CHAPTER 1: LOAD LINE ANALYSIS AND FOURIER SERIES 1.1 LOAD LINE ANALYSIS \t1.2 FOURIER SERIES \tCHAPTER 2: DIODE CIRCUITS 2.1 THE V-I CHARACTERISTIC OF DIODES \t2.2 ANALYSIS/SIMULATION OF DIODE CIRCUITS \t2.3 ZENER DIODES CHAPTER 3: TRANSISTOR CIRCUITS 3.1 BJT (BIPOLAR JUNCTION TRANSISTOR) \t3.2 BJT AMPLIFIER CIRCUITS \t3.3 LOGIC GATES USING DIODES/TRANSISTORS \t3.4 FET (FIELD-EFFECT TRANSISTOR) \t3.4.1 JFET (Junction FET) \t3.4.2 MOSFET (Metal-Oxide-Semiconductor FET) \t3.4.3 MOSFET Used as a Resistor \t3.4.4 MOSFET Inverter \t3.4.5 CMOS Logic Circuits 3.5 FET AMLIFIER \t3.5.1 Common-Source Amplifier \t3.5.2 Common-Drain Amplifier (Emitter Follower) \t3.5.3 Common-Gate Amplifier \t3.5.4 Common-Source Amplifier with FET Load 3.6 DESIGN OF TRANSISTOR AMPLIFIER \t3.6.1 Design of BJT AMplifier \t3.6.2 Design of FET Amplifier
CHAPTER 4: OP AMP CIRCUITS 4.1 OP AMP BASICS 4.2 OP AMP CIRCUITS WITH RESISTORS \t4.2.1 OP Amp Circuits with Negative Feedback \t4.2.2 OP Amp Circuits with Positive Feedback 4.3 FIRST-ORDER OP AMP CIRCUITS \t4.3.1 First-Order OP Amp Circuits with Negative Feedback \t4.3.2 First-Order OP Amp Circuits with Positive Feedback \t4.3.3 555 Timer Using OP Amp as Comparator 4.4 SECOND-ORDER OP AMP CIRCUITS \t4.4.1 MFB (Multi-Feedback) Topology \t4.4.2 Sallen-Key Topology 4.5 ACTIVE FILTER \t4.5.1 First-Order Active Filter \t4.5.2 Second-Order Active LPF/HPF \t4.5.3 Second-Order Active BPF \t4.5.4 Second-Order Active BSF
CHAPTER 5: ANALOG FILTER 5.1 ANALOG FILTER DESIGN 5.2 PASSIVE FILTER REALIZATION \t5.2.1 Lowpass Filter (LPF) \t5.2.2 Highpass Filter (HPF) \t5.2.3 Bandpass Filter (BPF) \t5.2.4 Bandstop Filter (BSF) \t5.2.5 Frequency Scaling and Transformation\t219\t5.2.6 Multistage LC Filter\t221 \t5.2.7 L-Type Impedance Matcher \t5.2.8 T- and -Type Impedance Matchers 5.3 ACTIVE FILTER REALIZATION