.1, PHYS 1433/SC 433, ENG 1101/EG 101
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr An introduction to microcomputer architecture and the basic concepts used in the Personal Computer (PC). Key features of the PC are explored by writing programs in a high-level language (such as C) to access them. Assembly language programs are utilized to gain insight into machinelevel operations. Laboratory exercises support the lecture and are carried out in the context of currently available operating systems. Pre- or corequisites: CST 2403/ CS 403, MAT 1575/MA 575; prerequisite: Previous course in digital electronics
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr Applications of principles of electrical circuit analysis to the solution of practical network problems, with emphasis on steadystate AC Circuits. Applications of Kirchoffs Laws, superposition and Thevenin's theorems. Pre- or corequisite: MAT 1575/MA 575 with grade of "C" or better
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