Audio Amplifiers. Question: If you install a pocket radio’s batteries backward, it won’t work because its 1.speaker will move the wrong direction. 2.parts.

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Presentation transcript:

Audio Amplifiers

Question: If you install a pocket radio’s batteries backward, it won’t work because its 1.speaker will move the wrong direction. 2.parts can only conduct current one way. 3.batteries will absorb power and recharge.

Speakers Sound is produced by a moving surface Surface is pushed and pulled magnetically –Surface’s wire coil carries current  magnetic –Coil is attracted/repelled by stationary magnet “Sound” current  surface acceleration Sound pressure proportional to “sound” current

Microphones (magnetic) Sound is received by a moveable surface Surface movement produces electric current –Surface’s wire coil moves near stationary magnet –Electric field pushes current through moving coil Sound pressure  surface acceleration “Sound” current proportional to sound pressure

Microphones (electric) Surface movement produces electric current –Surface’s charge moves near stationary wire –Electric field pushes current through wire

Audio Amplifier Three circuits: –Input circuit: current/voltage represents sound –Output circuit: amplified “sound” current/voltage –Power circuit: provides power for amplification Amplifier produces “enlarged” copy of input

Amplifier Components Resistors – provide voltage drops, limit current Capacitors – store charge, shift voltages Diodes – one-way devices for current Transistors – control current flow

Resistors Simple ohmic devices –Voltage drop is proportional to current –Resistance is the proportionality constant –Many values of resistance are available Reduce a current’s voltage Produce a current proportional to voltage Limit current based on voltage drop

Capacitors Two separated conducting surfaces Charge (and energy) storage devices –One surface is positive, the other negative –Charge is proportional to voltage difference –Capacitance is proportionality constant –Many values of capacitance are available Store separated charge and associated energy Shift a current’s voltage

Diodes One-way devices for charge & current Usually composed of two semiconductors

Doped Semiconductors Pure semiconductors are insulating –Valence levels are filled and can’t conduct –Conduction levels are empty and can’t conduct Impure semiconductors can be conducting –Extra valence levels  valence band conduction –Extra electrons  conduction band conduction

p-Type Semiconductors Substitute atoms with more empty orbitals Extra, empty valence levels Electrons can move through valence levels

n-Type Semiconductors Substitute atoms with more filled orbitals Extra, full conduction levels Electrons can move through conduction levels

pn-Junction (before) Before p-type meets n-type: –Each material can conduct electricity –Each material is electrically neutral everywhere

pn-Junction (after) After p-type meets n-type: –Insulating depletion region appears at junction –Depletion region is electrically polarized

Forward Conduction A diode conducts when electrons arrive at the n-type end and leave at the p-type end Depletion region shrinks

Reverse Conduction A diode doesn’t conduct when electrons arrive at the p-type end and leave at the n-type end Depletion region enlarges

MOSFET Transistor Off Two back-to-back pn-Junctions Normally does not conduct electricity at all

MOSFET Transistor On Gate charge can change the channel type Entire device becomes one type and conducts

MOSFET Summary An electrically controllable resistor A tiny amount of charge alters its resistance MOSFET can amplify currents –Input circuit controls charge on Gate –Output circuit send current through Source/Drain –Input circuit controls output circuit

Amplifier 1 As resistance of MOSFET drops: –Current from +9V to 0V increases –Voltage drop of 50  resistor increases –Voltage at “A” goes down

Amplifier 2 100K  resistor ensures that MOSFET is partially conducting –If it is off, gate becomes more + –If it is on, gate becomes less + –Balance is struck at partly + Voltage at “A” is about 4.5V

Amplifier 3 Any charge flowing through input circuit is placed on the Gate Voltage “A” changes Input capacitor shifts charge voltage so that it matches gate voltage

Amplifier 4 Changes in voltage “A” cause changes in output current Output capacitor shifts charge voltage so that it matches speaker voltage

Question: If you install a pocket radio’s batteries backward, it won’t work because its 1.speaker will move the wrong direction. 2.parts can only conduct current one way. 3.batteries will absorb power and recharge.