| OCR Text |
Show • Electronic Engineering Tech Electronic Engineering Tech 148. Circuit Analysis and Operational Amplifiers Laboratory (2) A, S Two three-hour laboratory periods each week. Must be taken concurrently with Eltech 147. 150. Instruments and Measurement (3) A, W, S Introduction to the structure and design of electronics instruments. Emphasis is placed on the use of instruments in measurements, their limitations and their capabilities. Prerequisites: Math 106 or Reltech 115, Eltech 124, 136 and 137. One lecture and two three- hour labs each week. 154. Semiconductor Devices & Circuits (5) A, W A study of basic electronic amplifying circuits employing semiconductor devices. Topics include transistor bias, bias stability, thermal limitations, gains, frequency response, and bandwidth. Prerequisites: Eltech 147, 148 or may be taken concurrently with Eltech 147, 148. 189. Cooperative Work Experience (1-9) A, W, S Open to all first year students in Electronic Technology. The course objectives for each student will be developed between the student, the department, and a suitable employer providing the opportunity for on-the-job experience. Evaluation of course participants will be shared between the employer, student, and the department. 222. Digital Design (4) A, W, S A continuation of Electronic Technology 124 involving the design and analysis of multiple input and output digital circuits. Prerequisites: Eltech 124, 154. 239. Electronic Amplifier and Control Systems (4) A, W, S Applications of the principles of electronics and electricity to control systems and amplifier systems. Topics covered include power supplies, oscillators, coupling circuits resonant and tuned circuits. Three one-hour lectures, one three-hour lab per week. Prerequisites: Eltech 154. 246. Electronic Trouble Shooting Techniques (4) W, S Operations, maintenance and adjustments on T.V., computers, computer peripheral equipment. Particular stress will be placed on diagnosis of failures through proper use of test equipment. Four three-hour lecture-lab integrated classes per week. Prerequisites: Eltech 239. 250. Industrial Electronics (3) Industrial applications of electronic circuits; fundamental concepts of induction and dielectric heating, magnetic amplifiers, special oscillator circuits and power rectification. Three lectures. 251. Industrial Electronics Laboratory (2) Testing and operation of basic circuits. Two 3-hour labs a week. 255. Introduction to Microprocessors (4) A, W, S Theory of operation, architecture, machine code programming, and applications. Three lectures, one three-hour lab per week. Prerequisite: Eltech 124 264. Communication Circuits I (4) W, S Analysis of passive communication circuits including resonance, matching networks, high frequency transformers, filtering and repetitive waves. Audio transducers are also included with an introduction to the properties of sound. RF and broadband amplifiers and the Oscillator circuits used in communications. Three one-hour lectures, one three-hour lab per week. Prerequisite: Eltech 239, Reltech 118, or Math 211. 286. International Morse Code (1) Development of considerable skill in sending and receiving Morse code. May be repeated for credit up to three times if satisfactory progress shown. Two labs a week. 289. Cooperative Work Experience (1-9) A, W, S Open to all second year students in Electronic Technology. A continuation of Eltech 189. 292. Short Courses, Workshops, Institutes and Special Programs (1-6) In order to provide flexibility and to meet many different needs, a number of specific offerings are possible using this catalog number. When the number is used it will be accompanied by a brief and specific descriptive title. The specific title with the credit authorized for the particular offering will appear on the student transcript. ELECTRONIC ENGINEERING TECHNOLOGY The Electronic Engineering Technology curriculum is designed for the students who desire to continue their technical training and broaden their education. Because of the diversity of background of the students and the dynamic and changing nature of the field of electronics, students are considered individually when their programs are planned. It is necessary that students consult with a department adviser prior to registering for classes. They will then be assured of building upon previous courses and knowledge in their field. Students desiring to graduate with a bachelor of science degree in Electronic Engineering Technology must satisfy the requirements described below. PROGRAM: ELECTRONIC ENGINEERING TECHNOLOGY-BACHELOR DEGREE Accredited by the Technology Accreditation Commission of the Accreditation Board for Engineering and Technology (ABET). General Requirements: • ABET accreditation requirements (see index). • Specific Requirements (see index). • Requirements for General Education (see index). • A minor is not required. • Electronic Engineering Technology students must have a C or better in major courses. • An overall GPA of 2.00 or C. • A minimum of 199 credit hours. Sixty of the 199 total hours must be upper division courses numbered 300 and above. Specific Requirements: • Courses required: Eltech 124 (5), 136 (5), 137 (2), 144 (4), 147 (5), 148 (2), 150 (3), 154 (5), 222 (4), 239 (4), 246 (4), 255 (4), 264 (4). Elentc 319 (5), 320 (3), 322 (4), 332 (5), 364 (4), 424 (5), 454 (4), 461 (1), 462 (3), 463 (3), 479 (2). Two of the courses selected from the following: Elentc 354 (4), 356 (4), 385 (4), 444 (5), 452 (5), 455 (4), 456 (4), 474 (5), 487 (4), 488 (4), 493 (4-5). • Support courses required: Reltec 119 (3) Engl 210 (3). Student Program Summary forms which contain a quarter-by-quarter outline of courses are available in the department. PROGRAM: ELECTRONIC ENGINEERING TECHNOLOGY HONORS General Requirements: • Enroll in general Honors program and complete at least 10 hours of general Honors courses. • Maintain an overall GPA of 3.3. • Fulfill requirement for the Electronic Technology major leading to the associate of applied science or the Electronic Engineering Technology major leading to the bachelor of science degree. Specific Requirements: • The associate of applied science major must complete at least 25 hours in Electronic Technology courses on an Honors basis, 15 hours of which must be in 200 level courses. The Electronic Engineering Technology major must complete at least 25 hours of Electronic Engineering Technology courses on an Honors basis of which 10 hours must be 400 level courses. • The Electronic Engineering Technology major completes a senior Honors project. • All Electronic Technology courses are available on an Honors basis. Permission from the department chair should be sought before registering in a course for Honors credit. A written agreement should be reached with the appropriate professor regarding the work expected for Honors credit. (See the Interdepartmental Programs section of the catalog.) PROGRAM: ELECTRONIC ENGINEERING TECHNOLOG Y MINOR General Requirements: • Grade of C or better in all minor courses. • Program prerequisites: Math 105 and 106 or Reltec 114 and 115. Specific Requirements: • Courses required (36 credit hours): Eltech 124 (5), 136 (5), 137 (2), 144 (3), 147 (5), 148 (2), 150 (3), 154 (5), Elentc 322 (4), 332 (5). • Additional courses as recommended by the department. ELECTRONIC ENGINEERING TECHNOLOGY COURSES - ELENTC U Information 319. Systems Analysis (5) A, W, S The analysis of systems using differential equations LaPlace transform and Z transform methods. Prerequisites: Eltech 147, 148; Math 212 or Reltec 119. 320. Circuit Analysis (3) A, W, S Advanced topics in circuit analysis including poles and zeroes, frequency response, Fourier series and integrals, complex frequency and computer analysis of electronic problems. Prerequisite: Elentc 319. 322. Logic Design (4) A, S Provide experience in analyzing and designing combinational, clocked sequential and asynchronous sequential digital circuits. Three one hour lectures, one three-hour lab per week. Prerequisite: Eltech 222. 332. Active Networks (5) A,W This course provides the student with the necessary background to analyze and to design active filter networks, covers Butterworth, Chebychev, and elliptic filters. Considers the affect of non-ideal active devices. Four one-hour lectures, one three-hour lab per week. Prerequisites: Elentc 320. 345. FCC License Examination Study (2) Material covered in the Federal Communication Commission, General commercial license examination. Two lectures. Prerequisites: Eltech 147, 148 and 154. 346. FCC License Examination Study (2) A continuation of Elentc 345. Prerequisite Elentc 345. 354. Advanced Electronics (4) A Differential pair amplifier, stability factors, current sources, phase- locked-loop, and the Gummel-Poon, Ebers-Moll, and Hybrid-PI Models. Simulation using "PSPICE" will be accomplished. Prerequisites: Elentc 320 and 364. 356. Microprocessor Software (4) A, W, S An introduction to microprocessor and microcomputer software development. Assemblers, cross assemblers, simulators, and emulators as applied to specific hardware will be used to develop software and hardware integration. Prerequisite: Eltech 255. 364. Communications Circuits II (4) A, W, S A continuation of Eltech 264 with emphasis on receivers and modulation of signals including AM, FM, PM, single side-band and balanced modulators. Three one-hour lectures and one three- hour lab per week. Prerequisite: Eltech 264. 375. Process Instrumentation (4) The basic concepts of temperature, pressure, flow, and volume measurement, final control elements applied to modem industrial practice. Sensors, analog-to-digital conversion and interconnected into industrial control systems and control computers. Three one- hour lectures and one three-hour laboratory period per week. Prerequisites: Eltech 239, Reltec 119, or Math 212. Student Services Interdisc. Programs Allied Health Sciences Arts& Humanities Business & Economics Education Natural Sciences Social Sciences fechnolog1 248 249 Continuing Education |
