Amplifiers and Their Working

Amplifiers and Their Working

Sub: Sci

Sec: Msc

Introduction

• Amplifiers have transformed various fields, including entertainment, astronomy, search and rescue, and medical diagnostics.
• They boost electric signals for various applications.
• Power amplifiers exist in multiple classes, each suited for specific uses.

Microphone – A Transducer

• Converts sound energy into electrical signals.
• Different types exist for various applications.
• Condenser Microphones:
  • Use capacitors to transduce audio signals.
  • Consist of two plates with a dielectric medium.
  • One plate is replaced with a vibrating diaphragm.
  • Changes in capacitance convert sound to electrical signals.

Sound Amplification Process

• Preamplifier (Preamp)
  • Acquires input voltage signal and supplies more energy while minimizing noise.
  • Amplification is performed by active components like transistors.
• Voltage Amplification using a Transistor
  • Bipolar Junction NPN Transistor:
    • Has three terminals: base, collector, and emitter.
    • Small input voltage applied between base and emitter (forward-biased).
    • Electrons flow from emitter to collector, creating large current.
    • External high voltage at collector increases the voltage swing.
    • The amplified signal retains the shape of the original but has a higher voltage.
• Driver and Power Stages
  • Driver Stage: Keeps voltage constant while increasing current.
  • Power Stage: Increases both voltage and current before sending it to the loudspeaker.

Types of Power Amplifiers

• Class A & B: Basic sound systems and small studios.
• Class AB: Used in home theatres and intensive applications.
• Class C: Used in radio-frequency signal transmission.
• Class D: Used in public announcement systems.

Loudspeaker – Producing Loud Sound

• Components:
  • Voice Coil: Wire coil placed in an external magnet.
  • External Magnet: Creates a strong magnetic field.
  • Diaphragm: Vibrates to produce sound.
• Process:
  • Input voltage applied to the voice coil generates a large current.
  • Interaction of coil’s magnetic field with external magnet causes motion.
  • Coil motion vibrates the diaphragm, producing sound.
• Enhancement:
  •  The external magnetic field is made stronger
  •  Larger diaphragm and the input signal more powerful.
  •  Loudspeakers can also be built with smaller diaphragms with faster-moving membranes to facilitate high frequency sounds and larger diaphragms to facilitate low frequency ones.