Electronics (I) -112 Academic Year | Department of Electrophysics Prof. Jenn-Fang Chen

Course Homepage
Course Video
Course Syllabus

This course is provided by NYCU Electrophysics .

Chapter 1 Basic Ideas

1.1 Voltage current and resistance

1.2 Circuit analysis, equivalent circuit and source representation

1.3 Capacitor and a capacitive microphone

1.4 DC and AC voltage charging C, transient and steady-state solutions

1.5 DC voltage blocking and ac voltage passing

1.6 Equivalent model for C charging

1.7 Phasor analysis, RC circuits and Bode plots

1.8 Impedance C in the phasor analysis and amplifier concepts

1.9 A simple MOS amplifier, DC operating point and AC amplification

Chapter 2 Operational Amplifiers

2.1 Ideal properties, negative feedback, virtual short circuit, amplifiers and adders

2.2 Differential amplifier, instrumentation amplifier, EKG measurements and voltage and current limitations

2.3 Integrator, and DC offset problem and its effects

2.4 Integrator with additional resistance, Bode plots, differentiator and solving a differential equation

2.5 P-N junction photodetector and its equivalent model

2.6 Current-voltage converter for photodetector, automatic street-light control system

2.7 Automatic street-light system with BJT and protection diode

2.8 Modeling of OP converters

2.9 Summary of various OP converters

2.10 OP bandwidth and Slew rate (SR)

2.11 OP with BJT to increase current-driving capability and class AB output stage

2.12 Class AB output stage with diodes and a simple stereo system

Textbooks：Microelectronic circuits by Sedra/Smith.

For perfect learning results, please buy textbooks!

Instructor(s)	Department of Electrophysics Prof. Jenn-Fang Chen
Course Credits	3 Credits
Academic Year	112 Academic Year
Level	College Students
Prior Knowledge	The prerequisite for taking this course is to have a knowledge of basic circuit ideas
Related Resources	Course Video Course Syllabus

Week	Course Content	Course Video
	Chapter 1 Basic Ideas 1.1.1 Voltage 1.1.2 Current 1.1.3 Resistance 1.1.4 Basic circuits	Watch Online
	1.2.1 Circuit analysis 1.2.2 Equivalent circuit 1.2.3 Source representation	Watch Online
	1.3.1 Capacitor 1.3.2 Capacitive microphone	Watch Online
	1.4.1 DC voltage charging C 1.4.2 Transient and steady-state solutions 1.4.3 AC voltage charging C	Watch Online
	1.5.1 Basic C concepts 1.5.2 Blocking DC voltage 1.5.2 Condition for ac voltage passing	Watch Online
	1.6.1 Equivalent model for C charging	Watch Online
	1.7.1 Phasor analysis 1.7.2 RC circuit 1.7.3 Bode plots	Watch Online
	1.8.1 Impedance C in the phasor analysis 1.8.2 DC and AC circuits 1.8.3 Amplifier concepts	Watch Online
	1.9.1 A simple MOS amplifier 1.9.2 DC operating point 1.9.3 AC amplification	Watch Online
	Chapter 2 Operational Amplifiers 2.1.1 Ideal properties 2.1.2 Negative feedback 2.1.3 Virtual short circuit 2.1.4 Voltage follower 2.1.5 Positive-gain amplifier 2.1.6 Adder 2.1.7 Negative-gain amplifier	Watch Online
	2.2.1 Differential amplifier 2.2.2 Instrumentation amplifier 2.2.3 EKG measurements 2.2.4 Right-leg drive circuit 2.2.5 Voltage and current limitations	Watch Online
	2.3.1 Integrator 2.3.2 Square to triangular waves converter 2.3.3 DC offset problem 2.3.4 Effect of offset on integrator	Watch Online
	2.4.1 DC problem with the integrator 2.4.2 Integrator with additional resistance 2.4.3 Bode plots of integrator 2.4.4 Differentiator 2.4.5 Differentiator with additional resistance 2.4.6 Solving a differential equation	Watch Online
	2.5.1 P-N junction photodetector 2.5.2 P-N diodes 2.5.3 Equivalent model of p-n photodetector	Watch Online
	2.6.1 Current-voltage converter for photodetector 2.6.2 Automatic street-light control system 2.6.3 BJT current and voltage 2.6.4 The protection diode	Watch Online
	2.7.1 A photo sensor 2.7.2 Current-voltage converter 2.7.3 Light-emitting devices	Watch Online
	2.8.1 Amplifier ac modeling 2.8.2 Modeling for current-voltage converter 2.8.3 Modeling for voltage-current converter 2.8.4 Current-current amplifier	Watch Online
	2.9.1 Summary of OP converters	Watch Online
	2.10.1 OP bandwidth and Slew rate (SR) 2.10.2 Avoid SR distortion	Watch Online
	2.11.1 BJT current amplification 2.11.2 OP with BJT to increase current-driving capability 2.11.3 Class AB output stage	Watch Online
	2.12.1 Class AB output stage with diodes 2.12.2 A simple stereo system	Watch Online

Course Chapters

Week	Course Schedule and Topic
	Chapter 1 Basic Ideas
	1.1 Voltage current and resistance 1.2 Circuit analysis, equivalent circuit and source representation 1.3 Capacitor and a capacitive microphone 1.4 DC and AC voltage charging C, transient and steady-state solutions 1.5 DC voltage blocking and ac voltage passing 1.6 Equivalent model for C charging 1.7 Phasor analysis, RC circuits and Bode plots 1.8 Impedance C in the phasor analysis and amplifier concepts 1.9 A simple MOS amplifier, DC operating point and AC amplification
	Chapter 2 Operational Amplifiers
	2.1 Ideal properties, negative feedback, virtual short circuit, amplifiers and adders 2.2 Differential amplifier, instrumentation amplifier, EKG measurements and voltage and current limitations 2.3 Integrator, and DC offset problem and its effects 2.4 Integrator with additional resistance, Bode plots, differentiator and solving a differential equation 2.5 P-N junction photodetector and its equivalent model 2.6 Current-voltage converter for photodetector, automatic street-light control system 2.7 Automatic street-light system with BJT and protection diode 2.8 Modeling of OP converters 2.9 Summary of various OP converters 2.10 OP bandwidth and Slew rate (SR) 2.11 OP with BJT to increase current-driving capability and class AB output stage 2.12 Class AB output stage with diodes and a simple stereo system

Textbooks

Microelectronic circuits by Sedra/Smith