Book contents
- Learning the Art of Electronics
- Learning the Art of Electronics
- Copyright page
- Dedication
- Contents
- Preface to the Second Edition
- Legal notice
- Preface to the First Edition
- Overview, as the Course begins
- Part I Analog: Operational Amplifiers and their Applications
- Part II Analog: Discrete Transistors
- Part III Analog: Operational Amplifiers and their Applications
- 6N Op-Amps I
- 6L Lab: Op-Amps I
- 6W Worked Examples: Op-Amps I
- 7N Op-Amps II: Departures from Ideal
- 7L Lab: Op-Amps II
- 7S Supplementary Notes: Op-Amp Jargon
- 7W Worked Examples: Op-Amps II
- 8N Op-Amps III: Nice Positive Feedback
- 8L Lab: Op-Amps III
- 8W Worked Examples: Op-Amp III
- 9N Op-Amps IV: Parasitic Oscillations; Active Filter
- 9L Lab: Op-Amps IV
- 9S Supplementary Notes: Op-Amps IV
- 9W Worked Examples: Op-Amps IV
- 10N Op-Amps V: PID Motor Control Loop and Lock-in Amplifier
- 10L Lab: Op-Amps V
- 11N Voltage Regulators
- 11L Lab: Voltage Regulators
- 11W Worked Examples: Voltage Regulators
- 12N MOSFET Switches and an Introduction to JFETs
- 12L Lab: MOSFET Switches and a JFET AGC
- 12S Supplementary Notes: MOSFET Switches
- 13N Group Audio Project
- 13L Lab: Group Audio Project
- Part IV Digital: Gates, Flip-Flops, Counters, PLD, Memory
- Part V Digital: Analog–Digital, PLL, Digital Project Lab
- Part VI Microcontrollers
- A Appendix: Debugging Circuits
- B Appendix: Pinouts
- C Appendix: Transmission Lines
- D Appendix: Scope Advice
- O Online Appendices
- Index
7S - Supplementary Notes: Op-Amp Jargon
from Part III - Analog: Operational Amplifiers and their Applications
Published online by Cambridge University Press: 18 March 2025
Book contents
- Learning the Art of Electronics
- Learning the Art of Electronics
- Copyright page
- Dedication
- Contents
- Preface to the Second Edition
- Legal notice
- Preface to the First Edition
- Overview, as the Course begins
- Part I Analog: Operational Amplifiers and their Applications
- Part II Analog: Discrete Transistors
- Part III Analog: Operational Amplifiers and their Applications
- 6N Op-Amps I
- 6L Lab: Op-Amps I
- 6W Worked Examples: Op-Amps I
- 7N Op-Amps II: Departures from Ideal
- 7L Lab: Op-Amps II
- 7S Supplementary Notes: Op-Amp Jargon
- 7W Worked Examples: Op-Amps II
- 8N Op-Amps III: Nice Positive Feedback
- 8L Lab: Op-Amps III
- 8W Worked Examples: Op-Amp III
- 9N Op-Amps IV: Parasitic Oscillations; Active Filter
- 9L Lab: Op-Amps IV
- 9S Supplementary Notes: Op-Amps IV
- 9W Worked Examples: Op-Amps IV
- 10N Op-Amps V: PID Motor Control Loop and Lock-in Amplifier
- 10L Lab: Op-Amps V
- 11N Voltage Regulators
- 11L Lab: Voltage Regulators
- 11W Worked Examples: Voltage Regulators
- 12N MOSFET Switches and an Introduction to JFETs
- 12L Lab: MOSFET Switches and a JFET AGC
- 12S Supplementary Notes: MOSFET Switches
- 13N Group Audio Project
- 13L Lab: Group Audio Project
- Part IV Digital: Gates, Flip-Flops, Counters, PLD, Memory
- Part V Digital: Analog–Digital, PLL, Digital Project Lab
- Part VI Microcontrollers
- A Appendix: Debugging Circuits
- B Appendix: Pinouts
- C Appendix: Transmission Lines
- D Appendix: Scope Advice
- O Online Appendices
- Index
Summary
Deliberate rolling-off of op-amp gain as frequency rises: used to assure stability of feedback circuits despite dangerously-large phase shifts that occur at high frequencies.
- Type
- Chapter
- Information
- Learning the Art of ElectronicsA Hands-On Lab Course, pp. 342Publisher: Cambridge University PressPrint publication year: 2025