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  <titleInfo>
    <title>Analog and Digital Electronic Circuits</title>
    <subTitle>Fundamentals, Analysis, and Applications</subTitle>
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  <name type="personal">
    <namePart>Prasad, R.</namePart>
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    <dateIssued encoding="marc">2021</dateIssued>
    <edition>1st ed.</edition>
    <issuance>monographic</issuance>
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  <language>
    <languageTerm authority="iso639-2b" type="code">eng</languageTerm>
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  <physicalDescription>
    <extent>1 online resource (975 pages)</extent>
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  <tableOfContents>3.5.1 Expanding Periodic Function in Sinusoidal Series -- 3.5.2 Expanding Periodic Function in Fourier Exponential Series -- 3.5.3 Fourier Transform and Inverse Transform -- 3.5.4 3.5.4 Properties of Fourier Transform -- 3.5.5 Real, Imaginary, Even and Odd Functions and Fourier Transforms -- 3.5.6 Rectangular Pulse Function and Periodic Function -- Analog Electronics -- 4 Electrical Properties of Materials -- Abstract -- 4.1 Introduction -- 4.2 Electrical Properties and Classification of Materials -- 4.3 Physics of Resistivity: Electron Band Theory of Solids -- 4.3.1 Valence and Conduction Bands -- 4.3.2 Fermi Level or Fermi Energy -- 4.4 Conductors -- 4.4.1 Metallic Bonding -- 4.4.2 Half Metals and Semimetals (Metalloids) -- 4.5 Insulators -- 4.6 Semiconductors -- 4.6.1 Covalent Bond Picture -- 4.6.2 Extrinsic or Doped Semiconductors -- 4.6.3 Compensated Semiconductors -- 4.6.4 Mass Action Law -- 4.6.5 Non-degenerate and Degenerate Semiconductors -- 4.6.6 Effective Mass of Electron and Crystal Momentum -- 4.6.7 Theoretical Calculation of Carrier Density in a Semiconductor -- 4.6.8 Positioning of Fermi Level -- 4.6.9 Energy Band Diagram of Doped Semiconductor -- 4.6.10 Compound Semiconductors -- 4.6.11 Current Flow in Semiconductors -- 4.6.12 Operation of Semiconductor Under High Field -- 4.6.13 Hall Effect -- 5 p-n Junction Diode: A Basic Non-linear Device -- Abstract -- 5.1 Introduction -- 5.2 p-n Junction in Thermal Equilibrium -- 5.2.1 Extension of Depletion Layer on Two Sides of the Junction -- 5.2.2 Position of Fermi Level for a p-n Junction in Thermal Equilibrium -- 5.2.3 Built-In Potential Vbi -- 5.3 Highly Doped Abrupt p-n Junction in Thermal Equilibrium -- 5.3.1 p-i-n Junction -- 5.4 Biased p-n Junction in Thermal Equilibrium -- 5.4.1 Forward Bias -- 5.4.2 Reverse Bias -- 5.5 Ideal Diode -- 5.5.1 Transfer Characteristic of a Real Diode.</tableOfContents>
  <tableOfContents>5.6 Some Applications of Diode -- 5.6.1 Half-Wave Rectifier -- 5.6.2 Full-Wave Rectifier -- 5.6.3 Three-Phase Rectifiers -- 5.6.4 Ripple Filters or Smoothing Circuits -- 5.7 Some Other Applications of Diodes -- 5.7.1 Voltage Multiplier -- 5.7.2 Diodes as Logic Gates -- 5.7.3 Envelop Detector -- 5.7.4 Limiting or Clipping Circuits -- 5.7.5 Clamper Circuits Using Diode -- 5.8 Some Special Diodes -- 5.8.1 Light-Emitting Diode (LED) -- 5.8.2 Photodiode -- 5.8.3 Laser Diode -- 5.8.4 Schottky Diode -- 6 Transistor Bipolar Junction (BJT) and Field-Effect (FET) Transistor -- Abstract -- 6.1 Introduction -- 6.2 Types and General Construction of BJT -- 6.3 Working of a BJT -- 6.4 Discrete BJT, Packaging, Type and Testing -- 6.5 Current-Voltage Characteristics of a BJT -- 6.6 Modes of Operation of a BJT -- 6.7 BJT Configurations and Parameters -- 6.7.1 Common Base Configuration -- 6.7.2 Common Emitter Configuration -- 6.7.3 Common Collector Configuration -- 6.7.4 Class of Operation of Amplifiers -- 6.8 BJT Biasing Using Single Battery VCC -- 6.8.1 DC Load Line -- 6.8.2 Stability of Q-Point -- 6.8.3 Different Schemes of Biasing and Their Stabilities -- 6.9 BJT Modelling and Equivalent Circuit: Small-Signal Model -- 6.9.1 Small-Signal r-Parameter Transistor Model -- 6.9.2 Small-Signal Transconductance or Hybrid-pi Model for CE Configuration -- 6.9.3 Small-Signal Hybrid Model -- 6.9.4 Analysis of a BJT Amplifier Using Hybrid Parameters -- 6.10 General Approach to the Analysis of BJT Amplifier -- 6.11 Ebers-Moll Model for BJT -- 6.11.1 Modes of Operation -- 6.12 Summary of BJT Amplifiers -- 6.12.1 Common Emitter -- 6.12.2 Common Collector -- 6.12.3 Common Base -- 6.13 Gain in dB, Low-Pass and High-Pass Filters and Frequency Response -- 6.13.1 Gain in dB -- 6.13.2 High-Pass and Low-pass Filters -- 6.13.3 Frequency Response of a Single-Stage BJT Amplifier.</tableOfContents>
  <subject authority="lcsh">
    <topic>Digital integrated circuits</topic>
  </subject>
  <classification authority="lcc">QC176-176.9</classification>
  <classification authority="ddc">621.3815</classification>
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      <title>Undergraduate Lecture Notes in Physics Series</title>
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    <titleInfo>
      <title>Analog and Digital Electronic Circuits</title>
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    <name>
      <namePart>Prasad, R.</namePart>
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    <originInfo>
      <publisher>Cham : Springer International Publishing AG,c2021</publisher>
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  <identifier type="isbn">9783030651299</identifier>
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