Op Amps : design, applications, and troubleshooting

Op Amps design, applications, and troubleshooting

OP Amps deliberately straddles that imaginary line between the technician and engineering worlds. Topics are carefully addressed on three levels: operational overview, numerical analysis, and design procedures. Troubleshooting techniques are presented that rely on the application of fundamental ele...

Descripción completa

Detalles Bibliográficos
Autor principal: Terrell, David L. (-)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Boston : Butterworth-Heinemann c1996.
Edición:2nd ed
Materias:
Operational amplifiers.
Amplifiers (Electronics)
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627955406719
Tabla de Contenidos:
  • Front Cover; OP AMPS: Design, Application, and Troubleshooting; Copyright Page; Contents; Preface; Chapter 1. Basic Concepts of the Integrated Operational Amplifier; 1.1 Overview of Operational Amplifiers; 1.2 Review of Important Basic Concepts; 1.3 Basic Characteristics of Ideal Op Amps; 1.4 Introduction to Practical Op Amps; 1.5 Circuit Construction Requirements; 1.6 Electrostatic Discharge; Chapter 2. Amplifiers; 2.1 Amplifier Fundamentals; 2.2 Inverting Amplifier; 2.3 Noninverting Amplifier; 2.4 Voltage Follower; 2.5 Inverting Summing Amplifier; 2.6 Noninverting Summing Amplifier
  • 2.7 AC-Coupled Amplifier2.8 Current Amplifier; 2.9 High-Current Amplifier; 2.10 Troubleshooting Tips for Amplifier Circuits; Chapter 3. Voltage Comparators; 3.1 Voltage Comparator Fundamentals; 3.2 Zero-Crossing Detector; 3.3 Zero-Crossing Detector with Hysteresis; 3.4 Voltage Comparator with Hysteresis; 3.5 Window Voltage Comparator; 3.6 Voltage Comparator with Output Limiting; 3.7 Troubleshooting Tips for Voltage Comparators; 3.8 Nonideal Considerations; Chapter 4. Oscillators; 4.1 Oscillator Fundamentals; 4.2 Wien-Bridge Oscillator; 4.3 Voltage-Controlled Oscillator
  • 4.4 Variable-Duty Cycle4.5 Triangle-Wave Oscillator; 4.6 Troubleshooting Tips for Oscillator Circuits; 4.7 Nonideal Considerations; Chapter 5. Active Filters; 5.1 Filter Fundamentals; 5.2 Low-Pass Filter; 5.3 High-Pass Filter; 5.4 Bandpass Filter; 5.5 Band Reject Filter; 5.6 Troubleshooting Tips for Active Filters; Chapter 6. Power Supply Circuits; 6.1 Voltage Regulation Fundamentals; 6.2 Series Voltage Regulators; 6.3 Shunt Voltage Regulation; 6.4 Switching Voltage Regulators; 6.5 Over-Current Protection; 6.6 Over-Voltage Protection; 6.7 Power-Fail Sensing
  • 6.8 Troubleshooting Tips for Power Supply CircuitsChapter 7. Signal Processing Circuits; 7.1 The Ideal Diode; 7.2 Ideal Rectifier Circuits; 7.3 Ideal Biased Clipper; 7.4 Ideal Clamper; 7.5 Peak Detectors; 7.6 Integrator; 7.7 Differentiator; 7.8 Troubleshooting Tips for Signal Processing Circuits; Chapter 8. Digital-to-Analog and Analog-to-Digital Conversion; 8.1 D/A and A/D Conversion Fundamentals; 8.2 Weighted D/A Converter; 8.3 R2R Ladder D/A Converter; 8.4 Parallel A/D Converter; 8.5 Tracking A/D Converter; 8.6 Dual-Slope A/D Converter; 8.7 Successive Approximation A/D Converter
  • Chapter 9. Arithmetic Function Circuits9.1 Adder; 9.2 Subtractor; 9.3 Averaging Amplifier; 9.4 Absolute Value Circuit; 9.5 Sign Changing Circuit; 9.6 Troubleshooting Tips for Arithmetic Circuits; Chapter 10. Nonideal Op Amp Characteristics; 10.1 Nonideal DC Characteristics; 10.2 Nonideal AC Characteristics; 10.3 Summary and Recommendations; Chapter 11. Specialized Devices; 11.1 Programmable Op Amps; 11.2 Instrumentation Amplifiers; 11.3 Logarithmic Amplifiers; 11.4 Antilogarithmic Amplifiers; 11.5 Multipliers/Dividers; 11.6 Single-Supply Amplifiers; 11.7 Multiple Op Amp Packages
  • 11.8 Hybrid Operational Amplifiers

Ejemplares similares