ELECTRICAL ENGINEERING TECHNOLOGY (EET) TRANSFER ASSURANCE GUIDE (TAG) April 22, 2008



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ELECTRICAL ENGINEERING TECHNOLOGY (EET) TRANSFER ASSURANCE GUIDE (TAG) April 22, 2008 Ohio Transfer Module: Ohio Transfer Module (OTM) Requirements: 36-40 semester hours / 54-60 quarter hours. Students should select courses within the OTM that complement the selected major and meet any specific general education requirements. Students are encouraged to complete the OTM within their associate degree programs, to ensure maximum transferability and application of credit. Required Disciplines Minimum Required Hours Recommended Courses Area I. English Composition Area II. Mathematics Area III. Arts & Humanities Area IV. Social Sciences Area V. Natural & Physical Science 3 sem. / 5-6 qtr. 3 sem. / 3 qtr. 6 sem. / 9 qtr. 6 sem. / 9 qtr. 6 sem. / 9 qtr. College Algebra and Pre-Calculus General Physics I (Algebra-based). Full sequence may be required by some institutions. Additional courses beyond the minimum required hours, from any of the disciplines listed above, will count toward the completion of the OTM (36-40 semester hours or 54-60 quarter hours). Advising Note: Students should consult with receiving institution to ensure courses are completed in proper sequence. Students wanting cooperative education programs should consult with target institution as soon as possible. Major Courses Hours/courses listed below that count toward the major or pre-major requirements. a. DC Circuits OET001 Credits: 3 semester hours / 4 quarter hours Advising Notes: This course should be taken as a sequence with AC circuits before transferring. Prerequisite: Algebra b. AC Circuits OET003 Credits: 3 semester hours / 4 quarter hours Advising Notes: This course should be taken as a sequence with DC circuits before transferring Prerequisite: DC Circuits; Prerequisite/Co-requisite: Trigonometry (Trig. requirement may be met by embedded course objectives) c. Digital OET002 Credits: 4 semester hours / 6 quarter hours Advising Notes: d. Microprocessors OET004 Credits: 4 semester hours / 6 quarter hours Advising Notes: Prerequisite/Co-requisite: Digital Circuits e. Electronics OET005 Credits: 4 semester hours / 6 quarter hours Advising Notes: Prerequisite: DC Circuits Transfer Assurance Guides Total Guaranteed Credits (Range) Ohio Transfer Module 36 40 sem. 54 60 qtr. Pre-major / Major 0 18 sem. 0 26 qtr. Institutional Requirements: For entrance and graduation, a transfer student must meet all institutional requirements which would include, but may not be limited to: minimum grade point average, residency requirements, upper division credits attained, minimum grades in specific courses, performance requirements (ex. dance, music) and other requirements of native students from the same institution. Transfer Assurance Guide: Electrical Engineering Technology (EET) April 22, 2008 1

OET0001 - DC CIRCUITS 3 Semester Hours/4 Quarter Hours Prerequisite/Co-requisite: Algebra Related TAGs: Electrical Engineering Technology Outcomes marked with an asterisk are essential and must be taught. 1. Electrical components and quantities* 2. Definitions of voltage, current, electrical resistance and power* 3. Ohm s law, electrical energy and power, Kirchhoff s Laws* 4. Series circuit analysis* 5. Parallel circuit analysis* 6. Series-parallel circuit analysis* 7. Circuit theorems (such as superposition, Thevenin s and Norton s theorems)* 8. Mesh and/or nodal analysis techniques* 9. Properties of capacitors and their behavior under DC conditions* 10. Properties of inductors and their behavior under DC conditions* OET003 - AC CIRCUITS 3 Semester Hours/4 Quarter Hours Prerequisite: DC Circuits; Prerequisite/Co-requisite: Trigonometry (Trig. requirement may be met by embedded course objectives) Related TAGs: Electrical Engineering Technology Outcomes marked with an asterisk are essential and must be taught. 11. Sinusoidal wave properties* 12. Complex numbers and phasors* 13. Behavior of transformers* 14. Steady-state behavior of RC circuits under AC conditions* 15. Steady-state behavior of RL circuits under AC conditions* 16. Steady-state behavior of RLC circuits under AC conditions* 17. Analysis of basic filter circuits* 18. AC network theorems such as Superposition, Thevenin s and Norton s theorems* 19. Three-phase and/or poly-phase systems 20. Power factor analysis Transfer Assurance Guide: Electrical Engineering Technology (EET) April 22, 2008 2

OET002 - Digital 4 Semester Hours/6 Quarter hours Related TAGs: Electrical Engineering Technology Outcomes marked with an asterisk are essential and must be taught. 1. Number systems, operations and codes* 2. Logic gates* 3. Boolean Algebra * 4. DeMorgan s theorem and logic simplification* 5. Combinational logic circuits* 6. Encoders/decoders* 7. Multiplexers/demultiplexers* 8. Adders, subtractors, ALUs* 9. Flip-flops and related devices* 10. Counters* 11. Shift registers* 12. Memory and storage* 13. Integrated circuit technologies* 14. VHDL topics 15. Introduction to microprocessors, computers and buses 16. Introduction to digital signal processing (DSP) 17. Digital communications and transmission standards

OET004 Microprocessors 4 Semester Hours/6 Quarter hours Prerequisite/Co-requisite: Digital Circuits Related TAGs: Electrical Engineering Technology Outcomes marked with an asterisk are essential and must be taught. 1. Microprocessor architecture.* 2. Assembly language programming* 3. Bus timing diagrams * 4. Bus structures* 5. Memory technologies and interfacing* 6. Input/output interface* 7. Input/output systems* 8. Interrupt-processed input/output* 9. Direct memory access (DMA)* 10. Microcontroller applications 11. Microprocessor-based communications

OET005 - ELECTRONICS 4 Semester Hours/6 Quarter Hours Prerequisite: DC Circuits Related TAGs: Electrical Engineering Technology Outcomes marked with an asterisk are essential and must be taught. 1. Semiconductor properties* 2. Diode applications* 3. Special-purpose diodes* 4. Bipolar junction transistors (BJTs)* 5. BJT biasing circuits and stability* 6. BJT amplifier circuits* 7. Multistage amplifier design* 8. Power amplifiers* 9. Field effect transistors (FETs)* 10. JFET and MOSFET biasing circuits* 11. FET amplifier circuits* 12. Frequency analysis* 13. Thyristors and applications* 14. Negative and positive feedback concepts* 15. Oscillators* 16. Op-Amps, circuits and applications* 17. Electronically regulated power supplies*

OMT001 - COLLEGE ALGEBRA 3-4 Semester Hours/4-5 Quarter Hours Recommendation: This course should significantly reflect the Mathematical Association of America's Committee on the Undergraduate Program in Mathematics recommendations. Related TAGs: Biology, Civil/Construction Engineering Technology, Mechanical Engineering Technology, Electrical Engineering Technology The successful College Algebra student should be able to: 1. Represent functions* verbally, numerically, graphically, and algebraically. 2. View a function as a set of ordered pairs or a correspondence between two sets. 3. Find the domain and range of functions*. 4. Perform translations and dilations of functions*. 5. Perform operations (addition, subtraction, multiplication, division, composition) with functions*. 6. Use functions* to model a variety of situations. 7. Solve equations, including application problems. 8. Solve systems of linear equations, including 3 3 systems and application problems. 9. Solve nonlinear inequalities. 10. Apply the factor theorem, the remainder theorem, and the rational roots theorem, including application problems. 11. Find inverses of functions* and relate the graph of a function to the graph of its inverse. 12. Analyze the graph of a function* to answer questions about the function (such as intercepts, domain, range, intervals where the function is increasing or decreasing, possible algebraic definitions, etc.) * This course should consider the following types of functions: 1. polynomial 2. rational 3. root/radical/power 4. exponential and logarithmic 5. piece-wise defined

OMT002 - PRE-CALCULUS 3-4 Semester Hours/4-5 Quarter Hours Recommendation: This course should significantly reflect the Mathematical Association of America's Committee on the Undergraduate Program in Mathematics recommendations. Related TAGs: Civil/Construction Engineering Technology, Mechanical Engineering Technology, Electrical Engineering Technology The successful Pre-Calculus student should be able to: 1. Represent functions* verbally, numerically, graphically, and algebraically. 2. View a function as a set of ordered pairs or a correspondence between two sets. 3. Find the domain and range of functions*. 4. Perform translations and dilations of functions*. 5. Perform operations (addition, subtraction, multiplication, division, composition) with functions*. 6. Solve equations, including application problems. 7. Find inverses of functions* and relate the graph of a function to the graph of its inverse. 8. Analyze the graph of a function* to answer questions about the function (such as intercepts, domain, range, intervals where the function is increasing or decreasing, possible algebraic definitions, etc.) 9. Use functions* to model a variety of situations. 10. Express angles in both degrees and radians. 11. Define the six trigonometric functions in terms of right triangles and the unit circle. 12. Solve right triangles, including application problems. 13. Solve oblique triangles, including application problems. 14. Algebraically manipulate trigonometric expressions using fundamental trigonometric identities. 15. Determine the amplitude, period, and displacement of trigonometric functions. 16. Solve trigonometric equations, including applications. 17. Define inverse trigonometric functions and find their domains, ranges, and graphs. 18. Represent vectors graphically and in both polar coordinates and rectangular coordinates. 19. Perform basic operations with vectors. 20. Solve vector equations, including applications problems. *This course should consider the following types of functions: a. polynomial b. rational

c. root/radical/power d. exponential and logarithmic e. trigonometric and inverse trigonometric f. piece-wise defined

OSC021 GENERAL PHYSICS SEQUENCE (Algebra-based) This is a combination of OSC014 Algebra based Physics I and OSC015 Algebra based Physics II. OSC014 ALGEBRA-BASED PHYSICS I (w/labs) 4-5 Semester Hours/8-10 Quarter Hours Co-requisites: College Algebra and Pre-calculus. Related TAGs: Biology, Chemistry, Civil/Construction Engineering Technology, Electrical Engineering Technology, Mechanical Engineering Technology Understanding and/application of the following topics using algebra concepts and methods where appropriate: 1. Kinematics one and two dimensional 2. Vectors vector Arithmetic 3. Force and Newton s Laws of Motion 4. Work, Energy, Conservation of Energy 5. Linear momentum 6. Collisions 7. Rotational kinematics and dynamics 8. Angular momentum and rotational energy 9. Simple harmonic motion 10. Waves and sound 11. Solid and fluid properties 12. Heat and thermodynamics 13. Kinetic theory of gases OSC015 ALGEBRA-BASED PHYSICS II (w/labs) 4-5 Semester Hours/8-10 Quarter Hours Co-requisites: College Algebra and Pre-calculus. Related TAGs: Chemistry, Civil/Construction Engineering Technology, Electrical Engineering Technology, Mechanical Engineering Technology

Understanding and/application of the following topics using algebra concepts and methods where appropriate: 1. Electric field, potential, forces 2. Current, magnetic field integration over continuous charge/current distribution 3. Quantum physics 4. Atomic physics 5. Nuclear physics 6. Induction and Inductance 7. Resistance 8. Capacitance 9. Basic circuit analysis 10. Electric power 11. EMF 12. Electromagnetic waves 13. Kirchhoff s Law 14. R-L-C circuits 15. Faraday s Law 16. Conductivity 17. Geometric optics 18. Diffraction 19. Interference 20. Polarization

Electrical Engineering Technology Tag Faculty Particpants Name Institution David Barth Edison Community College Charles George Cuyahoga Community College Tommy Hager Washington State Community College Fred Nelson The University of Toledo Dick Powell Northwest State Community College Richard Romei Central Ohio Technical College Ken Sampson Ohio University Athens Tom Selis James A. Rhodes State College Vern Sproat Stark State College of Technology Ken Warfield Shawnee State University

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