Muzaffer Ahmad Siddiqi
Continuous Time Active Analog Filters
Muzaffer Ahmad Siddiqi
Continuous Time Active Analog Filters
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Learn the techniques of analog filter designs and applications in audio/video signal processing, control, and biomedical instrumentation.
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Learn the techniques of analog filter designs and applications in audio/video signal processing, control, and biomedical instrumentation.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 638
- Erscheinungstermin: 21. Mai 2020
- Englisch
- Abmessung: 250mm x 191mm x 37mm
- Gewicht: 1090g
- ISBN-13: 9781108486835
- ISBN-10: 1108486835
- Artikelnr.: 58951195
- Verlag: Cambridge University Press
- Seitenzahl: 638
- Erscheinungstermin: 21. Mai 2020
- Englisch
- Abmessung: 250mm x 191mm x 37mm
- Gewicht: 1090g
- ISBN-13: 9781108486835
- ISBN-10: 1108486835
- Artikelnr.: 58951195
Muzaffer Ahmad Siddiqi is Emeritus Professor in the Department of Electronics Engineering at Aligarh Muslim University, India. His research includes linear analog integrated circuits, digital integrated circuits, VLSI design, active network synthesis, microelectronics and analog signal processing. He has more than thirty years of teaching experience and is author of Dynamic RAM: Technology Advancements (2012).
List of figures
List of tables
Preface
Acknowledgements
1. Analog filter: concepts
2. First- and second-order filters
3. Magnitude approximations
4. Delay: approximation and optimization
5. Frequency and impedance transformations
6. Sensitivity of active networks
7. Single amplifier second-order filters
8. Multi amplifier second-order filter sections
9. Direct form synthesis: element substitution and operational simulation
10. Cascade approach: optimization and tuning
11. Amplification and filtering in biomedical applications
12. Audio signal processing and anti-aliasing filters
13. Follow the leader feedback filters
14. Switched capacitor circuits
15. Operational transconductance amplifier-C filters
16. Current conveyors and CDTA (current differencing transconductance amplifiers) based filters
17. Active R and active C filters
References
Practice problems
Index.
List of tables
Preface
Acknowledgements
1. Analog filter: concepts
2. First- and second-order filters
3. Magnitude approximations
4. Delay: approximation and optimization
5. Frequency and impedance transformations
6. Sensitivity of active networks
7. Single amplifier second-order filters
8. Multi amplifier second-order filter sections
9. Direct form synthesis: element substitution and operational simulation
10. Cascade approach: optimization and tuning
11. Amplification and filtering in biomedical applications
12. Audio signal processing and anti-aliasing filters
13. Follow the leader feedback filters
14. Switched capacitor circuits
15. Operational transconductance amplifier-C filters
16. Current conveyors and CDTA (current differencing transconductance amplifiers) based filters
17. Active R and active C filters
References
Practice problems
Index.
List of figures
List of tables
Preface
Acknowledgements
1. Analog filter: concepts
2. First- and second-order filters
3. Magnitude approximations
4. Delay: approximation and optimization
5. Frequency and impedance transformations
6. Sensitivity of active networks
7. Single amplifier second-order filters
8. Multi amplifier second-order filter sections
9. Direct form synthesis: element substitution and operational simulation
10. Cascade approach: optimization and tuning
11. Amplification and filtering in biomedical applications
12. Audio signal processing and anti-aliasing filters
13. Follow the leader feedback filters
14. Switched capacitor circuits
15. Operational transconductance amplifier-C filters
16. Current conveyors and CDTA (current differencing transconductance amplifiers) based filters
17. Active R and active C filters
References
Practice problems
Index.
List of tables
Preface
Acknowledgements
1. Analog filter: concepts
2. First- and second-order filters
3. Magnitude approximations
4. Delay: approximation and optimization
5. Frequency and impedance transformations
6. Sensitivity of active networks
7. Single amplifier second-order filters
8. Multi amplifier second-order filter sections
9. Direct form synthesis: element substitution and operational simulation
10. Cascade approach: optimization and tuning
11. Amplification and filtering in biomedical applications
12. Audio signal processing and anti-aliasing filters
13. Follow the leader feedback filters
14. Switched capacitor circuits
15. Operational transconductance amplifier-C filters
16. Current conveyors and CDTA (current differencing transconductance amplifiers) based filters
17. Active R and active C filters
References
Practice problems
Index.