Guide Analog Electronics Applications: Fundamentals of Design and Analysis

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Third Edition. McGraw-Hill, Fundamentals of Analog Electronics, an important branch of fundamentals of electronics, is a fundamental technology course in electronic technology area offered to undergraduates in electric and electronic information specialty. In the course, students will acquire basic knowledge, theory and technique for further studying and application of electronic technology in their specialty through learning about semiconductor devices, analog electronic circuit and system analysis and design.

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Students should skillfully master the methods for analyzing quiescent point and AC performance of various amplifiers. Students should skillfully master the methods for analyzing feedback configuration and negative feedback performance of amplifiers.

Modules - Department of Electronics Engineering

Students are familiar with and master the methods for analyzing various application circuits, such as operational circuits, oscillator and signal transfer circuit. Introduction to electronic technology, analog electronic circuit and system, course objectives and outcomes. Master basic analysis methods and virtual instruments in Multisim, and understand characteristic and analysis methods of basic semiconductor devices including diode, Zener diode, and transistor. Master basic DC and AC analysis methods of single stage amplifier such as common collector amplifier and common source amplifier, and understand design methods of them.

Master basic analysis methods of filters such as voltage-control-voltage-source low pass filter, and understand design methods of them. Understand design methods of measurement circuit with operational circuit. Qinghua University Press, Course Objectives and Outcomes: 1.

11 Myths About Analog Noise Analysis

Students should skillfully master the characteristics of semiconductor devices. Course Topics: 1.

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Fundamentals of amplifier Basic concepts of amplifier Common emitter amplifier methods for analyzing amplifier Q point stabilized amplifier Three types of transistor amplifiers Field effect transistor amplifier Darlington connection and amplifier 4. Multistage amplifier Coupling methods of multistage amplifier AC analysis method of multistage amplifier Direct coupled multistage amplifier 5.

ISBN 10: 1498714951

Operational amplifier Introduction Current sources Examples of operational amplifier Performance and equivalent circuit of operational amplifier Classification and selection of operational amplifier 6. Grades and Results Policy. Review of Grade Procedure. Previous Feedback. No previous feedback available Feedback, Recommendations and Responses Every unit is reviewed for enhancement each year. Source: Emails and Moodle feedback.

How to Solve the Diode Circuits (Explained with Examples)

Source: Moodle feedback. Some students were of the opinion that the examination was too long. Consider timing and mark allocation when setting the exam paper. Exam paper length was trimmed, and mark allocation reviewed.

Life in EEE

Improved performance was noticed and student feedback also seemed to reflect this. Source: 'Have Your Say' feedback. Individual emails. Workload distribution especially first half of the term and also the lab reports where no lab partner is available. Investigate moving some of the final theory topics into the Laboratory exercises to make more space time for the foundational topics in the early weeks.

Evaluation Copy

Facilitate lab team formation early in the term and devise a reduced lab report specification for students without a lab partner. Unit learning Outcomes. On successful completion of this unit, you will be able to: Research the operation of semiconductor devices and identify their practical applications. Analyse the operation and application of analogue electronics devices in various applications.

Design the interface and power supply arrangements for typical electronic systems.


Analyse the behaviour of electronic circuits using computer-aided tools. Interpret function requirements, evaluate design options and prepare project documents for typical applications.

Construct electronic circuits to a given design and validate their operation. Interpret and use electronic engineering terminologies and symbols that conform to Australian Standards.

get link Work collaboratively and autonomously to solve problems and record and communicate clearly and professionally the approach used to solve problems. Alignment of Graduate Attributes to Learning Outcomes.