ANALOG ELECTRONICSThis text offers a comprehensive introduction to a wide, relevant array of topics in analog electronics. It is intended for students pursuing courses in electrical, electronics, computer, and related engineering disciplines. Beginning with a review of linear circuit theory and basic electronic devices, the text moves on to present a detailed, practical understanding of many analog integrated circuits. The most commonly used analog IC to build practical circuits is the operational amplifier or op-amp. Its characteristics, basic configurations and applications in the linear and nonlinear circuits are explained. Modern electronic systems employ signal generators, analog filters, voltage regulators, power amplifiers, high frequency amplifiers and data converters. Commencing with the theory, the design of these building blocks is thoroughly covered using integrated circuits. The development of microelectronics technology has led to a parallel growth in the field of Micro-electromechanical Systems (MEMS) and Nano-electromechanical Systems (NEMS). The IC sensors for different energy forms with their applications in MEMS components are introduced in the concluding chapter. Several computer-based simulations of electronic circuits using PSPICE are presented in each chapter. These examples together with an introduction to PSPICE in an Appendix provide a thorough coverage of this simulation tool that fully integrates with the material of each chapter. The end-of-chapter problems allow students to test their comprehension of key concepts. The answers to these problems are also given. |
Contents
Operational Amplifier Basics | 97 |
Special Purpose Linear Opamp Circuits | 152 |
iii | 162 |
Active Filters | 188 |
Nonlinear Operational Amplifier Circuits | 250 |
Signal Generators | 319 |
Voltage Regulators | 375 |
Integrated Circuit Power Amplifiers | 444 |
High Frequency Amplifiers | 482 |
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Common terms and phrases
A/D converter amplifier amplitude analog input analog signal applications bandwidth biased C₁ C₂ capacitance capacitor circuit for Example circuit of Fig circuit shown code is given components configuration current source device differential emitter equation equivalent circuit error feedback ideal impedance inductor input signal input voltage instrumentation amplifier integrated circuits linear load current low-pass filter maximum modulation MOSFET negative node noninverting op-amp open-loop operation oscillator output resistance output voltage parameters phase plot power supply PROBE END PSPICE code R₁ R₂ reference voltage resistor results using PSPICE sensor shown in Fig Solution SUBCKT supply voltage switch temperature Thévenin equivalent transducers transfer characteristic transfer function transistor V₁ V₂ voltage gain voltage regulator voltage source Vout Vref Vsat waveform Write the PSPICE zener diode zero ΚΩ
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