Amplifiers and oscillators : optimization by simulation /: optimization by simulation. (2018)
- Record Type:
- Book
- Title:
- Amplifiers and oscillators : optimization by simulation /: optimization by simulation. (2018)
- Main Title:
- Amplifiers and oscillators : optimization by simulation
- Further Information:
- Note: François de Dieuleveult.
- Authors:
- Dieuleveult, François de
- Contents:
- Front Cover; Amplifiers and Oscillators: Optimization by Simulation; Copyright; Contents; Preface; 1. The Transistor; 1.1. Modeling of transistors; 1.2. Amplification; 2. Amplifiers; 2.1. Common emitter amplifier; 2.2. Common base amplifier; 2.3. Common collector amplifier; 3. Differential Amplifiers; 3.1. Differential amplifier without a current source; 3.2. Differential amplifier with a current source; 3.3. Cascode differential amplifier; 3.4. Differential cross-quad amplifier; 3.5. Cascomp feedforward differential amplifier; 3.6. Differential cascomp feedback amplifier 3.7. Comparison of the different structures and conclusion3.8. Exact calculation of transfer functions of differential stages; 3.9. Conclusion and comparison of differential stages; 4. Amplifier Output Stage; 4.1. Class A amplifiers; 4.2. Class B amplifiers; 4.3. Class AB amplifiers; 4.4. Example of output amplifier stages; 5. Study and Analysis of Certain Amplifiers; 5.1. Study of the operational amplifier 741; 5.2. Study of audio amplifiers; 5.3. Transimpedance amplifier; 5.4. Class E amplifier; 5.5. Serial-shunt pair amplifier; 6. Study and Analysis of Oscillators 6.1. Essential characteristics of oscillators6.2. Theoretical Analysis of Oscillator Operations; 7. Low Frequency Oscillators; 7.1. Wien bridge oscillators; 7.2. Phase-shift oscillator; 7.3. Oscillator around the state variable filter; 7.4. Other types of LF oscillators; 7.5. Conclusion on low frequency AOP oscillators; 8. High FrequencyFront Cover; Amplifiers and Oscillators: Optimization by Simulation; Copyright; Contents; Preface; 1. The Transistor; 1.1. Modeling of transistors; 1.2. Amplification; 2. Amplifiers; 2.1. Common emitter amplifier; 2.2. Common base amplifier; 2.3. Common collector amplifier; 3. Differential Amplifiers; 3.1. Differential amplifier without a current source; 3.2. Differential amplifier with a current source; 3.3. Cascode differential amplifier; 3.4. Differential cross-quad amplifier; 3.5. Cascomp feedforward differential amplifier; 3.6. Differential cascomp feedback amplifier 3.7. Comparison of the different structures and conclusion3.8. Exact calculation of transfer functions of differential stages; 3.9. Conclusion and comparison of differential stages; 4. Amplifier Output Stage; 4.1. Class A amplifiers; 4.2. Class B amplifiers; 4.3. Class AB amplifiers; 4.4. Example of output amplifier stages; 5. Study and Analysis of Certain Amplifiers; 5.1. Study of the operational amplifier 741; 5.2. Study of audio amplifiers; 5.3. Transimpedance amplifier; 5.4. Class E amplifier; 5.5. Serial-shunt pair amplifier; 6. Study and Analysis of Oscillators 6.1. Essential characteristics of oscillators6.2. Theoretical Analysis of Oscillator Operations; 7. Low Frequency Oscillators; 7.1. Wien bridge oscillators; 7.2. Phase-shift oscillator; 7.3. Oscillator around the state variable filter; 7.4. Other types of LF oscillators; 7.5. Conclusion on low frequency AOP oscillators; 8. High Frequency Oscillators; 8.1. Colpitts oscillator; 8.2. Colpitts series oscillator; 8.3. Vackar oscillator; 8.4. Parallel Clapp oscillator; 8.5. Clapp series oscillator; 8.6. SAW oscillator; 8.7. Comparison of the different oscillators 8.8. Transformation of oscillators into VCO9. Differential Oscillators; 9.1. Simple differential oscillator; 9.2. Simple differential oscillator with SAW resonator; 9.3. Simple differential oscillator, cascode; 9.4. Differential oscillator, cross-coupled with buffer; 9.5. Differential oscillator, cross-coupled Colpitts; 9.6. Differential oscillator, bandpass filter; 9.7. Variations of the differential oscillator; 9.8. Variations of unclassifiable oscillators; 9.9. Transformation of differential oscillators into VCO; 10 Bonus Oscillators; 10.1. Parallel resonance oscillator 10.2. Series resonant oscillator10.3. Differential oscillator, improvements; 10.4. Differential oscillator SAW, improvements; 10.5. Conclusion; Bibliography; Index; Back Cover … (more)
- Publisher Details:
- London Kidlington, Oxford : ISTE Press Elsevier
- Publication Date:
- 2018
- Extent:
- 1 online resource
- Subjects:
- 621.381535
Transistor amplifiers
Oscillators, Transistor
TECHNOLOGY & ENGINEERING / Mechanical
Electronic books - Languages:
- English
- ISBNs:
- 9780081023419
0081023413 - Related ISBNs:
- 9781785482410
- Notes:
- Note: Includes bibliographical references and index.
Note: Vendor-supplied metadata. - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.316306
- Ingest File:
- 01_249.xml