Chapter 1: Virtual Instruments of the Analog Discovery Board 1.1 Analog Discovery Board 1.2 WaveForms Software 1.3 Power Supplies 1.4 Voltmeters 1.5 Arbitrary Waveform Generators 1.6 Oscilloscope 1.7 Network Analyzer 1.

8 Spectrum Analyzer Problems Chapter 2: Basic Circuit Laws 2.1 Ohm''s Law 2.2 Kirchhoff''s Voltage Law 2.3 Kirchhoff''s Current Law 2.4 Linearity Property 2.5 Thevenin and Norton Theorems Problems Chapter 3: Transient Analysis 3.1 RC Circuits 3.2 RL Circuits 3.

3 RLC Circuits Problems Chapter 4: Impedance, Power Calculation and Frequency Response 4.1 Impedance Measurements 4.2 RMS Values 4.3 Complex Power 4.4 Frequency Response Problems Chapter 5: Operational Amplifiers 5.1 Properties of the Op Amp 5.2 Inverting Amplifier 5.3 Non-inverting Amplifier 5.

4 Weighted Summer 5.5 Integrator and Differentiator 5.6 Active Filter Circuit Problems Chapter 6: Diodes 6.1 Diode Characteristics 6.2 Half-Wave Rectification 6.3 Peak Detector 6.4 Full-Wave Rectification 6.5 Full-Wave Rectification with Smoothing Filter Problems Chapter 7: Transistors 7.

1 Bipolar Junction Transistors 7.2 Mosfet Characteristics 7.3 Biasing of BJT Amplifiers 7.4 Biasing of MOSFET Amplifiers 7.5 Frequency Response of BJT Amplifiers 7.6 Frequency Response of MOSFET Amplifiers Problems Bibliography Index Examples Example 1.1 Use of the Analog Discovery Power Supply and Voltmeter Example 1.2 Resistor-LED Circuits Example 1.

3 Arbitrary Waveform Generator Signal Displayed on ADB Scope Example 1.4 Magni Impedance, Power Calculation and Frequency Response 4.1 Impedance Measurements 4.2 RMS Values 4.3 Complex Power 4.4 Frequency Response Problems Chapter 5: Operational Amplifiers 5.1 Properties of the Op Amp 5.2 Inverting Amplifier 5.

3 Non-inverting Amplifier 5.4 Weighted Summer 5.5 Integrator and Differentiator 5.6 Active Filter Circuit Problems Chapter 6: Diodes 6.1 Diode Characteristics 6.2 Half-Wave Rectification 6.3 Peak Detector 6.4 Full-Wave Rectification 6.

5 Full-Wave Rectification with Smoothing Filter Problems Chapter 7: Transistors 7.1 Bipolar Junction Transistors 7.2 Mosfet Characteristics 7.3 Biasing of BJT Amplifiers 7.4 Biasing of MOSFET Amplifiers 7.5 Frequency Response of BJT Amplifiers 7.6 Frequency Response of MOSFET Amplifiers Problems Bibliography Index Examples Example 1.1 Use of the Analog Discovery Power Supply and Voltmeter Example 1.

2 Resistor-LED Circuits Example 1.3 Arbitrary Waveform Generator Signal Displayed on ADB Scope Example 1.4 Magnip;lt;P>7.1 Bipolar Junction Transistors 7.2 Mosfet Characteristics 7.3 Biasing of BJT Amplifiers 7.4 Biasing of MOSFET Amplifiers 7.5 Frequency Response of BJT Amplifiers 7.

6 Frequency Response of MOSFET Amplifiers Problems Bibliography Index Examples Example 1.1 Use of the Analog Discovery Power Supply and Voltmeter Example 1.2 Resistor-LED Circuits Example 1.3 Arbitrary Waveform Generator Signal Displayed on ADB Scope Example 1.4 Magnitude and Phase Characteristics of a RLC Circuit Example 1.5 Frequency Response of a Square Wave Example 2.1 Ohm''s Law Example 2.2 Kirchhoff''s Voltage Law Example 2.

3 Kirchhoff''s Current Law Example 2.4 Homogeneity Property of Linear Circuit Example 2.5 Thevenin''s and Norton''s Equivalent Circuit Example 3.1 Charging and Discharging of a Capacitor Example 3.2 Charging and Discharging of an Inductor Example 3.3 Transient Response of RLC Circuit Example 4.1 Determining the Impedance of a Circuit Example 4.2 RMS Values of Two Periodic Signals Example 4.

3 Determining the Complex Power of a Circuit Example 4.4 Frequency Response of a RLC Resonant Circuit Example 5.1 Inverting Amplifier Example 5.2 Non-inverting Amplifier Example 5.3 Summer Amplifier Example 5.4 Converting Square Wave to Triangular Waveform Example 5.5 Frequency Response of a Notched Filter Example 6.1 Diode Characteristics Example 6.

2 Half-Wave Rectification Example 6.3 Battery Charging Circuit Example 6.4 Ripple Voltage of Half-wave Rectifier Example 6.5 Full-wave Bridge Rectifier Example 6.6 Full-wave Rectification with Smoothing Filter Example 7.1 BJT Output Characteristics Example 7.2 BJT Input Characteristics Example 7.3 Output Characteristics of N-channel MOSFET Example 7.

4 Input Characteristics of N-channel MOSFET Example 7.5 Bias Point of BJT Amplifier Circuit Example 7.6 Bias Point of MOSFET Amplifier Circuit Example 7.7 Frequency Response of Common Emitter Amplifier Example 7.8 Characteristics of Emitter Follower Circuit Example 7.9 Frequency Response of Common Source Amplifier Example 7.10 Frequency Response of Common Drain Amplifier lifier Example 5.2 Non-inverting Amplifier Example 5.

3 Summer Amplifier Example 5.4 Converting Square Wave to Triangular Waveform Example 5.5 Frequency Response of a Notched Filter Example 6.1 Diode Characteristics Example 6.2 Half-Wave Rectification Example 6.3 Battery Charging Circuit Example 6.4 Ripple Voltage of Half-wave Rectifier Example 6.5 Full-wave Bridge Rectifier Example 6.

6 Full-wave Rectification with Smoothing Filter Example 7.1 BJT Output Characteristics Example 7.2 BJT Input Characteristics Example 7.3 Output Characteristics of N-channel MOSFET Example 7.4 Input Characteristics of N-channel MOSFET Example 7.5 Bias Point of BJT Amplifier Circuit Example 7.6 Bias Point of MOSFET Amplifier Circuit Example 7.7 Frequency Response of Common Emitter Amplifier Example 7.

8 Characteristics of Emitter Follower Circuit Example 7.9 Frequency Response of Common Source Amplifier Example 7.10 Frequency Response of Common Drain Amplifier p;lt;P>Example 7.6 Bias Point of MOSFET Amplifier Circuit Example 7.7 Frequency Response of Common Emitter Amplifier Example 7.8 Characteristics of Emitter Follower Circuit Example 7.9 Frequency Response of Common Source Amplifier Example 7.10 Frequency Response of Common Drain Amplifier.