EL 107 - Technical Electronics Description This course is an introduction to the technical concepts of semiconductor electronic components, circuits and theory; principles of current and voltage control devices; basic circuits for power supplies and amplifiers; and the construction of basic circuits and the use of test equipment. Credit Hours: 4 Contact Hours: 6 School: School of Business & Industry Department: Applied Technology Discipline: EL Major Course Revisions: N/A Last Revision Date Effective: 20230216T17:59:12 Course Review & Revision Year: 2027-2028 Course Type: Program Requirement- Offering designed to meet the learning needs of students in a specific GRCC program. Course Format: Lecture/Lab - Must meet Lecture & Lab Ratios
General Education Requirement: None General Education Learner Outcomes (GELO): NA Course Learning Outcomes:
- Present the theory of semiconductor construction and function.
- Observe and analyze the effects of diodes in a variety of electronic diodes.
- Define power supply components and circuits.
- Describe characteristics of bipolar junction transistors.
- Calculate operating values for bipolar junction transistor amplifiers.
- Identify the key attributes for Operational Amplifiers.
- Complete work accurately, with attention to detail.
- Work well in teams and with others.
Approved for Online Delivery?: No Course Outline: I. Semiconductors and Diodes
A. Describe how a silicon diode operates
B. Analyze circuits with zener diodes
C. Observe the characteristics of Opto-electric devices
II. Power supply circuits and regulators
A. Identify the critical parts of a linear power supply
B. Observe the effects of a capacitor filter
C. Calculate power supply circuit parameters
III. Bipolar Junction Transistor (BJT) characteristics
A. Build DC circuits that utilize BJT transistors
B. Analyze DC parameters various BJT transistor amplifiers
C. Identify BJT transistor operating points
IV. BJT Amplifiers, MOSFETS, and Thyristors
A. Analyze AC parameters in various BJT amplifiers
B. Build and analyze circuits that use a MOSFET
C. Observe the effects of a Thyristor in an AC circuit.
V. Operational amplifiers and integrated circuits.
A. Describe the critical parameters of an Operational Amplifier
B. Analyze Operational Amplifier circuits
C. Build and analyze operational amplifier circuits. Mandatory CLO Competency Assessment Measures: None Name of Industry Recognize Credentials: None Instructional Strategies: Lecture and unit tests: 40-60%
Hands-on lab experiments with worksheets: 40-60%
Mandatory Course Components: None Academic Program Prerequisite: None Prerequisites/Other Requirements: None English Prerequisite(s): None Math Prerequisite(s): None Course Corerequisite(s): EL 106 or EL 144 Course-Specific Placement Test: None Course Aligned with IRW: IRW 98, IRW 99 Consent to Enroll in Course: No Department Consent Required Total Lecture Hours Per Week: 2 Total Lab Hours Per Week: 4 Faculty Credential Requirements: Master’s Degree (GRCC general requirement), Professionally qualified through work experience in field (Perkins Act or Other) (list below) Faculty Credential Requirement Details: The instructor must have at least 2 years of work experience in the Electrical/Electronics field to effectively teach this course. General Room Request: ATC 303 or ATC 315 for the lab portion. Maximum Course Enrollment: 20 Equivalent Courses: None Dual Enrollment Allowed?: Yes Number of Times Course can be taken for credit: 1 Programs Where This Courses is a Requirement: Electrical Controls Engineering Technology, A.A.A.S, Electrical Controls/Mechatronics Certificate, Electronics Engineering Technology Certificate, Electronics Engineering Technology, A.A.A.S People Soft Course ID Number: 101421 Course CIP Code: 15.9999 High School Articulation Agreements exist?: No If yes, with which high schools?: NA Non-Credit GRCC Agreement exist?: No If yes, with which Departments?: NA Corporate Articulation Agreement exist?: No If yes, with which Companies?: NA
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