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TAB Guide to Vacuum Tube Audio: Understanding and Building Tube Amps [Mīkstie vāki]

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  • Formāts: Paperback / softback, 368 pages, height x width x depth: 231x188x22 mm, weight: 588 g, 50 Illustrations
  • Sērija : TAB Electronics
  • Izdošanas datums: 16-Dec-2011
  • Izdevniecība: TAB Books Inc
  • ISBN-10: 0071753214
  • ISBN-13: 9780071753210
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TAB Guide to Vacuum Tube Audio: Understanding and Building Tube AmpsPalielināt
  • Formāts: Paperback / softback, 368 pages, height x width x depth: 231x188x22 mm, weight: 588 g, 50 Illustrations
  • Sērija : TAB Electronics
  • Izdošanas datums: 16-Dec-2011
  • Izdevniecība: TAB Books Inc
  • ISBN-10: 0071753214
  • ISBN-13: 9780071753210
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780071753210.html
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A hands-on guide to vacuum tube audio amplifier technology and do-it-yourself projects

The TAB Guide to Vacuum Tube Audio: Understanding and Building Tube Amps is ideal for hobbyists interested in building high-end audio amplifiers. The book is composed of two principal elements: the theory and operation of vacuum tubes and audio amplifier circuits, and practical projects for the experienced experimenter.

The author covers the theory of tubes and amplifier circuit design from a classical perspective, drawing from time-proven principles and techniques. At the same time, this classical approach to amplifier design reflects and incorporates new technologies that preserve the many sonic benefits of the "tube sound." The projects included give you the chance to construct high-end audio amplifiers and related equipment at a variety of levels of sophistication, power output, and construction preferences.

The TAB Guide to Vacuum Tube Audio

  • Provides a straightforward tutorial on vacuum tube principles and audio circuit design
  • Reviews the tradeoffs that engineers must make in designing an audio amplifier and helps you tailor particular circuits to meet your personal objectives
  • Features a suite of projects for the hobbyist, including preamplifiers and power amplifiers, using a variety of construction approaches
  • Includes full details for all projects—drawings, photographs, and parts lists
  • Provides a practical understanding of the principles of vacuum tube operation
  • Contains the latest, most up-to-date methods for optimizing vacuum tube audio performance

Make Great Stuff!TAB is a leading publisher of DIY technology books for makers, hackers, and electronics hobbyists.

Preface xv
Acknowledgments xix
Before We Get Started xxi
Chapter 1 An Overview of Vacuum Tube Audio Applications
1(24)
The Evolution of Analog Audio
1(5)
Technology Waves
3(3)
Tube vs. Solid State
6(3)
Engineering Tradeoffs
7(2)
Continuing Development of Vacuum Tubes
9(2)
Standardization
10(1)
Nomenclature
10(1)
Fundamental Electrical Principles Reviewed
11(14)
The Atom
11(1)
Magnetic Effects
11(1)
Conductors and Insulators
12(1)
Direct Current (DC)
12(1)
Alternating Current (AC)
13(1)
Electronic Circuits
14(2)
Static Electricity
16(1)
Magnetism
16(3)
Electromagnetic-Radiation Spectrum
19(1)
Audio Spectrum
20(1)
Decibel Measurement
21(1)
Dimensions of Hearing
22(3)
Chapter 2 Passive Circuit Components
25(24)
Resistors
25(5)
Wire-Wound Resistor
27(1)
Metal Film Resistor
27(1)
Carbon Film Resistor
28(1)
Carbon Composition Resistor
28(1)
Control and Limiting Resistors
28(1)
Resistor Networks
28(1)
Adjustable Resistors
28(1)
Attenuators
29(1)
Capacitors
30(6)
Polarized Capacitors
31(1)
Nonpolarized Capacitors
32(1)
Polarized Capacitor Types and Construction
33(2)
Identification
35(1)
Inductors and Transformers
36(4)
Losses in Inductors and Transformers
37(1)
Air-Core Inductors
38(1)
Ferromagnetic Cores
38(2)
Shielding
40(1)
Diodes and Rectifiers
40(2)
The pn Junction
40(1)
Zener Diodes and Reverse Breakdown
41(1)
Varistor
41(1)
Indicators
42(1)
Electrical Conductors
43(6)
Effects of Inductance
44(1)
Skin Effect
44(1)
Coaxial Cable
44(3)
Cables for Audio Applications
47(2)
Chapter 3 Vacuum Tube Principles
49(34)
Characteristics of Electrons
49(5)
Electron Optics
50(1)
Magnetic Field Effects
51(1)
Thermal Emission from Metals
52(1)
Secondary Emission
53(1)
Types of Vacuum Tubes
54(17)
Diode
55(2)
Triode
57(5)
Tetrode
62(3)
Pentode
65(1)
Beam Power Tube
66(5)
Vacuum Tube Structure
71(4)
Vacuum Tube Design
71(1)
Tube Elements
72(2)
High-Frequency Operating Limits
74(1)
Tube Assembly
74(1)
Neutralization
75(2)
Electron Tube Characteristics
77(3)
Interpretation of Tube Data
80(1)
Tube Pinout
81(2)
Chapter 4 Vacuum Tube Circuits
83(32)
Amplifier Types
83(18)
Operating Class
84(1)
Class A Voltage Amplifier
85(3)
Class A Power Amplifier
88(2)
Class AB Power Amplifier
90(1)
Class B Power Amplifier
91(1)
Cathode-Drive Circuits
91(2)
Phase Inverter
93(1)
Inverse Feedback
94(3)
Corrective Filter
97(1)
Tone Control
98(2)
Volume Control
100(1)
Noise in Electronic Devices
101(3)
Thermal Noise
103(1)
Hum
103(1)
Microphonics
104(1)
Shielding
104(1)
High-Voltage Power Supplies
104(11)
Silicon Rectifier
105(1)
Rectifier lube
105(3)
Power Supply Filter Circuits
108(3)
Grid Voltage
111(1)
Screen Voltage Supply
112(1)
Supply Decoupling
113(1)
Protection Measures
113(2)
Chapter 5 Interconnection, Layout, and Operating Environment
115(16)
Wiring Practices
115(4)
Types of Noise
116(1)
Interfaces
116(3)
Physical Layout Considerations
119(8)
Hand-Wired or PWB?
120(4)
Chassis
124(1)
Thermal Properties
124(3)
Reliability Considerations
127(4)
Failure Mechanisms
127(1)
Failure Modes
128(1)
Vacuum Tube Life
129(1)
Fault Protection
130(1)
Thermal Cycling
130(1)
Shipping and Storing Vacuum Tubes
130(1)
Chapter 6 Construction Project Considerations
131(34)
Planning the Project
131(8)
Finding the Necessary Parts
132(1)
Sheet Metal Work
133(4)
Printed Wiring Boards
137(2)
Tools
139(8)
Soldering
141(2)
Contact Cleaner/Lubricants
143(4)
Test Equipment and Troubleshooting
147(10)
Digital Multimeter
147(3)
Signal Generator
150(1)
Frequency Counter
150(1)
Signal Tracer
151(1)
Distortion Analyzer
151(2)
Oscilloscope
153(2)
Tube Tester
155(1)
Power Supplies
156(1)
Troubleshooting Guidelines
156(1)
Safety Considerations
157(4)
Electric Shock
157(3)
First Aid Procedures
160(1)
Protective Eyewear
161(1)
Parts List
161(4)
Chapter 7 Tube Characteristics
165(24)
5BC3A
165(1)
6EU7
166(2)
6U8A
168(3)
6X4
171(1)
5651A
172(2)
5751
174(1)
5879
175(2)
6080
177(1)
6973
178(3)
7025 (12AX7)
181(1)
7199
182(2)
7868
184(3)
Application Considerations
187(2)
Chapter 8 Project 1: Power Supply
189(24)
Circuit Description
189(6)
Parts List
193(2)
Construction Considerations
195(7)
DC Return Path Issue
198(1)
R9 Voltage Adjust Issue
198(1)
Initial Checkout
199(2)
Measured Performance
201(1)
Final Power Supply Design
202(11)
PWB Design
208(5)
Chapter 9 Project 2: Audio Preamplifiers
213(26)
Phonograph Preamp
213(3)
Parts List
214(2)
Microphone Preamp
216(1)
Parts List
216(1)
Tone Control Amplifier
217(1)
Parts List
218(1)
Buffer Amplifier
218(3)
Parts List
220(1)
Construction Considerations
221(5)
Initial Checkout
223(3)
Measured Performance
226(6)
RIAA Equalization
229(3)
Final Preamplifier Design
232(7)
PWB Design
236(3)
Chapter 10 Project 3: 15 W Audio Power Amplifier
239(26)
Circuit Description
239(5)
Parts List
241(3)
Construction Considerations
244(6)
Initial Checkout
247(3)
Measured Performance
250(6)
Final Power Amplifier Design
256(9)
PWB Design
261(4)
Chapter 11 Project 4: 30 W Audio Power Amplifier
265(22)
Circuit Description
265(4)
Parts List
267(2)
Construction Considerations
269(11)
Initial Checkout
271(3)
Measured Performance
274(3)
Circuit Assessment
277(3)
Final Power Amplifier Design
280(7)
PWB Design
283(4)
Chapter 12 Putting It All Together
287(40)
The Big Picture
287(1)
Stereo Preamplifier
288(11)
Measured Performance
296(3)
25 W Stereo Amplifier
299(11)
Measured Performance
304(6)
50 W Stereo Power Amplifier
310(13)
Measured Performance
316(6)
About the Specifications
322(1)
Connections
323(1)
Speakers
324(1)
Duty Cycle
325(1)
Build or Rebuild?
325(2)
Chapter 13 Final Thoughts
327(4)
VacuumTubeAudio.info
329(2)
Appendix Notes and References
331(6)
Chapter 1
331(1)
Chapter 2
332(1)
Chapter 3
332(1)
Chapter 4
333(1)
Chapter 5
334(1)
Chapter 6
334(1)
Chapter 7
335(1)
Chapter 8
335(1)
Chapter 9
336(1)
Chapter 10
336(1)
Chapter 11
336(1)
Chapter 12
336(1)
Index 337
Jerry Whitaker is Vice President of Standards Development at the Advanced Television Systems Committee (ATSC), Washington, D.C. He was previously President of Technical Press, a consulting company based in the San Jose area. Whitaker has been involved in various aspects of the electronics industry for over 30 years, with specialization in communications. He has lectured extensively on the topic of electronic systems design, installation, and maintenance. He is the former editorial director and associate publisher of Broadcast Engineering and Video Systems magazines, and a former radio station chief engineer and television news producer. Mr. Whitaker is a Fellow of the Society of Broadcast Engineers and an SBE-certified professional broadcast engineer. He is also a fellow of the Society of Motion Picture and Television Engineers, and a member of the Institute of Electrical and Electronics Engineers.