Résumé
The hands-on, simulation-based introduction to analog
electronics.
Analog Electronics with LabVIEW is the first comprehensive
introduction to analog electronics that makes full use of
computer simulation. Kenneth L. Ashley introduces analog
electronics through a series of theory/project sections, in
which theoretical presentations correlate directly with
circuit measurement and analysis projects. The results of
experiments are used to extract device model parameters
used in subsequent electronic circuit analysis, providing a
significant enhancement in the understanding of modern,
computer-based electronic-circuit simulation. Readers will
master not only the fundamentals of analog electronics, but
also data acquisition and circuit simulation with LabVIEW,
basic circuit-solution computation with Mathcad, and
circuit simulation with Cadence Schematics or Capture.
Coverage includes-
Elementary analog circuit analysis, including the resistor
voltage divider and MOSFET DC gate voltage, MOSFET drain
current-source equivalent, amplifier frequency response,
and more
Fundamentals of transistors and voltage amplification
Characterization of MOS transistors for circuit
simulation
Common-source amplifiers, MOSFET source-follower buffer
stage, differential amplifier stage, and MOSFET current
sources
Operational amplifiers- resistor negative feedback
approaches and capacitor-based applications
Development of a Basic CMOS Operational Amplifier
LabVIEW tutorial with emphasis on analog electronics, the
discrete nature of compute data acquisition, and LabVIEW
measurement VIs such as the autoranging DC voltmeter
Characterization of the BJT for circuit simulation
including linear modeling
BJT NPN common-emitter amplifier, including emitter
degeneration and current-source PNP load with emitter
degeneration
For those new to LabVIEW, the book also contains a complete
introductory tutorial with emphasis relevant to
analog-electronics applications.
CD-ROM INCLUDED
The accompanying CD-ROM includes a complete copy of LabVIEW
6 Student Edition Software, along with all the LabVIEW,
Mathcad, and Schematics (or Capture) files you need to
perform the experiments and exercises in this book, plus
samples of all project measurement and data files for
measurement simulation.
- 1. Elementary Circuit Analysis For Analog Electronics.
- 2. Transistors and Voltage Amplification.
- 3. Characterization of MOS Transistors for Circuit Simulation.
- 4. Signal Conductance Parameters for Circuit Simulation.
- 5. Common-Source Amplifier Stage.
- 6. Coupling and Bypass Capacitors and Frequency Response.
- 7. MOSFET Source-Follower Buffer Stage.
- 8. MOSFET Differential Amplifier Stage.
- 9. MOSFET Current Sources.
- 10. Common-Source Amplifier with Current-Source Load.
- 11. Operational Amplifiers with Resistor Negative Feedback.
- 12. Operational Amplifier Applications with Capacitors.
- 13. Cascaded Amplifier Stages.
- 14. Development of a Basic CMOS Operational Amplifier.
- Unit A. Communicating with the Circuit Board: LabVIEW Programming and Measurement Exercises.
- Unit B. Characterization of the Bipolar Junction Transistor for Circuit Simulation.
- Unit C. Common-Emitter Amplifier Stage.
- Project 1. Basic Circuit Analysis for Electronic Circuits with Programming Exercises.
- Project 2. Basic NMOS Common-Source Amplifier with Programming Exercises.
- Project 3. Characterization of the PMOS Transistor for Circuit Simulation.
- Project 4. Characterization of the NMOS Transistor for Circuit Simulation.
- Project 5. PMOS Common-Source Amplifier.
- Project 6. PMOS Common-Source Amplifier Stage with Current-Source Biasing.
- Project 7. NMOS Common-Source Amplifier Stage with Source-Resistor Bias.
- Project 8. NMOS Source Follower Stage.
- Project 9. MOSFET Differential Amplifier Stage.
- Project 10. The Current Mirror and the Common-Source Amplifier with Current-Source Load.
- Project 11. Operational Amplifier with Resistor Feedback.
- Project 12. Operational Amplifier Integrator and Oscillator.
- Project A. Communicatin
- Project B. Characterization of the Bipolar Junction Transistor for Circuit Simulation.
- Project C1. NPN Common-Emitter Amplifier.
- Project C2. NPN—PNP Common-Emitter Amplifier with Current-Source Load.
L'auteur - Kenneth Ashley
KENNETH L. ASHLEY has been a faculty member at the Department of Electrical Engineering at Southern Methodist University since 1963 and is actively engaged in developing the undergraduate electronics curriculum with particular emphasis on using computers for electronic-circuit data acquisition. Ashley has recently been involved in the modeling of MOSFET transistors, especially for operation at high frequencies. He holds a Ph.D. from Carnegie-Mellon University and is a member of ASEE, IEEE, and Sigma Xi.
Caractéristiques techniques
| PAPIER | |
| Éditeur(s) | Prentice Hall |
| Auteur(s) | Kenneth Ashley |
| Parution | 28/10/2002 |
| Nb. de pages | 424 |
| Format | 18 x 23 |
| Couverture | Broché |
| Poids | 655g |
| Intérieur | Noir et Blanc |
| EAN13 | 9780130470652 |
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