NITH SYLLABUS

EC-212ANALOG ELECTRONICS
CreditsLTP
4310

UNIT-1

LOW FREQUENCY TRANSISTOR AMPLIFIER
  • Equivalent Circuit of BJT using h-parameter for CB
  • CE and CC & configuration
  • Calculation of Transistor Parameter for CB
  • CE & CC using hparameters
  • Comparison of Transistor Amplifier Configuration

UNIT-2

MULTISTAGE AMPLIFIER
  • General Cascaded System
  • RC Coupled Amplifier and its Frequency Response
  • Merits and Demerits
  • Cascade Amplifier
  • Darlington Compound Configuration
  • Multistage Frequency Effect

UNIT-3

HIGH FREQUENCY RESPONSE OF TRANSISTOR AMPLIFIER
  • High Frequency Model for CE Configuration
  • Approximate CE High Frequency Model with Resistive Load
  • CE Short Circuit Current Gain
  • HF Current Gain with Resistive Load

UNIT-4

LARGE SIGNAL AMPLIFIER
  • Analysis and Design of class A
  • B
  • AB
  • C Amplifiers
  • Push-pull Amplifiers
  • Transformer Less Output Stages
  • Distortion Calculations

UNIT-5

TUNED AMPLIFIER
  • General Behavior of Tuned Amplifiers
  • Series and Parallel Resonant Circuit
  • Calculations of Circuit Impedance at Resonance
  • Variation of Impedance with Frequency
  • Q Factor of a Circuit & Coil
  • Bandwidth of Series and Parallel Resonant Circuit
  • Single Tuned Amplifiers
  • Voltage Gain and Frequency Response of Single Tuned Amplifiers
  • Double Tuned Amplifiers

UNIT-6

FEEDBACK AMPLIFIER
  • Feedback concept
  • Characteristics of Negative and Positive Feedback
  • Effect of Negative and Positive Feedback on Input Impedance
  • Output Impedance
  • Gain
  • Noise and Frequency Response

UNIT-7

OSCILLATORS
  • Classification of Oscillators
  • Frequency Stability of Oscillatory Circuits
  • Tuned based Oscillators
  • Hartley Oscillator
  • Colpitt Oscillators
  • Clapp Oscillator
  • Crystal Oscillator
  • Phase Shift Oscillator and Wien Bridge Oscillator
BOOKS
  1. Integrated Electronics: Analog and Digital Circuits and Systems by J. Millman and C. Halkias, McGraw-Hill, Inc.
  2. Electronic Devices & Circuit Theory by R. Boylestad and L. Nashelsky, Pearson.
  3. Microelectronic Circuits by A. Sedra and K. Smith, Oxford University Press.
  4. Electronic Fundamental Applications: Integrated and Discrete Systems by J.D. Ryder, Prentice Hall
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