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Transcript
Audio Players 1 Audio Players Audio Players 2 Introductory Question Audio players record sound in digital form but play it in analog form. The transformation from digital to analog form takes place A. before the final amplifier inside the player. at the outlet into which you plug the earpieces. in the earpieces themselves. B. C. Audio Players 3 Observations about Audio Players They are part computer, part sound system. They require electric power, typically batteries. They reproduce sound nearly perfectly. They are sensitive to static charge. Audio Players 4 4 Questions about Audio Players How does an audio player “store” sound? How does it move sound information around? How does the audio player’s computer work? How does the audio player’s amplifier work? Audio Players 5 Question 1 How does an audio player “store” sound? Audio Players 6 Representing Sound There is no sound inside an audio player It uses representations of sound information, sequences of air pressure measurements that contain everything needed to recreate the sound. It stores and retrieves them in digital form, prepares them for playback in analog form, and finally uses them to reproduce sound itself. Audio Players 7 Digital Representation Several discrete “symbols” represent a number A symbol can be any discrete physical quantity: a positive or negative charge on a capacitor an integer value of voltage on a wire a north or south magnetic pole on a magnet The symbols collectively represent one number, so this symbol approach is insensitive to noise and digital representations can be “perfect.” Audio Players 8 Analog Representation One physical quantity represents one number Any continuous physical quantity can be used: the voltage on a wire, the current in a circuit, the strength of a permanent magnet. Each physical quantity represents a number, so this analog approach is sensitive to noise and analog representations are “imperfect.” Audio Players 9 The Player’s Representations An audio player uses digital representation for storage and retrieval, but analog representation for the actual playback. Storage and retrieval involves a digital computer Playback involves an analog amplifier Between them is a digital-to-analog converter Audio Players 10 Question 2 How does it move sound information around? Audio Players 11 MOSFET Transistors The electronic components we’ve encountered so far are all relatively passive: Wires: carry current from place to place Capacitors: store charge Resistors: imperfect conductors that drop voltage Diodes: block reverse current flow To manipulate charge, we need active switches MOSFET transistors are electronic switches that allow tiny charges to control large current flows Audio Players 12 MOSFET Transistor Off Two back-to-back pn-Junctions, with gate above Normally does not conduct electricity at all Audio Players 13 MOSFET Transistor On Charge on gate can change the channel type so entire device becomes one type and conducts. Audio Players 14 MOSFET Summary An electrically controllable resistor A tiny amount of charge alters its resistance can manipulate digital information by switching symbols on or off. can manipulate analog information by controlling charge, current flow, or voltage. Audio Players 15 Question 3 How does the audio player’s computer work? Audio Players 16 Audio Player’s Digital Computer Computers perform logical operations with bits A bit is a base-two digit so it can hold one of only two symbols: 0 or 1. Bit-wise representation of numbers is called binary Two of the simplest bit logical operations are inversion (NOT) not-and (NAND) Any function can be built from these two Audio Players 17 Inverter (NOT) Takes one input bit, provides one output bit Output symbol is inverse of input symbol Audio Players 18 Not-AND (NAND) Takes two input bits, provides one output bit Output is inverse “and” of input symbols Audio Players 19 CMOS Logic Bits are represented by charge The symbol “1” is represented by positive charge The symbol “0” is represented by negative or no charge Logic is built from n-channel and p-channel MOSFETS in complementary pairs Audio Players 20 CMOS Inverter Input charge delivered to two complementary MOSFETs Positive charge on input delivers negative charge to output Negative charge on input delivers positive charge to output Audio Players 21 CMOS NAND Positive on both inputs delivers negative charge to output Negative on either input delivers positive charge to output Audio Players 22 Question 4 How does the audio player’s amplifier work? Audio Players 23 Audio Player’s 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 Audio Players 24 Amplifier Components Diodes – one-way devices for current Capacitors – store charge, shift voltages Resistors – provide voltage drops, limit current Transistors – control current flow Audio Players 25 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 Audio Players 26 Amplifier (Part 1) As resistance of MOSFET drops: Current from +9V to 0V increases Voltage drop of 50 resistor increases Voltage at “A” goes down Audio Players 27 Amplifier (Part 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 Audio Players 28 Amplifier (Part 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 Audio Players 29 Amplifier (Part 4) Changes in voltage “A” cause changes in output current Output capacitor shifts charge voltage so that it matches speaker voltage Audio Players 30 Earpieces Sound is reproduced by a moving surface Surface is pushed and pulled electromagnetically Surface’s wire coil is surrounded by a magnetic field, so current in that coil experiences the Lorentz force and the coil accelerates. Varying currents causes varying accelerations, and the surface reproduces sound Audio Players 31 Introductory Question (revisited) Audio players record sound in digital form but play it in analog form. The transformation from digital to analog form takes place A. before the final amplifier inside the player. at the outlet into which you plug the earpieces. in the earpieces themselves. B. C. Audio Players 32 Summary about Audio Players Represent sound in digital and analog forms Use MOSFETs to work with sound information Digital computer comprised of CMOS logic Analog amplifier based on MOSFETs.
