Electronic Engineering Technology

Electronic Engineering Technology INDIVIDUAL PROGRAM INFORMATION 2015 2016 866.Macomb1 (866.622.6621) www.macomb.edu

Electronic Engineering Technology CREDENTIAL Associate of Applied Science Certificate Certificate TITLE Electronic Engineering Technology Electronic Engineering Technology Electronic Engineering Technology Basic Electronics PROGRAM OPTIONS CREDIT HOURS REQUIRED 65 NOTES The program is designed to provide preparation for entry level jobs in a variety of occupations. 47 22 CONTACT INFORMATION CONTACT TITLE NAME PHONE E MAIL LOCATION Professor Arthur Knapp 586.445.7209 knappa@macomb.edu South Campus Professor Anthony Ventura 586.445.7326 venturat@macomb.edu South Campus Professor Ken Dulinski 586.445.7248 dulinskik@macomb.edu South Campus Program Description: The Electronic Engineering Technology program provides a strong background in electrical and electronic theory. The theory is further reinforced through practical laboratory work and experimentation. Emphasis throughout the program is on understanding principles that are basic to the broad utilization of electronics across a wide spectrum of industrial, commercial, and consumer applications. The program is designed to provide preparation for entry level jobs in a variety of fields. Requirements & Specific Information: Students interested in furthering their studies in the field of renewable energy may complement the Associate of Applied Science degrees in Automated Systems Technology Mechatronics or Electronic Engineering Technology with the Renewable Energy Technology Certificate. Career Opportunities: Electronic Engineering Technology Associate of Applied Science: Job titles such as Electrical and Electronic Engineering Technicians are attainable upon completion of this course of study. To learn more from a career specialist, visit the Office of Career Services at either campus or explore online at www.onetonline.org. Transfer Pathways: Students intending to transfer and complete a bachelor s degree need to make early decisions concerning an academic major and a transfer destination. Statistics show that students who make these decisions early are more likely to persist to graduation than their undecided counterparts. Students planning to transfer credits earned at Macomb are strongly urged to see a counselor or academic advisor as early as possible in their college careers. Some universities in the area (Wayne State University and Lawrence Technological University among them) offer a degree in Bachelor of Science Engineering Technology (BSET). The Electronic Engineering Technology program from Macomb is transferable in total to most of these universities and articulation (transfer) agreements are in place. However, students pursuing the BSET should refer to the specific agreement for their university of choice. The agreements are available online at www.macomb.edu, or can be picked up at the Engineering Technology office at South Campus in R 124. These students should also see the program advisor at their selected university as soon as possible. 8 Transfer Resource Guide 1

ASSOCIATE OF APPLIED SCIENCE IN ELECTRONIC ENGINEERING TECHNOLOGY Career preparation and related courses (require successful completion of a minimum of 65 credit hours) SUGGESTED SEQUENCE BASED ON FULL-TIME ENROLLMENT. MAY ALSO BE COMPLETED BASED ON PART-TIME ENROLLMENT. CORE COURSES: COMMON DEGREE CORE REQUIREMENTS FOR ASSOCIATE OF APPLIED SCIENCE IN ELECTRONIC ENGINEERING TECHNOLOGY COURSE COURSE TITLE PREREQUISITE CREDIT HOURS SEMESTER 1 ELEC 1161 Electronic Technology 1 1, 2 3.0 ELEC 1171 Electronic Technology 2 1, 2 ELEC 1161 3.0 TMTH 1150 RCL Analysis 4.0 CORE 1060 Industrial Computer Technology 4.0 Group V Course Any PHED Wellness course 2000 or above 2.0 3.0 SEMESTER 2 ELEC 1182 Semiconductor Theory & Devices 2 ELEC 1171 3.0 ELEC 1192 Semiconductor Devices & Circuits 2 ELEC 1182 3.0 ELEC 1211 Digital Electronics Basics ELEC 1171 3.0 Group I Course: ENGL 1180 OR ENGL 1210 Group II Course: PHYS 1180 OR PHSA 1050 ELEC 2005 ELEC 2010 SEMESTER 3 Communications 1 OR Composition 1 College Physics 1 OR Physical Science Placement, or ENGL 0050 or EAPP 1500 with grade C or better MATH 1000 with grade C or better, or higher level math course, or math placement score 3.0 4.0 Discrete Amplifiers & Introduction to Op Amps ELEC 1192 3.0 Instrumentation 1 Transducer Theory 2 ELEC 1211 3.0 ELEC 1211 or ELEC 2150 LabVIEW Basics 1 2 approval of program advisor 3.0 ELEC 2160 LabVIEW Basics 2 2 ELEC 2150 3.0 Group III Course Any ANTH, ECON, GEOG, HIST, INTL 2010, INTL 2500, INTL 2700, POLS, PSYC, SOCY, SOSC 3.0 4.0 SEMESTER 4 ELEC 1221 Microcontrollers with Robotic Applications 2 ELEC 1211 3.0 ELEC 2490 Instrumentation 2 Advanced Op Amps & Linear Integrated Circuits 2 ELEC 2010 3.0 ELEC 1211 and either ELEC 1192 ELEC 2270 Microcontroller Programming 2 or ELEC 2005 3.0 ELEC 2400 Microprocessor Interfacing 2 EETE 2270 or ELEC 2270 3.0 Group IV Course Any ARAB, ARTT, CHIN, ENGL 2### (CREATIVE WRITING OR LITERATURE ONLY), FREN, GRMN, HUMN, ITAL, INTL 2000, INTL 2300, MUSC, PHIL, & SPAN 3.0 4.0 4.0 CERTIFICATE IN ELECTRONIC ENGINEERING TECHNOLOGY Career preparation and related courses (require successful completion of a minimum of 47 credit hours) REQUIREMENTS FOR CERTIFICATE IN ELECTRONIC ENGINEERING TECHNOLOGY COURSE COURSE TITLE PREREQUISITE CREDIT HOURS SEMESTER 1 ELEC 1161 Electronic Technology 1 1, 2 3.0 ELEC 1171 Electronic Technology 2 1, 2 ELEC 1161 3.0 TMTH 1150 RCL Analysis 4.0 CORE 1060 Industrial Computer Technology 4.0 2

SEMESTER 2 ELEC 1182 Semiconductor Theory & Devices 2 ELEC 1171 3.0 ELEC 1192 Semiconductor Devices & Circuits 2 ELEC 1182 3.0 ELEC 1211 Digital Electronics Basics ELEC 1171 3.0 SEMESTER 3 ELEC 2005 Discrete Amplifiers & Introduction to Op Amps ELEC 1192 3.0 ELEC 2010 Instrumentation 1 Transducer Theory 2 ELEC 1211 3.0 ELEC 2150 LabVIEW Basics 1 2 ELEC 1211 or approval of program advisor 3.0 ELEC 2160 LabVIEW Basics 2 2 ELEC 2150 3.0 SEMESTER 4 ELEC 1221 Microcontrollers with Robotic Applications 2 ELEC 1211 3.0 ELEC 2490 Instrumentation 2 Advanced Op Amps & Linear Integrated Circuits 2 ELEC 2010 3.0 ELEC 2270 Microcontroller Programming 2 ELEC 1211 and either ELEC 1192 or ELEC 2005 3.0 ELEC 2400 Microprocessor Interfacing 2 EETE 2270 or ELEC 2270 3.0 Gainful Employment Disclosure: http://www.macomb.edu/ge/eetct/ See page 21 for Gainful Employment Information CERTIFICATE IN ELECTRONIC ENGINEERING TECHNOLOGY BASIC ELECTRONICS Career preparation and related courses (require successful completion of a minimum of 22 credit hours) REQUIREMENTS FOR CERTIFICATE IN ENGINEERING TECHNOLOGY BASIC ELECTRONICS COURSE COURSE TITLE PREREQUISITE ELEC 1161 Electronic Technology 1 1, 2 3.0 ELEC 1171 Electronic Technology 2 1, 2 ELEC 1161 3.0 TMTH 1150 RCL Analysis 4.0 ELEC 1182 Semiconductor Theory & Devices 2 ELEC 1171 3.0 ELEC 1192 Semiconductor Devices & Circuits 2 ELEC 1182 3.0 ELEC 1211 Digital Electronics Basics ELEC 1171 3.0 ELEC 1221 Microcontrollers with Robotic Applications ELEC 1211 3.0 CREDIT HOURS Gainful Employment Disclosure: http://www.macomb.edu/ge/eetbasct/ See page 21 for Gainful Employment Information NOTES: 1 Students entering the Electronic Engineering Technology program without any previous electronics knowledge should contact the Macomb faculty about taking ELEC 1100 before ELEC 1161 and ELEC 1171. 2 Some courses in this program are scheduled in the first 8 weeks or second 8 weeks of the semester. Students should be careful to take courses with the same section number in the same semester. It is strongly encouraged that you work with a counselor, advisor or faculty/department coordinator to plan your schedule. A minimum of 18 credit hours of Arts & Sciences courses (Groups I V) are needed as well as a minimum of 62 total credit hours for the associate degree. Arts & Sciences Groups II V can be taken in any semester. 3

Associate of Applied Science (AAS) Degree The Associate of Applied Science Degree is intended to provide the preparation necessary for potential employment in an occupational specialty. Requirements Minimum cumulative grade point average of 2.0 Minimum 15 semester hours of credit earned at Macomb Minimum 62 semester hours of credit courses numbered 1000 or above, which include: A minimum 18 semester hours of credit in Arts and Sciences courses numbered 1000 or above, as described in the Group Concentrations table; and A minimum of an additional 44 semester hours, including required career preparation and related courses as well as any electives required in the program. Arts and Sciences Courses Required for the Associate of Applied Science (AAS) Degree A minimum of one course from each of the five Arts and Sciences groups must be selected. Electives and Arts and Sciences requirements must be satisfied by courses numbered 1000 or higher. Associate of Applied Science (AAS) degree requirements are met by taking the required career courses and the Arts and Sciences courses. See Academic Placement Procedures for information on course placement in chemistry, English, English for Academic Purposes, mathematics, and reading. Courses numbered below 1000 will not count toward the Associate of Applied Science degree. Contact a counselor or academic advisor if you need help in choosing the appropriate course. GROUP Arts and Sciences Group Concentration for Associate of Applied Science Degree Requirements COURSES MINIMUM DEGREE REQUIREMENTS 18 SEMESTER HOURS I.A ENGL 1180 or ENGL 1210 1 Course I.B Other English Composition, Reading, or Speech See Note below II. III. IV. Astronomy, Biology, Chemistry, Environmental Science, Geology, Mathematics, Natural Science, Physical Science, Physics Anthropology, Economics, Geography, History, INTL 2010, INTL 2500, INTL 2700, Political Science, Psychology, Sociology, Social Science Art, Creative Writing, Foreign Language, Humanities, INTL 2000, INTL 2300, Literature, Music, Philosophy, Theater Arts 1 Course 1 Course 1 Course V. Any PHED Wellness course 2000 or above 1 Course Note: If students take one course from each of Groups I.A, II, III, IV, and V, and still have taken less than the minimum of 18 semester hours of Arts and Sciences courses required for the AAS degree, they may elect additional hours from Groups I.B, II, III, IV, or V to satisfy minimum degree requirements. 4

Course Descriptions ELEC 1100 Introduction to Electronics 3.00 credit hours (formerly EETE 1100) ELEC 1100 is designed for non ELEC majors who lack a formal training experience in the following areas: series, parallel, series parallel and basic A.C. circuits. Students will use basic algebra, scientific calculators and an electronic software program in this class. (4 contact hrs) South Campus. ELEC 1111 Electrical Fundamentals for Non Electrical Tradesmen 2.00 credit hours (formerly ATEE 1110) ELEC 1111 is designed for non electrical apprentices. Topics include atomic structure; Ohm s Law; series and parallel A.C. circuits; magnetism and induction; D.C. motors and generators; D.C. meters; A.C. fundamentals; capacitance; inductance; alternators; A.C. motors; A.C. meters. (2 contact hrs) South Campus. ELEC 1125 Electric Line & Smart Grid Design 2.00 credit hours (replaces ATEE 1410) ELEC 1125 explains how sensors, communications technologies, computational ability, control, and feedback mechanisms can be effectively combined to create a continually adjusting smart grid system. It provides an understanding of both Intelligrid architecture and EnergyPort as well as how to integrate intelligent systems to achieve the goals of reliability, cost containment, energy efficiency in power production and delivery, and end use energy efficiency. (2 contact hours) South Campus. ELEC 1161 Electronic Technology 1 3.00 credit hours (formerly EETE 1160) This course is intended for those students seeking entry level knowledge in electronic technology. This course will provide the student with theory and practical experimentation in the following areas as applied to D.C. circuits: Series, Parallel, and Series Parallel circuits. Meters will be used to measure and evaluate signals and operating voltages. Identification of basic electronic components as they relate to actual and schematic symbols. Ohm s Law, Watt s Law, Kirchhoff s Laws, and the Superposition Theorem will be employed. An electronic software program will be applied to various circuits in class. Scientific calculators and basic algebra will be used in class. (4 contact hrs) South Campus. ELEC 1171 Electronic Technology 2 3.00 credit hours Prerequisite: ELEC 1161 (formerly EETE 1170) This course is a continuation for students seeking entry level knowledge in electronic technology. This course will provide theory and experimentation in the following areas as applied to A.C. circuits: alternators, sine waves, capacitance, inductance, RC, RL and RCL series and parallel circuits, phase shift and filter, phase lead and lag circuits. Experimentation will include the use of meters, the oscilloscope, and the function generator. (4 contact hrs) South Campus. ELEC 1182 Semiconductor Theory & Devices 3.00 credit hours Prerequisite: ELEC 1171 (formerly ELEC 1181) ELEC 1182 provides students with the knowledge required to understand and troubleshoot electronic circuits containing diodes, transistors, FETs, and MOSFETs. Among the topics discussed are Thevenin s Theorem, semiconductor theory, half wave and full wave rectifiers, transistor biasing circuits, FET and MOSFET biasing. Students will learn through lecture, textbook assignments, hands on laboratory experimentation, and simulated virtual experiments utilizing computer software. (8 contact hrs per week for 8 weeks) South Campus. ELEC 1192 Semiconductor Devices & Circuits 3.00 credit hours Prerequisite: ELEC 1182 (formerly EETE 2280) This course provides students with theory and practical experimentation using the following electronic devices: BJT, SCR, UJT, PUT, Triac, Diac, Four Layer Diode, SUS, SBS, Op amps, and optoelectronic devices. Circuit designs include amplitude control, phase shift control, relaxation oscillators inverting, and non inverting amplifiers. (8 contact hrs per week for 8 weeks) South Campus. 5

ELEC 1211 Digital Electronics Basics 3.00 credit hours Prerequisite: ELEC 1171 (formerly EETE 1210) This course will provide students with the knowledge required to understand and troubleshoot digital electronic circuits. Among the topics discussed are number systems, codes, logic gates, Boolean statements, combinational logic, flip flops, counters, shift registers, memory and storage, and integrated circuit technologies. Knowledge will be gained through lecture, textbook assignments, hands on laboratory experiments, and simulated virtual experiments utilizing virtual circuit software. (4 contact hrs) South Campus. ELEC 1221 Microcontrollers With Robotic Application 3.00 credit hours Prerequisite: ELEC 1211 This course will provide students with the knowledge required to understand, program, and apply microcontrollers (pic chips) to robotic applications using the Basic Stamp. The first half of the class will be spent learning to program and interface simple circuitry using the Basic Stamp interface board. The second half of the class will be spent applying this knowledge to a mobile robot with onboard sensors. Among the topics discussed are pic chip programming, controlling inputs and outputs, motion and rotational control, digital displays, measurement of light, frequency and sound, controlling servo motors, robotic navigation, tactile sensing, light sensitive navigation, and robotic control with distance detection. Knowledge will be gained through lecture, textbook assignments, hands on laboratory experiments, and project troubleshooting. (4 contact hrs) South Campus. ELEC 1230 Troubleshooting 1 3.00 credit hours Prerequisite: ELEC 1171 Corequisite: ELEC 1240 (Recommended) (formerly ECS 123) Study of signal processing circuitry. Horizontal and vertical scan circuits, video display terminals, RF circuitry, power supplies. Use of test equipment to trace signal flow paths and to evaluate operating parameters. (4 contact hrs) South Campus. Fall semester. ELEC 1240 Troubleshooting 2 3.00 credit hours Prerequisite: ELEC 1230 (formerly ECS 124) Diagnosis of faults in signal processing circuits and associated control circuits. Fault location and correction in video display terminals. Replacement procedures for defective components. Use of test equipment to locate defective components. (4 contact hrs) South Campus. Fall semester. ELEC 1250 Introduction to Audio & Video Technology 2.00 credit hours This course focuses on application of electronic concepts with components in audio and video technology. Also covered are mechanical hookups, connections and basic electronic troubleshooting, and servicing. The student will become familiar with basic electronic equipment used in an audio and video studio, and troubleshoot operational and connection problems. (2 contact hrs) South Campus. ELEC 1300 Electric Theory Electrical Equipment & Introduction to Machine Circuits 2.00 credit hours (formerly ATEE 1300) After a brief introduction to the fundamentals of electricity, this course covers wire size, insulation, connections, and wiring methods. Topics also include switches, relays, motor starters, and other control components. ELEC 1300 also introduces machine tool control circuits, maintenance procedures, and safe working practices. (2 contact hrs) South Campus. ELEC 1310 Electrical Basic Direct & Alternating Current Motor Control Circuits 2.00 credit hours Prerequisite: ATAM 1350 or ELEC 1300 (formerly ATEE 1250) ELEC 1310 provides an introduction to D.C. and A.C. motor control circuits. Topics include fundamental concepts of electricity and magnetism, series and parallel circuits, D.C. motors and generators, basic electrical instruments, A.C. motors, and electric motor control symbols and circuits. (2 contact hrs) South Campus. ELEC 2005 Discrete Amplifiers & Introduction to Op Amps 3.00 credit hours Prerequisite: ELEC 1192 (formerly EETE 1191) ELEC 2005 provides students theory and practical experimentation dealing with discrete transistor amplifiers and basic operational amplifier circuits. Among the circuits to be discussed are Voltage, Power, CC and CB amplifiers as well as inverting, non inverting, differential, and summing op amp amplifiers. (4 contact hrs) South Campus. 6

ELEC 2010 Instrumentation 1 Transducer Theory 3.00 credit hours Prerequisite: ELEC 1211 (formerly EETE 2010) ELEC 2010 covers theory and application of the following devices and topics: Thevenin s Theorem, operational amplifiers, passive and active filters, loading, oscilloscope operation and the following transducers: I.C. temperature, thermistor, RTD, thermocouple, capacitance sensor, strain gauge, LVDT and others. Students will use Electronics Workbench to simulate electronic circuits and instrumentation. (8 contact hrs per week for 8 weeks) ELEC 2150 LabVIEW Basics 1 3.00 credit hours Prerequisite: ELEC 1211 or approval of program advisor (formerly ELEC 2911) ELEC 2150 will provide an introduction to the LabVIEW graphical system design platform. Students create, edit, and execute programs that utilize basic LabVIEW functions. (8 contact hrs per week for 8 wks) South Campus. ELEC 2160 LabVIEW Basics 2 3.00 credit hours Prerequisite: ELEC 2150 (formerly ELEC 2912) ELEC 2160 will build upon the foundation of knowledge established in ELEC 2150 in further exploring the functionality of the LabVIEW programming platform. (8 contact hrs per week for 8 wks) South Campus. ELEC 2270 Microcontroller Programming 3.00 credit hours Prerequisite: ELEC 1211 and either ELEC 1192 or ELEC 2005 (formerly EETE 2270) ELEC 2270 stresses the concepts of microcontroller programming including instruction sets, loops, software delays and data structures. (8 contact hrs per week for 8 weeks) South Campus. ELEC 2370 Electrical Polyphase Alternating Current Fundamentals, Electrical Instruments & Illumination 2.00 credit hours Prerequisite: ELEC 1171 or ATEE 2350 or related work experience (formerly ATEE 2360) ELEC 2370 covers three and four wire two phase circuits, three phase induction, star and delta circuits, power, balanced and unbalanced loads, transformer principles, characteristics and connection, electrical instruments, self synchronous systems, protective relays, lamps and illumination. (2 contact hrs) South Campus. ELEC 2380 Electrical Alternating Current Machines 2.00 credit hours Prerequisite: ELEC 2370 or related work experience (formerly ATEE 2260) ELEC 2380 examines alternators, rotating magnetic fields, A.C. motors, speed control, types of winding, introduction to A.C. motor control. (2 contact hrs) South Campus. ELEC 2400 Microprocessor Interfacing 3.00 credit hours Prerequisite: EETE 2270 or ELEC 2270 (formerly EETE 2400) ELEC 2400 covers interfacing the microcomputer in serial and parallel format. Topics include handshake control, PIA, ACIA, UARTS, AD and DA conversions, interfacing the microcomputer to TTYs CRTs Modems, floppy disks, dynamic and static memories, and electrical/mechanical devices. (8 contact hrs per week for 8 weeks) South Campus. ELEC 2410 Electrical National Electrical Code 2.00 credit hours (formerly ATEE 2410) ELEC 2410 studies national and local electrical codes for wiring and apparatus. It covers wiring design and protection, wiring methods and materials, general use equipment, special occupancies, special equipment, and the use of tables and diagrams for the solution of practical wiring problems. (2 contact hrs) South Campus. ELEC 2490 Instrumentation 2 Advanced Op Amps & Linear Integrated Circuits 3.00 credit hours Prerequisite: ELEC 2010 (formerly EETE 2490) ELEC 2490 focuses on operational amplifier applications, passive and active filters, voltage compositors, phase locked loop and data acquisition. (4 contact hrs) South Campus. 7

ELEC 2550 Electrical Industrial Electronic Fundamentals 2.00 credit hours Prerequisite: ELEC 1171 or ATEE 2350 or related work experience (formerly ATEE 2550) ELEC 2550 provides an introduction to electronics which includes semiconductor theory and circuits, transistor theory and circuits, power supplies, oscillator circuits, photosensitive devices, and pulse circuits. (2 contact hrs) South Campus. ELEC 2560 Electrical Welding Controllers 2.00 credit hours Prerequisite: ELEC 2550 or related work experience (formerly ATEE 2560) Resistance welders and controllers are the main topics of ELEC 2560. Subtopics include spot welders, various types of welder controllers, plug in accessories, test equipment, portable and stationary welders, and arc welders. (2 contact hrs) South Campus. ELEC 2650 Computer Servicing 1 4.00 credit hours (formerly ECS 265) The student will become familiar with personal computer equipment and computer servicing concepts. Topics covered are disassembly and assembly procedures, identification and replacement of parts, configuration problems, and electrostatic considerations. Emphasis will be on troubleshooting and diagnostic routines and procedures. (4 contact hrs) South Campus. ELEC 2660 Computer Servicing 2 4.00 credit hours Prerequisite: ELEC 2650 (formerly ECS 266) Continuation of ELEC 2650. The course will acquaint the student with fundamental computer servicing concepts. The student will become familiar with computer equipment and peripherals, including monitors, mice, printers, CD ROM drives and sound cards. Emphasis will be on troubleshooting and diagnostic routines and procedures. (4 contact hrs) South Campus. PHSA 1050 Physical Science 4.00 credit hours (formerly PHS 105A) No credit after NSC 118 or PHS 101. An overview of the physical sciences, to illustrate the underlying physical concepts of modern technological society. These concepts are investigated through selected laboratory experiences and classroom work designed to improve a general understanding of the physical sciences. (4 contact hrs) PHYS 1180 College Physics 1 4.00 credit hours Prerequisite: MATH 1000 with grade C or better, or higher level math course, or math placement score (formerly PHYS 1160) The first of a two semester sequence of algebra based courses designed to present the fundamental principles of physics including mechanics and fluids. The student will also perform integrated experiments dealing with the physics of mechanics and fluids. (6 contact hrs) TMTH 1150 RCL Analysis 4.00 credit hours (formerly TMT 115) Basic algebra, formula transposition, scientific notation (powers of 10), trigonometry, special products and factoring. Application of algebra and formulas to solving network simplification. Simultaneous equations. Resistive D.C. circuits and reactive A.C. circuits (inductive and captive), calculations to support EETE 1160 and EETE 1170. (4 contact hrs) South Campus. 8