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Digital and Analog

Digital and Analog. Analog involves continuous method of signal recognition similar to line on continuum signal changes shape and degrades in quality when transferred from one place to another Digital responds to discrete on-off impulses

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Digital and Analog

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  1. Digital and Analog • Analog • involves continuous method of signal recognition • similar to line on continuum • signal changes shape and degrades in quality when transferred from one place to another • Digital • responds to discrete on-off impulses • in essence many samples of analog signal, written down in set order • bits of information transfer with little loss of quality • Compression • numbers that appear second time in same part of digital signal do not need to be recopied • allows more information to be packed into less space

  2. Radio Production • Microphones • omnidirectional – pick up sound from all directions • cardioid – pick up mainly from one direction • Music and sound effects • compact discs (CDs) • digital audio tape (DAT) • MiniDiscs (MDs) • computer hard drives • Audio board • allows volumes to be mixed and adjusted • mixed sound sent from board to transmitter • News reporters • usually need only microphone, sound recorder, and cellular phone • can record and take material back to station, or transmit over phone

  3. Television Production • TV studio and cameras • windowless soundproof room with sets • grid – holds and positions lights overhead • camera consists of viewfinder, lens, and electronic system • CCDs (charge-coupled devices) – light-sensitive chips that change image gathered by lens into electronic form • Control room • computer graphics generator • audio board – mixes sound inputs • switcher – selects and mixes video inputs • take – quick change from one picture to another • dissolve – slow change of pictures • fade – transition between picture and black • key – laying one picture on top of another • VCRs and servers play back material on monitors • Single-camera style – one or two people on news crew

  4. Film Production • Shooting techniques • single-camera shoot – one camera shoots same scene over and over from various angles • shooting on location – eliminates need to build set, but lacks control of studio • Editing • computer editing nonlinear – any shot can be placed anywhere on final product and moved easily • if movie is shot on film, it is transferred to video for editing, then copied back to film or used as reference to cut original film negative

  5. The Electromagnetic Spectrum • Frequencies • measured in hertz – one cycle per second • human ear capable of hearing 16 – 16,000 Hz • kilohertz (kHz) = one thousand hertz; megahertz (MHz) = one million hertz; gigahertz (GHz) = one billion hertz • Radio waves • 30 kHz – 300 GHz • capable of carrying sound and pictures • below infrared rays, light waves, ultraviolet rays, X rays, gamma rays, and cosmic rays on electromagnetic spectrum • non-media uses – garage door openers, burglar alarms, secret reconnaissance functions • after World War II, FCC allocated TV frequencies into very high frequency (VHF) and ultra-high frequency (UHF)

  6. Terrestrial Radio Broadcasting • Definitions • “terrestrial” radio waves travel only short distances in atmosphere • cell phones, cordless phones, AM and FM radio • Modulation • at transmitter, radio energy is modulated – superimposed on carrier wave that represents station’s frequency • amplitude modulation (AM), 535 – 1705 kHz • height of carrier wave varied to fit sound wave characteristics • more subject to static, since it appears at top and bottom of wave cycle • can travel great distances since it is lower on spectrum; travels enormous distances at night, when waves bounce back to earth from ionosphere • frequency modulation (FM), 88 – 108 MHz • frequency of carrier wave varied • frequency closer to that of light, making its signals line of sight, easily blocked by objects • stations have greater bandwidth – can produce higher fidelity and are adaptable to stereo • independent signals can be multiplexed on FM signal and broadcast to special receivers

  7. Terrestrial Television Broadcasting • Bandwidths • analog TV station uses 600 times more bandwidth than AM station • digital signal can be compressed to smaller bandwidth • digital HDTV uses just as much bandwidth as analog because of added lines and wider screen aspect ratio • Channels • placed at various points in spectrum • breaks between VHF Channels 4 and 5 and Channels 6 and 7 • two adjacent over-air channels cannot be used unless break comes between them • UHF Channels 14 to 69 – digital stations will occupy this spectrum space in future • Multiplexing • teletext and closed captioning broadcast along with regular station signal • multiplexing easier on digital channels, will increase in the future • Microwave • higher frequency than radio or TV, travels about 30 miles • used to transmit signals from studios to transmitters and news trucks to stations

  8. Satellites • Satellite operation • transponders – hold audio, video, and data information • C-band – 4-6 GHz, carries most cable programming • Ku-band – 11-14 GHz, transmits DBS • synchronous satellites – orbit synchronized with speed of earth’s rotation • satellite casts footprint over section of the world from 22,300 miles away • History of satellite broadcasting • AT&T launched Telstar I, 1962 • HBO placed pay service on RCA’s Satcom I, 1976 • local TV stations began satellite news gathering (SNG) • direct broadcast satellite (DBS), mid-1990s • digital audio radio service (DARS), 2001 • satellite-based radio delivered directly to automobiles • uses pulse code modulation – encodes sound in digital form • international media affected by satellites

  9. Wire Transmission • Wire uses • low-tech video-on-demand in hotels • phone calls and email messages • cable TV and SMATV • Cable TV • head end – services placed on wire and buried or hung on telephone poles • since wires are physically connected, cable can be interactive • not subject to same interference as broadcast TV • Types of wires • copper twisted-pair – longtime standard in telephone industry • coaxial cable – used by cable TV when systems first built • fiber optics – digital information carried through glass strand on light produced by laser diodes

  10. Pick Up and Carry • Bicycling – physical transport of program or movie from one place to another • Some public access programs – tapes carried to several different cable TV systems • Videos, DVDs, and CD-ROMs reach consumers through shipping to wholesale houses or retail stores • Film industry • thousands of prints of films made for physical distribution • international openings staggered so other countries can use old prints from U.S.

  11. Exhibition • Movie theaters • projector pulls frames through light that shines through lens • sound usually rides beside picture frames and is sent to multiple speakers • Radios – have grown smaller • TV sets • electron gun at back of picture tube sends electrons to phosphor screen • supplemental audio program (SAP) – viewer can choose between two separate audio tracks, usually English and Spanish • remote controls • projection TV – allows screen display to become larger with conventional picture tube • liquid crystal display (LCD) – played role in developing both larger and smaller TV sets

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