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Show Technology Electronic Engineering Technology ELECTRONIC ENGINEERING TECHNOLOGY The Electronic Engineering Technology curriculum is designed for the student who desires to continue his technical training and broaden his education. A student who has sufficient background in electronics may continue his education by pursuing the Electronic Engineering Technology curriculum. Because of the diversity of background of the students and the dynamic and changing nature of the field of electronics, each student is considered individually when his program is planned. It is necessary that each student consult with the department prior to his registering for classes and in this process the student can then be assured of building upon previous courses and knowledge of his field. Students desiring to graduate with a Bachelor of Science Degree in Electronic Engineering Technology must satisfy the requirements described below. Program: Electronic Engineering TechnologyBachelor Degree I. General Requirements: A. Specific course requirements of the college (see index). Exception English 103B (3) or Communication 326 (3). B. Bachelor Degree General Education requirements (see index). C. A minor is not required. D. Electronic Engineering Technology majors must have a C or better in major courses. E. An overall G. P. A. of 2.00 or C. F. 198 total hours required for this degree. G. 60 of the 198 total hours must be upper division (courses numbered 300 and above). II. Specific Requirements: A. Courses required 1. Electronic Technology 247 (5), 248 (2), 254 (5), 264 (4). 2. Electronic Engineering Technology 322 ( 4), 332 ( 5), 350 ( 4), 364 (4), 424 (4), 428 (4), 479 (2). 3. Two of the courses selected from the following group: Electronic Engineering Technology 444 (5), 452 (5), 454 (4), 474 (5), 493 (5). B. Engineering Technology Core (88 credit hours). C. Support courses required: Engineering Technology 319 (5). Program: Electronic Engineering Technology Honors I. General Requirements: A. Enroll in General Honors Program and complete at least 10 hours of General Honors courses. B. Maintain an overall G. P. A. of 3.3. C. Fulfill requirements for Electronic Technology major leading to the Associate of Applied Science Degree or the Electronic Engineering Technology major leading to the Bachelor of Science Degree. II. Specific Requirements: A. In fulfilling requirements for the Associate of Applied Science complete at least 25 hours in Electronic Technology courses on an Honors basis, 15 hours of which must be in 200 level courses. In the case of the Electronic Engineering Technology major complete at least 25 hours of Electronic Engineering courses on an Honors basis of which 10 hours must be 400 level courses. 272 Technology Electronic Engineering Technology B. In the case of the Electronic Engineering Technology major complete a senior Honors project. C. All Electronic Technology courses are available on an Honors basis with the exception of Electronic Technology 126, 224, 246, 266, 276. D. Permission from the department chairman 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 Composite and Interdepartmental Programs.) Program: Electronic Engineering Technology Minor I. General Requirements: A. Grade of C or better in all minor courses. B. Program prerequisites: Mathematics 105 and 106. II. Specific Requirements: A. Courses required (32 credit hours): Electronic Technology 124 (5), 136 (5), 137 (2), 247 (5), 248 (2), 254 (5); Electronics Engineering Technology 322 (4), 332 (5). B. Additional courses recommended in instrument circuits and instrumentation. ELECTRONIC ENGINEERING TECHNOLOGY COURSES 322. Logic Design (4) Provide experience in analyzing and designing combinational, clocked sequential and asynchronous sequential digital circuits. Prerequisite: Electronic Technology 124. Three one hour lectures, one three hour lab per week. 332. Active Networks (5) 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 effect of non-ideal active devices. Prerequisites: Engineering Technology 319, Electronic Technology 247, 248. Four one hour lectures, one three hour lab per week. 345. FCC License Examination Study (2) Material covered in the Federal Communications Commission 2nd class commercial license examination. Two lectures. Prerequisite: Electronic Technology 247, 248, and 254. A 346. FCC License Examination Study (2) Material covered in the Federal Communications Commission 1st class commercial license examination. Two lectures. Prerequisite: Electronic Technology 247, 248, and 254. W 350. Instrumentation and Measurement (4) A study of measurement standards, errors in measuring physical data, transducers, data conversion systems, frequency spectrum and signal enhancement systems. Prerequisite: Engineering Technology 319. Three one hour lectures, one three hour lab per week. 364. Communications Circuits II (4) Lecture and laboratory experiences with some basic communications circuits and devices microphones, amplifiers, limiters, tape recorders and acoustics. Prerequisite: Electronic Technology 264. Three one hour lectures, one three hour lab per week. 389. Cooperative Work Experience (1-9) Open to all third year students in Electronics Engineering Technology. A continuation of Electronic Technology 289. A W S Su 424. Digital Systems (4) The course will provide the student with system design techniques which utilize computers. The student will design and build simple systems. Prerequisite: Electronic Engineering Technology 322. Three one hour lectures, one three hour lab per week. 428. Analog/Digital Systems (4) The student will analyze, design and construct systems such as: automatic test systems, data acquisition systems, data processing systems and digital filters, using analog and digital components and involving hardware and software. Prerequisite: Electronic Engineering Technology 424. Two one hour lectures, two three hour labs per week. 444. Digital Signal Processing (5) An introduction to digital filter analysis and design; also signal processing using Discrete Fourier Transform and Fast Fourier Transform. Prerequisite: Engineering Technology 319. Electronic Engineering Technology 332. Offered every other year. Four one hour lectures, one three hour lab per week. 452. Fundamentals of Automatic Control (5) An introduction to the theory and components of control systems including system response, stability and compensation. Prerequisites: Engineering Technology 319, Electronic Technology 247 and 248. Offered every other year. Four one hour lectures, one three hour lab per week. 454. Microwave Techniques (4) Elementary study of microwave generation and propagating devices; emphasis on phenomena peculiar to microwave signals. Prerequisite: Electronic Engineering Technology 364, Related Technical Education 117. Offered every other-year. Three one hour lectures, one three hour lab per week. 474. Acoustics and Sound (5) Lecture and Lecture-Laboratory experiences in basic acoustic properties and problems. Sound system design with a discussion of microphone techniques and applications, reverberation calculatons and measurement. Prerequisites: Elec- 273 |
