Microelectronic Circuit Analysis and Design
McGraw-Hill Professional (Verlag)
978-0-07-328596-2 (ISBN)
- Titel ist leider vergriffen;
keine Neuauflage - Artikel merken
This junior level electronics text provides a foundation for analyzing and designing analog and digital electronics throughout the book. Extensive pedagogical features including numerous design examples, problem solving technique sections, Test Your Understanding questions, and chapter checkpoints lend to this classic text. The author, Don Neamen, has many years experience as an Engineering Educator. His experience shines through each chapter of the book, rich with realistic examples and practical rules of thumb. The Third Edition continues to offer the same hallmark features that made the previous editions such a success. Extensive Pedagogy: A short introduction at the beginning of each chapter links the new chapter to the material presented in previous chapters. The objectives of the chapter are then presented in the Preview section and then are listed in bullet form for easy reference. Test Your Understanding Exercise Problems with provided answers have all been updated. Design Applications are included at the end of chapters. A specific electronic design related to that chapter is presented. The various stages in the design of an electronic thermometer are explained throughout the text. Specific Design Problems and Examples are highlighted throughout as well.
Microelectronics: Circuit Analysis and Design Prologue I: Prologue to Electronics Brief History Passive and Active Devices Electronic CircuitsDiscrete and Integrated CircuitsAnalog and Digital SignalsNotationSummaryPart I: Semiconductor Devices and Basic ApplicationsChapter 1: Semiconductor Materials and Diodes1.0 Preview1.1 Semiconductor Materials and Properties1.2 The pn Junction1.3 Diode Circuits: DC Analysis and Models1.4 Diode Circuits: AC Equivalent Circuit1.5 Other Diode Types1.6 Design Application1.7 SummaryProblemsChapter 2: Diode Circuits2.0 Preview2.1 Rectifier Circuits2.2 Zener Diode Circuits2.3 Clipper and Clamper Circuits2.4 Multiple Diode Circuits2.5 Photodiode and LED Circuits2.6 SummaryProblemsChapter 3: The Field-Effect Transistor3.0 Preview3.1 Basic Bipolar Junction Transistor3.2 DC Analysis of Transistor Circuits3.3 Basic Transistor Applications3.4 Bipolar Transistor Biasing3.5 Multistage Circuits3.6 Design Application3.7 SummaryProblemsChapter 4: Basic FET Amplifiers4.0 Preview4.1 Analog Signals and Linear Amplifiers4.2 The Bipolar Linear Amplifier4.3 Basic Transistor Amplifier Configurations4.4 Common-Emitter Amplifiers4.5 AC Load Line Analysis4.6 Common-Collector (Emitter-Follower) Amplifier4.7 Common-Base Amplifier4.8 The Three Basic Amplifiers: Summary and Comparison4.9 Multistage Amplifiers4.10 Power Considerations4.11 Design Application4.12 SummaryProblemsChapter 5: Bipolar Junction Transistor5.0 Preview5.1 MOS Field-Effect Transistor5.2 MOSFET DC Circuit Analysis5.3 Basic MOSFET Applications: Switch, Digital Logic Gate, and Amplifier5.4 Constant Current Biasing5.5 Multistage MOSFET Circuits5.6 Junction Field-Effect Transistors5.7 Design Application5.8 SummaryProblemsChapter 6: Basic BJT Amplifiers6.0 Preview6.1 The MOSFET Amplifier6.2 Basic Transistor Amplifier Configurations6.3 The Common-Source Amplifier6.4 The Source-Follower Amplifier6.5 The Common-Gate Amplifier6.6 The Three Basic Amplifier Configurations: Summary and Comparison6.7 Single-Stage Integrated Circuit MOSFET Amplifiers6.8 Multistage Amplifiers6.9 Basic JFET Amplifiers6.10 SummaryProblemsChapter 7: Frequency Response7.0 Preview7.1 Amplifier Frequency Response7.2 System Transfer Functions7.3 Frequency Response: Transistor Amplifiers with Circuit Capacitors7.4 Frequency Response: Bipolar Transistor7.5 Frequency Response: The FET7.6 High-Frequency Response Transistor Circuits7.7 SummaryProblemsChapter 8: Output Stages and Power Amplifiers8.0 Preview8.1 Power Amplifiers8.2 Power Transistors8.3 Classes of Amplifiers8.4 Class-A Power Amplifier8.5 Class-AB Push-Pull Complementary Output Stages8.6 SummaryProblemsPrologue II: Prologue to Electronic DesignPreviewDesign ApproachSystem DesignElectronic DesignConclusionPart II: Analog ElectronicsChapter 9: Ideal Operational Amplifiers and Op-Amp Circuits9.0 Preview9.1 The Operational Amplifier9.2 Inverting Amplifier9.3 Summing Amplifier9.4 Noninverting Amplifier9.5 Op-Amp Applications9.6 Operational Transconductance Amplifiers9.7 Op-Amp Circuit Design9.8 Design Application9.9 SummaryProblemsChapter 10: Integrated Circuit Biasing and Active Loads10.0 Preview10.1 Bipolar Transistor Current Sources10.2 FET Current Sources10.3 Circuits and Active Loads10.4 Small-Signal Analysis: Active Load Circuits10.5 SummaryProblemsChapter 11: Differential and Multistage Amplifiers11.0 Preview11.1 The Differential Amplifier11.2 Basic BJT Differential Pair11.3 Basic FET Differential Pair11.4 Differential Amplifier with Active Load11.5 BiCMOS Circuits11.6 Gain Stage and Simple Output Stage11.7 Simplified BJT Operational Amplifier Stage11.8 Diff-Amp Frequency Response11.9 SummaryProblemsChapter 12: Feedback and Stability12.0 Preview12.1 Introduction to Feedback12.2 Basic BJT Differential Pair12.3 Basic FET Differential Pair12.4 Voltage (Series-Shunt) Amplifier12.5 Current (Shunt-Series) Amplifier12.6 Transconductance (Series-Series) Amplifier12.7 Transresistance (Shunt-Shunt) Amplifier12.8 Loop Gain12.9 Stability of the Feedback Circuit12.10 Frequency Compensation12.11 SummaryProblemsChapter 13: Operational Amplifier Circuits13.0 Preview13.1 General Op-Amp Design13.2 A Bipolar Operational Amplifier Circuit13.3 CMOS Operational Amplifier Circuits13.4 BiCMOS Operational Amplifier Circuits13.5 JFET Operational Amplifier Circuits13.6 SummaryProblemsChapter 14: Nonideal Effects in Operational Amplifier Circuits14.0 Preview14.1 Practical Op-Amp Parameters14.2 Finite Open-Loop Gain14.3 Frequency Response14.4 Offset Voltage14.5 Input Bias Current14.6 Additional Nonideal Effects14.7 SummaryProblemsChapter 15: Applications and Design of Integrated Circuits15.0 Preview15.1 Active Filters15.2 Oscillators15.3 Schmitt Trigger Circuits15.4 Nonsinusoidal Oscillators and Timing Circuits15.5 Integrated Circuit Power Amplifiers15.6 Voltage Regulators15.7 SummaryProblemsPrologue III: Prologue to Digital ElectronicsIntroductionLogic Functions and Logic GatesLogic LevelsNoise MarginPropagation Delay Times and Switching TimesSummaryPart III: Digital ElectronicsChapter 16: MOSFET Digital Circuits16.0 Preview16.1 NMOS Inverters16.2 NMOS Logic Circuits16.3 CMOS Inverter16.4 CMOS Logic Circuits16.5 Clocked CMOS Logic Circuits16.6 Transmission Gates16.7 Sequential Logic Circuits16.8 Memories: Classification and Architectures16.9 RAM Memory Cells16.10 Read-Only Memory16.11 D/A Converters16.12 A/D Converters16.13 SummaryProblemsChapter 17: Bipolar Digital Circuits17.0 Preview17.1 Emitter-Coupled Logic (ECL)17.2 Modified ECL Circuit Configurations17.3 Schottky Transistor-Transistor Logic17.4 BiCMOS Digital Circuits17.5 SummaryProblemsAppendices
| Sprache | englisch |
|---|---|
| Maße | 211 x 262 mm |
| Gewicht | 2622 g |
| Themenwelt | Technik ► Elektrotechnik / Energietechnik |
| ISBN-10 | 0-07-328596-X / 007328596X |
| ISBN-13 | 978-0-07-328596-2 / 9780073285962 |
| Zustand | Neuware |
| Haben Sie eine Frage zum Produkt? |
aus dem Bereich
