Electronic Devices and Circuits
Conventional Flow Version: International Edition
Published on 5. March 1997
Book
Paperback/Softback
1067 pages
978-0-13-270224-9 (ISBN)
Description
Appropriate for devices courses taught in electronic technology or electronics engineering departments. Uses a conventional flow notation.
This text addresses instructor concerns about attracting students to and retaining students in the electronics curricula. To combat the high levels of student intimidation and frustration caused by many electronics texts, these authors present material in small, manageable bites, using everyday metaphors to explain device behavior and using humor to make points.
This text addresses instructor concerns about attracting students to and retaining students in the electronics curricula. To combat the high levels of student intimidation and frustration caused by many electronics texts, these authors present material in small, manageable bites, using everyday metaphors to explain device behavior and using humor to make points.
More details
Language
English
Place of publication
United States
Publishing group
Pearson Education (US)
Target group
Professional and scholarly
Dimensions
Height: 280 mm
Width: 210 mm
Thickness: 47 mm
Weight
2517 gr
ISBN-13
978-0-13-270224-9 (9780132702249)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Michael Hassul | Donald E. Zimmerman
Electronic Devices and Circuits
Conventional Flow Version: United States Edition
Book
03/1997
Pearson
€76.70
Article is exhausted; no reprint
Content
1. Introduction to Electronics.
I. DIODES.
2. The Ideal Diode.
3. The Real Diode.
4. Diode-Reactive Circuits.
5. The Zener Diode-Voltage Regulation.
6. Special-Purpose Diodes and Opto-Electrical Devices.
II. BIPOLAR JUNCTION TRANSISTORS.
7. The NPN Bipolar Junction Transistor.
8. Troubleshooting.
9. Biasing for Linear Applications.
10. The Common-Emitter Amplifier.
11. The Box Model.
12. The Emitter Follower (The Common-Collector Amplifier).
13. Improved BJT AC Models.
14. The PNP Transistor.
15. The Common-Base Amplifier.
16. Specialized Transistor Circuits.
17. The Differential Amplifier.
18. Current Sources.
19. Power Amplifiers.
III. FIELD EFFECT TRANSISTORS (FET).
20. The Field Effect Transistor.
21. The MOSFET.
22. FET AC Behavior and Applications.
IV. THE OPERATIONAL AMPLIFIERS.
23. The Operational Amplifier (OP-AMP).
24. Operational Amplifier Circuits.
25. Non-Linear Operational Amplifier Circuits.
V. ADVANCED TOPICS RESPONSE AND FILTERS.
26. Frequency Response.
27. Active Filters.
28. Feedback Amplifiers.
29. Signal Generators.
30. Electronic Switches (Thyristors).
Appendices.
Index.
I. DIODES.
2. The Ideal Diode.
3. The Real Diode.
4. Diode-Reactive Circuits.
5. The Zener Diode-Voltage Regulation.
6. Special-Purpose Diodes and Opto-Electrical Devices.
II. BIPOLAR JUNCTION TRANSISTORS.
7. The NPN Bipolar Junction Transistor.
8. Troubleshooting.
9. Biasing for Linear Applications.
10. The Common-Emitter Amplifier.
11. The Box Model.
12. The Emitter Follower (The Common-Collector Amplifier).
13. Improved BJT AC Models.
14. The PNP Transistor.
15. The Common-Base Amplifier.
16. Specialized Transistor Circuits.
17. The Differential Amplifier.
18. Current Sources.
19. Power Amplifiers.
III. FIELD EFFECT TRANSISTORS (FET).
20. The Field Effect Transistor.
21. The MOSFET.
22. FET AC Behavior and Applications.
IV. THE OPERATIONAL AMPLIFIERS.
23. The Operational Amplifier (OP-AMP).
24. Operational Amplifier Circuits.
25. Non-Linear Operational Amplifier Circuits.
V. ADVANCED TOPICS RESPONSE AND FILTERS.
26. Frequency Response.
27. Active Filters.
28. Feedback Amplifiers.
29. Signal Generators.
30. Electronic Switches (Thyristors).
Appendices.
Index.