Chen Kai-Tai, Chen Yun-Chao. iLAB Analog Circuit Design, Simulation, and Testing

New Moon Education, 2016. — 240 p. — ASIN: B01MYUHGH9.This booklet is designed for students as a supplement to the often insufficient contact hours allocated in the classroom or laboratory session to devote more attention to reinforcing basic, fundamental skills in understanding analog circuit design, testing, debugging and related skills to a level sufficient such that the student may become a competitive candidate during the job interview.
ILAB-Analog is composed of 12 chapters. Each chapter includes a brief introduction and relevant equations.Common Emitter Amplifier.
DC Biasing of Common Emitter Amplifiers.
Modelling the Common Emitter Amplifier using C/C++.
Simulating the Common Emitter Amplifier.
Experimental Circuit Testing.
Common Emitter Amplifier Gain and Emitter Resistance re’.
Chapter Exercises.Common Collector Amplifier.
DC Biasing the Common Collector Amplifier.
Modelling the Common Collector Amplifier using C/C++.
Simulating the Common Collector Amplifier.
Experimental Circuit Testing.
Chapter Exercises.Common Base Amplifier.
Bias in Common Base Amplifier Design.
Common Base Amplifier Design Simulation.
Experimental Circuit Testing.
Chapter Exercises.Multi-Stage Amplifiers.
Amplifier I/O Impedance Measurements.
LTspice Common Emitter Amplifier I/O Impedance Measurement.
LTspice Measurement of Common Collector Input and Output Resistance.
LTspice Common Base Amplifier Input and Output Resistance Measurement.
Experimental Evaluation of Input and Output Broadband Operating Impedance.
Two-Transistor Amplifier Design.
Complementary-Stage Amplifier Design.
BJT Amplifier Design Using Compensation.
Power Amplifier Design Using Cross-Linked Collector BJT.
Using Common Emitter Cross-Linking for Power Amplification.
Experimental Test Circuits.
Chapter Exercises.Differential Amplifier & Current Source.
Simple Current Source Circuit.
Differential Amplifier Circuit.
Differential Amplifier Simulation.
Actual Circuit Evaluation.
Chapter Exercises.Operational Amplifiers.
TL081 Operational Amplifier.
TL081 Op-Amp Basic Function.
TL081 Op-Amp Applications.
Hardware Test Circuit.
Chapter Exercises.Audio Oscillators.
180° Audio Frequency Phase Shifter.
TL081 Positive Feedback Op-Amp Phase-Shift Oscillator.
Wien Bridge Phase Shifter.
TL081 as Wien Bridge Oscillator.
Quadrature Oscillators.
Test of Physical Circuit.
Chapter Exercises.Active Filters.
Low-Pass Filter.
Second-Order Low-Pass Filter.
First-Order High-Pass Filter.
Second-Order High-Pass Filter.
Multiple Feedback of Band-Pass Filters.
Band-Stop Filter.
Active Filter Test Circuit.
Chapter Exercises.High Band, Mid-Band, Frequency Synthesis and Mixers.
High-Frequency Resonant Circuit.
Hartley High Frequency Oscillator.
Colpitts High Frequency Oscillator.
Frequency Mixer.
Frequency Mixer Applications.
Devices and Circuit Testing.
Chapter Exercises.Analog & Digital Conversion and Interface.
Type R2R D-to-A Converter.
DAC0808 Integrated D-to-A Converter.
ADC0804 Integrated Circuit A-to-D Converter.
ADC0804 and DAC0808 Converter Interface.
The Experimental Circuit.
Chapter Exercises.Phase-Lock Loops.
Phase Detector.
Low-Pass Filter.
Amplifier and Voltage Controlled Oscillator.
LM565 IC PLL.
LM565 PLL IC and FM Detector.
LM565 PLL Frequency Multiplier.
Experimental Circuit Configuration.
Chapter Exercises.Sensors and Actuators.
Sensors.
Actuators.
Chapter Exercises.Appendixes:
Using the Breadboard.
LTspice Input and Output Measurements.
Creating Custom LTspice Models.
Subckt Generation and Usage.
Digital Signal Generator & Logic Analyzer.
Using the LM565 PLL.