Course Information

Semester	Course Unit Code	Course Unit Title	T+P+L	Credit	Number of ECTS Credits	Last Updated Date
6	EEE 312	ELECTRONICS-II	3+0+2	4	6	12.07.2024

Course Details

Language of Instruction	English
Level of Course Unit	Bachelor's Degree
Department / Program	ELECTRICAL-ELECTRONICS E.
Type of Program	Formal Education
Type of Course Unit	Compulsory
Course Delivery Method	Face To Face
Objectives of the Course	Students will learn cascade, compound and basic differential circuit connection, small-signal ac analysis of transistors networks and power amplifier. In addition, students will gain lab experience
Course Content	Small signal analysis of BJT BJT and FET at high frequencies Frequency response of amplifiers Multistage amplifiers Differential amplifiers Operational amplifiers (OPAMP)(linear and nonlinear applications) Power amplifiers: Class A, class B, class AB Linear power supply regulator
Course Methods and Techniques	Face to face
Prerequisites and co-requisities	( EEE 311 )
Course Coordinator	Prof.Dr. Nuran Doğru
Name of Lecturers	Asist Prof.Dr. Mehmet Demir
Assistants	None
Work Placement(s)	No

Recommended or Required Reading

Resources

Electronic Circuit Analysis and Design, Donald A. Neamen

Course Category

Mathematics and Basic Sciences	%10
Engineering	%80
Engineering Design	%10

Planned Learning Activities and Teaching Methods

Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria

ECTS Allocated Based on Student Workload

Activities	Quantity	Duration	Total Work Load
Course Duration	14	3	42
Hours for off-the-c.r.stud	14	7	98
Mid-terms	2	2	4
Laboratory	14	2	28
Final examination	1	2	2
Total Work Load			Number of ECTS Credits 6 174

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:

No	Learning Outcomes
1	Analysis and design of basic analog BJT/MOSFET amplifier configurations
2	Analyze the differential amplifier for the differential and common-mode operation respectively
3	Calculate the differential- and common-mode input and output resistances, the differential voltage gain, the common-mode voltage gain, and the common-mode rejection ratio
4	Analyze and design the BJT/MOSFET amplifier with the cascade/cascode configuration
5	Determine frequency response of amplifier
6	Identify and measure power amplifier classes of operation
7	Calculate amplifier efficiency
8	Recognize and measure amplifier crossover distortion
9	Apply modern simulation tools such as PSPICE for the design, analyses, and performance evaluations of electronic circuits

Weekly Detailed Course Contents

Week	Topics	Study Materials	Materials
1	BJT small signal analysis/ Common emitter (CE)
2	Common emitter (CE)/ Common collector (CC)
3	Common collector (CC)/ Common base (CB)
4	Compound amplifiers (Darlington compound and complementary compound ) /FET small signal analysis (Common source, common drain, comman gate)
5	FET small signal analysis (Common source, common drain, comman gate)
6	Differential amplifiers (differential amplifiers with emitter resistor)
7	1st midterm
8	Differential amplifiers (differential amplifiers with constant current source) /Operational amplifiers (OPAMP)/Linear applications of opamp
9	Nonlinear applications of opamp/ Voltage comparator; Active half-wave and full-wave rectifier/ Active clipper/ Active clamper/ Limiter
10	Schmitt trigger circuit, / Power amplifiers
11	Class A power amplifiers
12	Class B push-pull amplifiers/ Class AB push-pull amplifiers/ Distortion in push-pull power amplifiers
13	2nd midterm
14	Voltage regulator circuits

Contribution of Learning Outcomes to Programme Outcomes

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https://obs.gantep.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=337751&lang=en