|
|
|
|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
This course covers theory and characteristics of common semi-conductor devices; the basic circuits in which they are used are presented. Analytical models for these devices and circuits are developed. The terminology, symbols, and applications of diodes, zener diodes and bipolar transistors [BJT] are examined. The laboratory section provides students with practical application experiences related to the subject material presented within the theory and analysis lectures. Emphasis is placed on both the breadboarding and simulation of circuits to determine device/component performance and operating conditions. Prerequisite: ENGN1010. (PT) Quarter Credit Hours 6.0
-
3.00 Credits
This is the second course in digital electronics. The purpose of this course is to provide an understanding of complex digital circuits that include MSI combinational circuits such as decoders, encoders, MUX and DEMUX. Clocked circuits, Programmable Logic Devices (PLD) such as ROM, RAM, PROM, EPROM, GAL, PAL and PLA along with latches, flip-flops, counters and registers are covered in detail within this course. These complex circuits are designed, analyzed, simulated and built within software/hardware labs. Prerequisite: ENGN1000. (PT) Quarter Credit Hours 4.5
-
3.00 Credits
This course introduces students to the basic concept and applications of robotics. The study of robotics includes the supporting disciplines of mechanics, motors, microprocessors, various sensors and artificial intelligence. The course covers the concepts of work envelope, real-time programming, and the theory of electrical, pneumatic and hydraulic servo control systems. Also, the theory and application of various sensors including temperature, proximity, ultrasonic and vision sensors, the use of microprocessors, microprocessor interfacing, and artificial intelligence in robotic systems is covered. Industrial applications in the areas of automotive and semiconductor manufacturing as well as medical and aerospace applications are described. The course includes a lab session on robotic work cell. Prerequisite: Sophomore status. (PT) Quarter Credit Hours 4.5
-
3.00 Credits
This course covers the time and frequency analysis of linear systems involving Fourier series, the Fourier and Laplace transforms. Transfer function analysis and synthesis principles are developed and placed into application settings. The role of the Laplace transform in network analysis including steady-state AC analysis is addressed. Equivalent state space models are developed. Prerequisite: MATH1041. (PT) Quarter Credit Hours 4.5
-
3.00 Credits
This course introduces students to the theory and applications of electronic communications. Topics include review of electromagnetic theory and the principle of modulation and demodulation, including amplitude, frequency and phase modulation. Principles of signal transmission and reception including DSB and SSB communication and description of basic hardware, are covered. A lab session is included to illustrate various concepts regarding programming and multi-tasking for microprocessor based systems, as well as wireless communication and speech synthesis robotic systems, are discussed. Prerequisites: CSIS1020, ENGN2000, ENGN2060. Quarter Credit Hours 4.5
-
3.00 Credits
This second course on solid state electronics provides students with in-depth knowledge in non-bipolar transistors, circuits and their applications. Topics include JFET transistors, MOSFET transistors, thyristors, differential amplifiers, operational amplifiers, negative feedbacks, linear Op-Amp, active filters, and non-linear Op-amp circuits and their applications. The laboratory portion of this course provides students with technical application and design of amplifiers, feedback elements in the active electronic circuits, and active filters. Prerequisite: ENGN1030. Quarter Credit Hours 6.0
-
3.00 Credits
This basic course includes the applications of memory circuits, A/D and D/A converters, RAM and ROM circuits. The course provides students with knowledge of software and hardware applications associated with microprocessor devices. Emphasis is placed on the architecture of the popular 6502, 6800 and 8080 integrated circuit devices. The key topics and skills for each week's session are demonstrated and discussed in an interactive lecture format. All sessions are held in a laboratory environment where students have an opportunity to work along with the instructor using assembler language techniques to program a microprocessor, perform various arithmetic functions, and to observe the relationship between the software and hardware aspects of basic microprocessor circuitry. Independent laboratory assignments including experiments in A/D and D/A conversion are assigned for completion outside of class sessions during open lab times. Prerequisites: ENGN1000, ENGN1040. Quarter Credit Hours 4.5
-
3.00 Credits
This is a continuation course of ENGN2055 Introduction to Microprocessors with emphasis on microprocessor application and interfacing. Interfacing standards using various standard busses and peripherals are discussed. Also, methods of interfacing digital devices, application of digital interfacing, analog I/O for microprocessor systems, A/D application, and system debugging are presented. The laboratory portion of this course provides students with technical application on interface control units, PIA and other peripheral devices. Prerequisite: ENGN2055. Quarter Credit Hours 4.5
-
3.00 Credits
This basic course covers the analysis, design and synthesis of microprocessor based systems developing projects to combine electronics, mechanical components and real-time programming. The course provides a review of microprocessor interfacing for discrete, digital and analog data, ADC and DAC, the study and application of various sensors including tactile, light, proximity, position, velocity and acceleration. Optical encoders for angular motion data and other advanced sensing are also covered. The operation principles of electric, hydraulic and pneumatic power supplies are discussed as well those of actuators, DC and stepper motors and their basic concept in control theory also is covered, including PID control. The course also covers the concepts and calculations of gearing and torque for mechanical motion. Topics in real-time
-
3.00 Credits
This course introduces students to the basic concepts of artificial intelligence, including some applications. The course first introduces the different methods of representing knowledge and inference methods. It is then followed by the study of rule based expert system, fuzzy expert systems and artificial neural networks. There is also a brief introduction to the area of evolutionary computation and genetic programming. Basic method of shape recognition and classifiers are discussed. Some probability theory and Bayesian analysis is covered in the course. Illustration and projects use the Neural Network and Image Processing toolbox of MATLAB. Prerequisites: CSIS1020, MATH1013. Quarter Credit Hours 4.5
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|