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  • 1
    Online Resource
    Online Resource
    Cham :Springer International Publishing :
    UID:
    almahu_9949387916002882
    Format: XXXII, 485 p. 305 illus., 14 illus. in color. , online resource.
    Edition: 3rd ed. 2022.
    ISBN: 9783031107580
    Content: This updated, augmented third edition is aimed at hobbyists, students, engineers, and others who would like to learn more about the design and operation of electronic circuits used by guitarists. This book presents accessible qualitative and quantitative descriptions and analysis of a wide range of popular amplifier and effects circuits, along with basic design techniques allowing the reader to design their own circuits. The new edition further includes several additional circuits and topics suggested by readers of the previous editions, including noise gates, analog multipliers, the effects loop, and additional tube amplifier design examples. Extends amp analysis and design, adds effects loop in amp design, and clarifies the effect-circuit operation; Adds additional vacuum tube amp design examples and extracting parameters from tube characteristic curves; Includes new coverage of the operation and design of noise gate circuits.
    Note: Power Supplies -- Pickups, Volume and Tone Controls -- Small-Signal and Low Power Amplifiers -- Solid-State Power Amplifiers -- Guitar Effects Circuits -- Low-Power Tube Amplifiers -- Vacuum Tube Power Amplifiers.
    In: Springer Nature eBook
    Additional Edition: Printed edition: ISBN 9783031107573
    Additional Edition: Printed edition: ISBN 9783031107597
    Additional Edition: Printed edition: ISBN 9783031107603
    Language: English
    URL: Volltext  (URL des Erstveröffentlichers)
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
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  • 2
    Online Resource
    Online Resource
    Cham, Switzerland :Springer,
    UID:
    almafu_9960901277902883
    Format: 1 online resource (507 pages)
    Edition: Third edition.
    ISBN: 9783031107580
    Note: Includes index. , Intro -- Preface -- Who This Book Is Written For -- Analog Rules! -- About the Math -- Building the Circuits -- Vacuum Tubes -- The Third Edition -- Safety -- Disclaimer -- Acknowledgments -- Contact Information -- Internet Links and Descriptions Used in Text -- Contents -- List of Figures -- Chapter 1: Power Supplies -- Introduction -- A Simple Power Supply Circuit -- The Transformer -- The Rectifier -- Analysis of the Rectifier -- The Frequency Domain -- The Filter -- Ripple Voltage -- Filter Analysis: The Frequency Domain -- Response Curves, Decades, and Octaves -- Power Indicators -- Neon Lamps -- Light-Emitting Diodes -- LED Current Limiting Resistor Calculation -- Incandescent Lamps -- A Basic Regulated Power Supply -- The 78xx Voltage Regulator -- Dropout Voltage -- Power Dissipation -- Bipolar Power Supplies -- Using Batteries for Bipolar Power -- A Typical Bipolar Power Supply -- A Regulated Bipolar Power Supply -- Two-Diode, Full-Wave Rectifier -- Basic Vacuum Tube Diode Power Supplies -- Vacuum Tube Diodes -- Reverse Bias -- Forward Bias -- The 5AR4, 5U4-GB, and 5Y3-GT Diodes -- Typical Vacuum Tube Diode Power Supplies -- The LC, Pi Filter -- RC Pi Filter -- Supply Voltage Distribution -- Final Comments -- Summary of Equations -- Chapter 2: Pickups and Volume and Tone Controls -- Introduction -- Single-Coil Magnetic Pickups -- Humbucker Pickups -- Peak and Average Output Voltages -- More Magnetic Pickup Analysis -- Inductance -- A Pickup Winding Example -- Winding Resistance -- Winding Capacitance -- Approximate Circuit Model for a Magnetic Pickup -- Piezoelectric Pickups -- Piezoelectric Pickup Analysis -- Example of Calculation: Input Resistance and Corner Frequency -- Guitar Volume and Tone Control Circuits -- Potentiometers -- Potentiometer Taper -- The Transfer Function -- Rheostats -- Basic Guitar Tone Control Operation. , Damping -- Multiple Pickups -- Pickup Phasing -- Amplifier Tone Control Circuits -- A Basic Tone Control Circuit -- Improved Single-Pot Tone Control -- Baxandall Tone Control -- Other Tone Control Circuits -- Final Comments -- Summary of Equations -- Chapter 3: Small-Signal and Low-Power Amplifiers -- Introduction -- Gain -- Decibels -- Other Amplifier Parameters -- Distortion -- Input Resistance -- Output Resistance -- Bandwidth -- Slew Rate -- Amplifier Classifications and Biasing -- Bipolar Junction Transistors -- The Active Region -- Saturation -- Cutoff -- Biasing -- Class A -- Class B -- Class AB -- The Load Line -- Clipping -- DC and AC Load Lines -- Class A Power Dissipation Characteristics -- The Common Emitter Configuration -- The Emitter Follower (Common Collector) Configuration -- The Common Base Configuration -- Field Effect Transistors -- Bipolar Transistor Specifications -- Basic BJT Amplifier Operation -- Voltage Divider Biased CE Amplifier -- DC Q-Point Analysis Equations for Fig. 3.13 -- Beta Independence -- AC Analysis Equations for Fig. 3.13 -- Common Emitter Amplifier Analysis Example -- DC Q-Point Analysis -- AC Analysis -- Experimental Results -- Some Practical Testing and Measurement Tips -- Amplifying a Guitar Signal -- Frequency Response -- Negative Feedback -- Local and Global Feedback -- A JFET Common Source, Class A Amplifier -- JFET Parameters -- JFET Amplifier Overview -- JFET Centered Q-Point -- BJT vs. JFET -- Piezoelectric Pickup Preamplifier -- Phone Jack Power Switching -- Increasing Voltage Gain -- A JFET-BJT Multiple-Stage Amplifier -- Some Useful Modifications -- A Closer Look at Transconductance -- BJT, JFET, and MOSFET Transconductance Equations -- A MOSFET Common Source Amplifier -- Theoretical Analysis -- Experimental Results -- Operational Amplifiers -- Basic Noninverting and Inverting Op Amp Equations. , Noninverting and Inverting Amplifier Analysis -- Power Bandwidth -- Single-Polarity Supply Operation -- Noninverting Amplifier -- The Two Golden Rules of Op Amp Analysis -- Inverting Amplifier -- Parasitic Oscillation -- Inside the Op Amp -- Operational Transconductance Amplifiers -- An OTA Analysis Example -- The OTA as a Voltage-Controlled Amplifier -- Current Difference Amplifiers -- Your Turn -- Miscellaneous Useful Circuits -- An Audio Test Oscillator -- A Closer Look at the Oscillator Output Signal -- The Rail Splitter -- High-Power Rail Splitter -- Use with Pedal Boards and Daisy Chain Power Cords -- Charge Pumps -- Charge Pump vs. Rail Splitter -- Class A, Collector Feedback, Germanium Transistor Amplifier -- DC Analysis -- AC Analysis -- Experimental Results -- Practical Use of the Amplifier -- An Alternate JFET Input Version -- Mixing Magnetic and Piezo Pickups -- Final Comments -- Summary of Equations -- Chapter 4: Solid-State Power Amplifiers -- Introduction -- The Basic Push-Pull Stage -- Class AB: Eliminating Crossover Distortion -- Output Power Determination -- Bipolar Power Supply Operation -- Power Transistors -- Composite Transistors -- Darlington Transistors -- Sziklai Transistors -- A Complete Power Amplifier -- Output Stage Analysis -- Transistor Thermal Analysis -- Parallel-Connected Power Transistors -- Thermal Runaway -- Push-Pull Stage with Parallel Transistors -- Adding a Tone Control -- Amplifier Stability Issues -- Ground Reference -- Star Grounding -- Motorboating -- Decoupling Capacitors -- The Zobel Network -- MOSFET Output Stages -- The VBE Multiplier -- The Rail Splitter Revisited -- Enclosing Base-Emitter Junction in the Feedback Loop -- Converting the Rail Splitter to an Amplifier -- Slew Rate-Induced Crossover Distortion -- Final Comments -- Summary of Equations -- Chapter 5: Effects Circuits -- Introduction. , Signals and Spectra -- Time, Period, Frequency, and Pitch -- Sinusoids in the Time Domain -- Waveform Shape, Symmetry, and Harmonic Relationships -- Transfer Function Symmetry and Harmonic Distortion -- An Odd Symmetry Example -- An Even Symmetry Example -- An Example of Neither Even Nor Odd Symmetry -- Intermodulation Distortion -- Influence of Amplifier Design on Distortion -- Effects of Negative Feedback -- Single-Ended vs. Push-Pull -- Effects of Device Transfer Characteristics on Distortion -- BJTs -- FETs -- Triodes -- Effect Bypassing -- Overdrive Circuits -- Single-Stage Transistor Overdrives -- Simple BJT Overdrive -- Sziklai Overdrive Circuit -- Darlington Overdrive Circuit -- Multiple-Stage Overdrive Circuits -- JFET/BJT Overdrive -- MOSFET/PNP Germanium Overdrive -- An Op Amp Overdrive Circuit -- Distortion Circuits -- Fuzz vs. Distortion -- Diode Clippers -- Asymmetrical Clipper with Power Indicator -- Adjustable Op Amp Distortion Circuit -- Logarithmic Amplifiers -- Log Amp Output Equation Derivation -- Log Amp Distortion Circuit -- Phase Shifters -- The All-Pass Filter -- Optocouplers -- An Experimental Phase Shifter Circuit -- Flangers -- Flanging vs. Phase-Shifting -- Bucket-Brigade Devices -- Clock and LFO Generation -- A BBD-Based Flanger -- Sampling Frequency and Aliasing -- Anti-aliasing and Reconstruction Filters -- Oversampling -- Chorus Effect -- Envelope Followers -- Signal Envelope -- Precision Rectifier Circuits -- Precision Half-Wave Rectifiers -- Precision Full-Wave Rectifier -- An Experimental Envelope Follower -- String Frequency-to-Pulse Converter -- Compression, Sustain, and Dynamic Range -- Voltage-Controlled Amplifiers -- Experimental OTA-Based Compressor -- Experimental LDR-Based Compression/Sustain -- Tremolo -- Reverberation -- Delay Time -- Decay Time -- Reverb Springs -- A Digital Reverb. , Modulation and Pitch Shifting -- Amplitude Modulation -- Balanced (Ring) Modulation -- An Experimental Ring Modulator -- Frequency Doubling -- A Deeper Dive -- Analog Multipliers -- Vocoders -- Wah-Wah Circuits -- IGMF Bandpass Filter -- An IGMF Design Example -- Varying fo of the IGMF -- Experimental IGMF Wah-Wah Circuits -- Eliminating Switching Pop -- A Gyrator-Based Wah-Wah Circuit -- Envelope-Controlled Filter (Auto-Wah) -- Noise Gates -- A Little Deeper Look at the LM358 -- Sampling, Quantization, DACs, and ADCs -- The R-2R Ladder -- DAC Operation -- Effect on an Audio Signal -- Final Comments -- Summary of Equations -- Chapter 6: Low-Power Vacuum Tube Amplifiers -- Introduction -- Commonly Used Vacuum Tubes -- Parts Sources and Availability -- Vacuum Tube Parameters and Data Sheets -- Absolute Maximum Ratings -- Other Data Sheet Parameters -- Tube Pin Numbering -- General Amplifier Design Principles -- Cathode Feedback Biasing -- Fixed Biasing -- Class A, Resistance-Coupled, Common Cathode Amps -- 12AU7 Low-Power Amp Design Example -- Alternative Determination of Cathode Resistance RK -- DC and AC Load Lines -- Amplifier AC Performance -- Output Voltage Compliance -- Experimental Test Results -- Q-Point Location and Distortion -- 6AN8 Triode, Low-Power Amp Design Example -- Amplifier AC Performance -- The AC Load Line -- Output Voltage Compliance -- 12AX7 Low-Power Amp Design Example -- Amplifier AC Performance -- The AC Load Line -- Output Voltage Compliance -- Experimental Results -- 12AT7 Low-Power Amp Design Example -- Amplifier AC Performance -- Output Voltage Compliance -- Pentodes -- Screen Grid (G2) -- Suppressor Grid (G3) -- 6AN8 Pentode, Low-Power Amp Design Example -- Amplifier AC Performance -- Output Voltage Compliance -- Cathode Followers and Phase Splitters -- Cathodyne Phase Splitter Design -- Cathode Resistor Determination. , AC Characteristics.
    Additional Edition: Print version: Dailey, Denton J. Electronics for Guitarists Cham : Springer International Publishing AG,c2022 ISBN 9783031107573
    Language: English
    Library Location Call Number Volume/Issue/Year Availability
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