Document Outline
- Front Matter
- Table of Contents
- Part I. Electronics
- 1. Physical Quantities
- 1.1 Charge, Potential, and Current
- 1.2 Magnetic Field
- 1.3 Capacitance and Inductance
- 2. DC Circuits
- 2.1 Branch and Node Analysis
- 2.2 Loop Analysis
- 2.3 Remarks
- 2.4 Problems
- 3. AC Circuits
- 3.1 Alternating Voltage and Current
- 3.2 Resistors as AC Components
- 3.3 Capacitors as AC Components
- 3.4 Inductors as AC Components
- 3.5 Impedance
- 3.5.1 Complex Algebra
- 3.5.2 Complex Impedance
- 3.6 Problems
- 4. Bridge Circuits
- 5. Amplifiers
- 5.1 Noninverting Amplifier
- 5.1.1 Input Resistance
- 5.1.2 Output Resistance
- 5.1.3 Remarks
- 5.2 Inverting Amplifier
- 5.2.1 Input Resistance
- 5.2.2 Output Resistance
- 5.3 Difference Amplifier
- 5.4 Summing Amplifier
- 5.5 Frequency Response
- 5.5.1 Complex Gain
- 5.5.2 Gain Bandwidth
- 5.6 Problems
- 6. Special-Purpose Circuits
- 6.1 Unity-Gain Buffer
- 6.2 Instrumentation Amplifier
- 6.3 Log and Antilog Amplifiers
- 6.4 Constant Current Source
- 6.5 Voltage and Current Conversion
- 6.5.1 Current-to-Voltage Converter
- 6.6 Analog Integration and Differentiation
- 6.6.1 Integrators
- 6.6.2 Differentiators
- 6.7 Problems
- 7. Waveform Generators
- 7.1 Oscillators
- 7.1.1 Wien-Bridge Oscillator
- 7.1.2 Improved Wien-Bridge Oscillator
- 7.1.3 Phase-Shift Oscillator
- 7.2 Pulse Generators
- 7.2.1 Relaxation Oscillator
- 7.2.2 555 Timer
- 7.2.3 Sawtooth Waveform
- 7.3 Crystal Oscillators
- 7.4 Remarks
- 7.5 Problems
- 8. Filters
- 8.1 Passive Filters
- 8.1.1 First-Order Filters
- 8.1.1.1 Low-Pass RC Filter
- 8.1.1.2 Low-Pass RL Filter
- 8.1.1.3 Band-Pass Filter
- 8.1.1.4 Band-Stop Filter
- 8.1.2 Second-Order Filters
- 8.1.2.1 Cascaded Filters
- 8.1.2.2 Low-Pass RLC Filter
- 8.2 Active Filters
- 8.2.1 Second-Order Filters
- 8.2.1.1 Low-Pass
- 8.2.1.2 Normalized Filters
- 8.2.1.3 Design Example
- 8.2.1.4 Band-Pass
- 8.2.2 Third-Order Filters
- 8.3 Remarks
- 8.4 Problems
- 8.5 Bibliography
- Part II. Sensors
- Part III. Measurements
- Index
