Televizor - Television

2008 yilda maishiy texnika do'konida sotiladigan tekis ekranli televizorlar.

Televizor (Televizor), ba'zan qisqartiriladi tele yoki telli, a telekommunikatsiya uchun ishlatiladigan vosita uzatish harakatlanuvchi tasvirlar yilda monoxrom (qora va oq), yoki rangli va ikkitada yoki uch o'lchov va tovush. Bu atama a ga tegishli bo'lishi mumkin televizor, a teleshou yoki vositasi televizion uzatish. Televizor - bu ommaviy vosita uchun reklama, o'yin-kulgi, Yangiliklar va sport.

1920-yillarning oxirlarida televizor xom eksperimental shakllarda paydo bo'ldi, ammo yangisidan bir necha yil oldin bo'lishi kerak edi texnologiya iste'molchilarga sotilishi mumkin edi. Keyin Ikkinchi jahon urushi, oq-qora televizion eshittirishlarning takomillashtirilgan shakli ommalashgan Birlashgan Qirollik va Qo'shma Shtatlar va televizorlar odatiy holga aylandi uylar, korxonalar va muassasalar. 1950 yillar davomida televizor ta'sir o'tkazish uchun asosiy vosita edi jamoatchilik fikri.^[1] 1960-yillarning o'rtalarida AQShda va boshqa ko'plab rivojlangan mamlakatlarda rangli eshittirishlar joriy etildi. Kabi bir qancha turdagi arxiv saqlash vositalarining mavjudligi Betamaks va VHS lentalar, yuqori quvvatli qattiq disk drayverlari, DVD disklari, flesh-disklar, yuqori aniqlikda Blu-ray disklari va bulut raqamli video yozuvlar tomoshabinlarga oldindan yozib olingan materiallarni, masalan filmlarni o'z vaqt jadvalida uyda tomosha qilish imkoniyatini berdi. Ko'pgina sabablarga ko'ra, ayniqsa, masofadan qidirib topishning qulayligi, televizor va video dasturlarni saqlash endi yuz beradi bulut (Netflix tomonidan buyurtma bo'yicha video kabi). 2000-yillarning birinchi o'n yilligining oxirida, raqamli televidenie translyatsiyalar ommalashib ketdi. Yana bir rivojlanish standart televizor (SDTV) dan o'tish edi (576i, 576 bilan interlaced o'lchamlari va 480i ) ga yuqori aniqlikdagi televizor (HDTV), bu esa qaror bu ancha yuqori. HDTV turli formatlarda uzatilishi mumkin: 1080p, 1080i va 720p. 2010 yildan beri ixtiro bilan aqlli televizor, Internet televizion orqali Internet orqali televizion dasturlar va filmlarning mavjudligini oshirdi Oqimli video kabi xizmatlar Netflix, Amazon Video, iPlayer va Xulu.

2013 yilda dunyodagi 79% uy xo'jaliklari televizorga ega edi.^[2] Erta katta, yuqori voltli almashtirish katod nurlari trubkasi (CRT) ekrani kabi ixcham, energiyani tejaydigan, tekis panelli muqobil texnologiyalarga ega LCD-lar (ikkalasi ham lyuminestsent orqadan yoritilgan va LED ), OLED displeylar va plazma displeylari 1990-yillarning oxirlarida kompyuter monitorlari bilan boshlangan apparat inqilobi edi. 2000-yillarda sotilgan televizorlarning aksariyati tekis panelli, asosan LEDlar edi. Yirik ishlab chiqaruvchilar CRT, DLP, plazma va hattoki lyuminestsentli yoritilgan LCD displeylarning 2010 yil o'rtalariga qadar to'xtatilishini e'lon qilishdi.^[3][4] Yaqin kelajakda LEDlar asta-sekin OLED-lar bilan almashtirilishi kutilmoqda.^[5] Shuningdek, yirik ishlab chiqaruvchilar 2010 yil o'rtalarida aqlli televizorlarni tobora ko'proq ishlab chiqarishni e'lon qilishdi.^[6][7][8] Aqlli televizorlar o'rnatilgan Internet bilan va Veb 2.0 funktsiyalari 2010 yil oxiriga kelib televizorning ustun turiga aylandi.^[9]

Dastlab televizion signallar faqat kuchli televizor yordamida yer usti televideniesi sifatida tarqatilgan radiochastota transmitterlar translyatsiya individual televizion qabul qiluvchilarga signal. Shu bilan bir qatorda televizion signallar tarqatiladi koaksiyal kabel yoki optik tolali, sun'iy yo'ldosh tizimlari va 2000 yildan beri Internet. 2000-yillarning boshlariga qadar ular quyidagicha uzatilgan analog signallari, lekin a o'tish raqamli televideniyega o'tish butun dunyo bo'ylab 2010 yil oxiriga qadar qurilishi kutilmoqda. Standart televizor ko'plab ichki qurilmalardan iborat elektron sxemalar, shu jumladan uchun tyuner qabul qilish va eshittirish signallarini dekodlash. Vizual displey qurilmasi etishmayotgan a sozlovchi to'g'ri deb nomlanadi video monitor televizor o'rniga.

Etimologiya

So'z televizor dan keladi Qadimgi yunoncha τῆλε (tèle) "uzoq" va Lotin visio "ko'rish".

Ushbu atamadan birinchi hujjatlashtirilgan foydalanish rus olimi 1900 yilga to'g'ri keladi Konstantin Perskiy paytida 1900 yil 18-25 avgust kunlari bo'lib o'tgan elektr energiyasining 1-xalqaro kongressida frantsuz tilida taqdim etgan maqolasida foydalangan. Xalqaro Jahon ko'rgazmasi Parijda.

Ushbu atamaning anglizlangan versiyasi birinchi marta 1907 yilda tasdiqlangan, u hali ham "... harakatlanuvchi tasvirlarni uzatishning nazariy tizimi telegraf yoki telefon simlari ".^[10] Bu "... ingliz tilida shakllangan yoki frantsuz télévision-dan qarz olingan" edi.^[10] 19-asrda va 20-asrning boshlarida boshqa "... masofadan turib rasmlarni yuborish uchun o'sha paytdagi faraziy texnologiya nomi bo'yicha takliflar telefot (1880) va televista (1904) bo'lgan."^[10]

"Televizor" qisqartmasi 1948 yildan beri. "Televizor" ma'nosida ushbu atamadan foydalanish 1941 yildan boshlangan.^[10] Ushbu atama "televizion vosita sifatida" ma'nosida ishlatilishi 1927 yildan boshlangan.^[10]

"Telly" jargon atamasi Buyuk Britaniyada keng tarqalgan. "Naycha" yoki "ko'krak naychasi" jargon atamasi katta hajmdan kelib chiqadi katod nurlari trubkasi aksariyat televizorlarda tekis ekranli televizorlar paydo bo'lguncha ishlatilgan. Televizorning yana bir jargon atamasi - "ahmoqlar qutisi".^[11]

Shuningdek, 1940-yillarda va 1950-yillarda AQShda televizion dasturlarning tez sur'atlarda o'sishi va televizorlarga egalik qilish davrida o'sha davrda yana bir jargon atama keng qo'llanila boshlandi va bugungi kunda dastlab eshittirish uchun yaratilgan mahsulotlarni ajratish uchun ishlatilmoqda. televizorda kinoteatrlarda namoyish etish uchun ishlab chiqilgan filmlardan.^[12] "Kichik ekran" ham qo'shma sifat, ham ism sifatida televizorga o'ziga xos havolalarga aylandi, "katta ekran "teatrlashtirilgan chiqishi uchun qilingan asarlarni aniqlash uchun ishlatilgan.^[12]

Tarix

Mexanik

The Nipkow disk. Ushbu sxema ko'proq aniqlik uchun to'rtburchaklar shaklida bo'lishi mumkin bo'lgan teshiklar bo'ylab aylanadigan yo'llarni ko'rsatadi. Qora rangda ko'rsatilgan disk maydoni skaner qilingan mintaqani ko'rsatadi.

Faksimil uzatish 19-asrning boshlarida suratlarni mexanik skanerlash usullarini kashf etgan fotografik tizimlar. Aleksandr Bain 1843 yildan 1846 yilgacha faksimile mashinasini taqdim etdi. Frederik Bakewell 1851 yilda ishlaydigan laboratoriya versiyasini namoyish etdi.^{[iqtibos kerak ]} Willoughby Smit kashf etgan elektr o'tkazuvchanlik elementning selen 1873 yilda. 23 yoshli nemis universiteti talabasi sifatida, Pol Julius Gottlib Nipkov taklif qilingan va patentlangan Nipkow disk 1884 yilda.^[13] Bu spiral shaklidagi teshiklari bo'lgan aylanuvchi disk edi, shuning uchun har bir teshik rasmning chizig'ini skaner qildi. U hech qachon tizimning ishlaydigan modelini yaratmagan bo'lsa-da, Nipkovning yigiruvchi diskining o'zgarishi "rasm rasterizatori "juda keng tarqalgan bo'lib qoldi.^[14] Konstantin Perskiy so'zni o'ylab topgan edi televizor Xalqaro elektr kongressida o'qilgan maqolada Xalqaro Jahon ko'rgazmasi 1900 yil 24-avgustda Parijda. Perskiyning maqolasida Nipkov va boshqalarning ishlarini eslatib, mavjud bo'lgan elektromexanik texnologiyalar ko'rib chiqildi.^[15] Biroq, faqat 1907 yilgacha amplifikatsiya trubkasi texnologiyasida o'zgarishlar yuz berdi Li de Forest va Artur Korn boshqalar qatorida dizaynni amaliy qildi.^[16]

Tasvirlarni jonli uzatishni birinchi namoyishi 1909 yilda Parijda Jorj Rignu va A. Furnier tomonidan o'tkazilgan. 64 matritsa selen birma-bir mexanikka ulangan hujayralar komutator, elektron sifatida xizmat qilgan retina. Qabul qilgichda Kerr xujayrasi nurni va aylanadigan diskning chetiga bog'langan turli xil burchakli nometalllarni modulyatsiya qilib, displey ekraniga modulyatsiya qilingan nurni skaner qildi. Alohida elektron tartibga solinadigan sinxronizatsiya. 8x8 piksel Ushbu kontseptsiya dalilidagi namoyishda alifbo harflarini aniq etkazish uchun etarli bo'lgan. Yangilangan rasm har soniyada "bir necha marta" uzatildi.^[17]

1911 yilda, Boris Rosing va uning shogirdi Vladimir Zvorikin mexanik nometall barabanli skanerdan foydalangan holda tizim yaratdi, Zvorikinning so'zlari bilan aytganda, "juda qo'pol tasvirlarni" simlar orqali "Braun naycha "(katod nurlari trubkasi yoki "CRT") qabul qiluvchida. Rasmlarni ko'chirish mumkin emas edi, chunki skanerda: "sezgirlik etarli emas edi va selen hujayrasi juda sust edi".^[18]

1921 yilda, Eduard Belin u bilan birinchi to'lqinni radio to'lqinlari orqali yubordi belinograf.^[19]

Baird 1925 yilda o'zining televizor uskunalari va "Jeyms" va "Stoki Bill" qo'g'irchoqlari bilan. (o'ngda).

1920-yillarga kelib, amplifikatsiya televizorni amaliy holga keltirganda, Shotlandiya ixtirochisi John Logie Baird ishlagan Nipkow disk uning prototip video tizimlarida. 1925 yil 25 martda Berd televideniening birinchi ommaviy namoyishini o'tkazdi siluet harakatdagi tasvirlar, da Selfrijnik Londondagi universal do'kon.^[20] Odamlarning yuzlari uning ibtidoiy tizimida namoyon bo'lishi uchun etarli darajada farq qilmagani uchun, u "Stooky Bill" nomli ventrilokistning qo'g'irchog'ini televidenie orqali namoyish etdi, uning bo'yalgan yuzi yuqori kontrastli, gaplashuvchi va harakatlanuvchi edi. 1926 yil 26 yanvarga qadar u harakatdagi yuz tasvirini radio orqali uzatilishini namoyish etdi. Bu dunyodagi birinchi jamoat televizion namoyishi sifatida keng tan olingan. Baird's tizimi Nipkow diskidan tasvirni skanerlash va uni ko'rsatish uchun foydalangan. Yorug'lik bilan yoritilgan mavzu, statik fotoelement bo'ylab tasvirlarni siljitadigan linzalari o'rnatilgan, aylanuvchi Nipkow diskining oldiga qo'yilgan. AQShda Teodor Keys tomonidan ishlab chiqarilgan talliy sulfidi (Talofid) xujayrasi sub'ektdan aks etgan yorug'likni aniqladi va uni mutanosib elektr signaliga aylantirdi. Bu AM radio to'lqinlari orqali qabul qilgichga uzatildi, u erda video signal birinchisi bilan sinxronlangan ikkinchi Nipkow diskining orqasida joylashgan neon nuriga qo'llanildi. Neon chiroqning yorqinligi tasvirdagi har bir nuqta yorqinligiga mutanosib ravishda o'zgargan. Diskdagi har bir teshik o'tayotganda bittadan ko'rish chizig'i rasm qayta tiklandi. Baird diskida 30 ta teshik bor edi, ular faqat 30 ta skanerlash chizig'iga ega bo'lgan tasvirni yaratgan, bu inson yuzini tanib olish uchun etarli. 1927 yilda Berd London va 705 km (705 km) telefon liniyasi orqali signal uzatdi Glazgo.^{[iqtibos kerak ]}

1928 yilda Baird kompaniyasi (Baird Television Development Company / Cinema Television) London va Nyu-York o'rtasida birinchi transatlantik televizion signalni va birinchi qirg'oqqa dengizga uzatishni efirga uzatdi. 1929 yilda u Germaniyadagi birinchi eksperimental mexanik televizion xizmatida ishtirok etdi. O'sha yilning noyabr oyida Berd va Bernard Natan ning Pathe Frantsiyaning birinchi televizion kompaniyasi Télévision- ni tashkil etdi.Baird -Natan. 1931 yilda u birinchi ochiq masofadan efirga uzatishni amalga oshirdi Derbi.^[21] 1932 yilda u namoyish qildi ultra qisqa to'lqin televizor. Bairdning mexanik tizimi 240 qatorli rezolyutsiyaning eng yuqori darajasiga etdi BBC 1936 yilda televizion ko'rsatuvlar, garchi mexanik tizim televizion sahnani to'g'ridan-to'g'ri skanerlamagan bo'lsa ham. Buning o'rniga a 17,5 mm plyonka suratga olingan, tezlik bilan ishlab chiqilgan va keyin film hali nam bo'lgan holda skaner qilingan.^{[iqtibos kerak ]}

Amerikalik ixtirochi, Charlz Frensis Jenkins, shuningdek, televizorning kashshofi. U 1913 yilda "Simsiz filmlar orqali" maqolasini nashr etdi, ammo 1923 yil dekabrga qadar u guvohlar uchun harakatlanuvchi siluet tasvirlarini uzatdi; 1925 yil 13-iyunda u siluet rasmlarini sinxron uzatilishini ommaviy ravishda namoyish qildi. 1925 yilda Jenkins ulardan foydalangan Nipkow disk va Merilenddagi dengiz radiostantsiyasidan Vashington shahridagi laboratoriyasiga 48 millik aniqlikdagi linzali disk skaneridan foydalangan holda, o'yinchoq shamol tegirmonining siluet tasvirini 5 milya (8 km) masofada uzatdi.^[22][23] Unga ruxsat berildi AQSh Patenti 1925 yil 30-iyundagi № 1,544,156 (Rasmlarni simsiz uzatish) (1922 yil 13-martda berilgan).^[24]

Herbert E. Ives va Frank Grey ning Qo'ng'iroq telefon laboratoriyalari 1927 yil 7-aprelda mexanik televizorning dramatik namoyishini namoyish etdi. Ularning aks ettirilgan nurli televizion tizimida kichik va katta tomosha ekranlari mavjud edi. Kichik qabul qilgichning eni 2 dyuym va balandligi 2,5 dyuym (5 dan 6 sm) gacha bo'lgan ekrani bor edi. Katta priyomnikning kengligi 24 dyuym va balandligi 30 dyuym (60 x 75 sm) bo'lgan ekranga ega edi. Ikkala to'plam ham aniq, monoxromatik va harakatlanuvchi tasvirlarni ko'paytirishga qodir edi. Suratlar bilan bir qatorda to'plamlar sinxronlashtirilgan ovozni oldi. Tizim rasmlarni ikkita yo'l orqali uzatdi: birinchidan, a mis sim Vashingtondan Nyu-York shahriga, so'ngra radio aloqasi Whippany, Nyu-Jersi. Ikki translyatsiya usulini taqqoslab, tomoshabinlar sifat jihatidan farq qilmasligini ta'kidladilar. Televizion mavzular kiritilgan Savdo kotibi Herbert Guver. A uchadigan joy skaneri nur shu predmetlarni yoritdi. Nurni ishlab chiqargan skanerda 50 teshikli disk bor edi. Disk soniyasiga 18 kvadrat tezlikda aylanib, har 56 tasida bitta kadrni tortib oldi millisekundlar. (Bugungi tizimlar odatda sekundiga 30 yoki 60 kvadrat yoki har 33,3 yoki 16,7 millisekundalarda bitta kadr uzatadi.) Televizion tarixchi Albert Abramson Bell Labs namoyishining ahamiyatini ta'kidlab o'tdi: "Bu aslida mexanik televizion tizimning eng yaxshi namoyishi edi. Bir necha yil o'tgach, boshqa tizimlar u bilan rasm sifati jihatidan taqqoslashni boshlashlari mumkin edi. "^[25]

1928 yilda, WRGB, keyin W2XB dunyodagi birinchi televizion stantsiya sifatida boshlandi. Bu translyatsiyani General Electric inshoot Schenectady, Nyu-York. Xalq orasida "nomi bilan tanilganWGY Televizion ". Ayni paytda Sovet Ittifoqi, Leon Xetmin 1925 yilda 16 qatorli, so'ngra 32 ta chiziqda va 64 ta foydalanishda boshlangan oynali barabanga asoslangan televizor ishlab chiqardi interlacing 1926 yilda. Bitiruv malakaviy ishi doirasida 1926 yil 7 mayda u 5 kvadrat metr (0,46 m) bo'ylab bir vaqtning o'zida harakatlanadigan tasvirlarni elektr energiyasi bilan uzatdi va keyin proektsiyalashdi.²) ekran.^[23]

1927 yilga kelib, Theremin 100 qatorli tasvirni qo'lga kiritdi, bu rezolyutsiya RCA tomonidan 1932 yil maygacha ko'tarilmagan, 120 satr bilan.^[26]

1926 yil 25-dekabrda, Kenjiro Takayanagi Yaponiyaning Hamamatsu sanoat o'rta maktabida Nipkow disk skaneri va CRT displeyidan foydalangan holda 40 qatorli piksellar soniga ega televizion tizimni namoyish etdi. Ushbu prototip hali ham Takayanagi yodgorlik muzeyida namoyish etilmoqda Shizuoka universiteti, Hamamatsu shaharchasi. Uning ishlab chiqarish modelini yaratish bo'yicha tadqiqotlari to'xtatildi SCAP keyin Ikkinchi jahon urushi.^[27]

Disklarda faqat cheklangan miqdordagi teshiklarni yaratish mumkin bo'lganligi va ma'lum bir diametrdan kattaroq disklar amaliy bo'lmaganligi sababli, mexanik televizion ko'rsatuvlarda tasvirning o'lchamlari nisbatan past bo'lib, taxminan 30 qatordan 120 gacha va shunga o'xshash. Shunga qaramay, 30 qatorli translyatsiyalarning tasvir sifati texnik yutuqlar bilan barqaror ravishda yaxshilandi va 1933 yilga kelib Buyuk Britaniyaning Baird tizimidan foydalangan ko'rsatuvlari juda aniq edi.^[28] 200 qatorli mintaqani qamrab olgan bir nechta tizim ham efirga uzatildi. Ulardan ikkitasi 1935 yilda Parijda o'rnatilgan Compagnie des Compteurs (CDC) tizimining 180 liniyali tizimi va 180 qatorli tizim edi. Peck Television Corp. 1935 yilda VE9AK stantsiyasida boshlangan Monreal.^[29][30] Elektron televideniyening rivojlanishi (shu jumladan rasm dissektorlari va boshqa kamera naychalari va katod nurlari naychalari reproduktor uchun) televizorning dominant shakli sifatida mexanik tizimlar uchun oxirni boshlagan. Mexanik televizor, tasvir sifati pastligi va umuman kichikroq rasm bo'lishiga qaramay, 1930 yillarga qadar asosiy televizion texnologiya bo'lib qolaveradi. So'nggi mexanik televizion ko'rsatuvlar 1939 yilda AQShning bir nechta davlat universitetlari boshqaradigan stantsiyalarda tugagan.^{[iqtibos kerak ]}

Elektron

1897 yilda ingliz tili fizik J. J. Tomson o'zining uchta taniqli tajribasida zamonaviyning asosiy vazifasi bo'lgan katod nurlarini burish imkoniyatiga ega bo'ldi katod nurlari trubkasi (CRT). CRTning dastlabki versiyasi nemis fizigi tomonidan ixtiro qilingan Ferdinand Braun 1897 yilda va "Braun" trubkasi sifatida ham tanilgan.^[31] Bu edi sovuq katod diyot, ning modifikatsiyasi Crookes tube, bilan fosfor - qoplangan ekran. 1906 yilda nemislar Maks Dikkmann va Gustav Glage ishlab chiqarishdi raster tasvirlar birinchi marta CRTda.^[32] 1907 yilda rus olimi Boris Rosing eksperimental qabul qilishda CRT ishlatilgan video signal rasmni shakllantirish. U oddiy geometrik shakllarni ekranga chiqarishga muvaffaq bo'ldi.^[33]

1908 yilda Alan Archibald Kempbell-Svinton, hamkasbi Qirollik jamiyati (Buyuk Britaniya), ilmiy jurnalda xat e'lon qildi Tabiat u katod nurli naycha yoki Braun naychasidan, ham uzatuvchi, ham qabul qiluvchi vosita sifatida foydalanish orqali qanday qilib "uzoqdan ko'rishga" erishish mumkinligini tasvirlab berdi.^[34][35] U 1911 yilda Londonda nutq so'zlagan va o'zining hisobotini kengaytirgan The Times^[36] va Röntgen Jamiyati jurnali.^[37][38] Uchun maktubda Tabiat 1926 yil oktyabrda nashr etilgan Kempbell-Svinton shuningdek, G. M. Minchin va J. C. M. Stanton bilan o'tkazgan ba'zi "unchalik muvaffaqiyatli bo'lmagan tajribalar" natijalarini e'lon qildi. Ular bir vaqtning o'zida skanerlangan selen bilan qoplangan metall plastinaga tasvirni proektsiyalash orqali elektr signalini ishlab chiqarishga urinishgan. katot nurlari nur.^[39][40] Ushbu tajribalar Minchin vafot etgan 1914 yil martidan oldin o'tkazilgan,^[41] ammo keyinchalik ularni 1937 yilda H. Miller va J. V. Strange tomonidan ikki xil jamoalar takrorladilar EMI,^[42] va X. Iams va A. Rose tomonidan RCA.^[43] Ikkala jamoa ham Kempbell-Svintonning selen bilan qoplangan asl plitasi bilan "juda zaif" tasvirlarni uzatishga muvaffaq bo'lishdi. Boshqalar katod nurli trubkani qabul qilgich sifatida ishlatish bilan tajriba o'tkazgan bo'lishiga qaramay, uni transmitter sifatida ishlatish kontseptsiyasi yangi edi.^[44] A ishlatilgan birinchi katod nurli naycha issiq katod tomonidan ishlab chiqilgan Jon B. Jonson (bu ismga kim ism berdi? Jonson shovqini ) va Garri Vayner Vaynxart Western Electric, va 1922 yilda tijorat mahsulotiga aylandi.^{[iqtibos kerak ]}

1926 yilda venger muhandisi Kalman Tihanyi to'liq elektron skanerlash va displey elementlaridan foydalanadigan va skanerlash (yoki "kamera") trubkasida "zaryadni saqlash" tamoyilidan foydalanadigan televizion tizimni ishlab chiqdi.^{[45][46][47][48]} Yorug'likka sezgirligi pastligi, uzatuvchi yoki "kamerali" naychalardan elektr quvvati past bo'lishiga olib keladigan muammo, 1924 yildan boshlangan Kalman Tihanyi tomonidan zaryadni saqlash texnologiyasini joriy qilish bilan hal qilinadi.^[49] Uning echimi - har bir skanerlash davrida quvur ichidagi elektr zaryadlarini ("fotoelektronlar") to'plagan va saqlaydigan kamerali naycha. Qurilma birinchi marta u taqdim etgan patent talabnomasida tasvirlangan Vengriya 1926 yil mart oyida televizion tizim uchun "Radioskop" deb nom oldi.^[50] 1928 yildagi patent talabnomasiga kiritilgan qo'shimcha yaxshilanishlardan so'ng,^[49] Tixanyining patenti Buyuk Britaniyada 1930 yilda bekor deb e'lon qilindi,^[51] shuning uchun u AQShda patent olish uchun murojaat qildi. Garchi uning yutug'i dizaynga kiritilgan bo'lsa RCA "ikonoskop "1931 yilda Tixanyining uzatuvchi trubkasi uchun AQSh patenti 1939 yil mayigacha berilmaydi. Uning qabul qilish trubkasi uchun patent avvalgi oktyabrda berilgan edi. Ikkala patent ham RCA tomonidan tasdiqlangunga qadar sotib olingan.^[52][53] Zaryadni saqlash hozirgi kunga qadar televizor uchun tasvirlash moslamalarini loyihalashda asosiy printsip bo'lib qolmoqda.^[50] 1926 yil 25-dekabrda Yaponiyaning Hamamatsu sanoat o'rta maktabida yapon ixtirochisi Kenjiro Takayanagi CRT displeyini ishlatadigan 40 qatorli piksellar soniga ega televizor tizimini namoyish etdi.^[27] Bu to'liq elektron televizion qabul qilgichning birinchi ishchi namunasi edi. Takayanagi patent olishga ariza bermagan.^[54]

1927 yil 7 sentyabrda amerikalik ixtirochi Filo Farnsvort "s rasm dissektori kamera naychasi o'zining birinchi tasvirini, oddiy tekis chiziqni San-Frantsisko shahridagi Green Street 202-dagi laboratoriyasida uzatdi.^[55][56] 1928 yil 3-sentyabrga kelib Farnsvort matbuot uchun namoyish o'tkazish uchun tizimni yetarli darajada ishlab chiqdi. Bu birinchi elektron televizion namoyish sifatida keng tarqalgan.^[56] 1929 yilda tizim dvigatel generatorini yo'q qilish orqali yanada takomillashtirildi, shuning uchun uning televizion tizimida endi mexanik qismlar yo'q edi.^[57] O'sha yili Farnsvort o'zining tirik odam tasvirlarini, shu jumladan rafiqasi Elmaning uch yarim dyuymli tasvirini ("Pem") ko'zlari yumilgan holda (ehtimol, zarur bo'lgan yorug 'yorug'lik tufayli) uzatdi.^[58]

Vladimir Zvorikin elektron televizion namoyish etadi (1929)

Ayni paytda, Vladimir Zvorikin katod nurlari trubkasida tasvirlarni yaratish va ko'rsatish uchun tajriba o'tkazayotgan edi. Ishlayotganda Westinghouse Electric 1923 yilda u elektron kamera naychasini ishlab chiqara boshladi. Ammo 1925 yilgi namoyishlarda tasvir xira, past kontrastli va yomon ta'rifga ega va harakatsiz edi.^[59] Zvorikinning tasviriy naychasi hech qachon laboratoriya bosqichidan tashqariga chiqmagan. Ammo Vestingxaus patentini olgan RCA, Farnsvortning 1927 yildagi imidjektoriga patent shu qadar keng yozilganki, u boshqa har qanday elektron tasvirlash moslamasini chiqarib tashlaydi. Shunday qilib, RCA, Zvorykinning 1923 yildagi patent talabnomasi asosida a patent aralashuvi Farnsvortga qarshi da'vo. The AQSh Patent idorasi tekshiruvchi 1935 yilgi qaror bilan Farnsvort uchun Zvorikinga nisbatan ixtironing ustuvorligini topib, rozi emas edi. Farnsvortning ta'kidlashicha, Zvorikinning 1923 yildagi tizimi uning patentiga qarshi chiqish uchun ushbu turdagi elektr tasvirini yarata olmaydi. Zvorikin 1928 yilda 1923 yilgi patentga arizasining rangli translyatsiya versiyasi uchun patent oldi;^[60] u o'zining asl arizasini 1931 yilda ham ajratdi.^[61] Zvorikin 1923 yilgi patent talabnomasi asosida ishlab chiqarilgan trubkasining ishchi modelini tasdiqlovchi dalillarni keltira olmadi yoki istamadi. 1939 yil sentyabrda sudlarda apellyatsiya shikoyatini yo'qotib, televizion uskunalarni tijorat ishlab chiqarish bilan shug'ullanishga qaror qilganidan so'ng, RCA o'zining patentlaridan foydalanish uchun Farnsvortga litsenziya to'lovlaridan tashqari o'n yil davomida 1 million AQSh dollar to'lashga rozi bo'ldi. .^[62][63]

1933 yilda RCA Tihanyi zaryadini saqlash printsipiga asoslangan takomillashtirilgan kamerali naychani taqdim etdi.^[64] Zvorikin tomonidan "Iconoscope" deb nomlangan yangi trubaning yorug'lik sezgirligi 75000 ga yaqin edi lyuks va shu tariqa Farnsvortning tasvir dissektoriga qaraganda ancha sezgir ekanligi da'vo qilingan.^{[iqtibos kerak ]} Biroq, Farnsvort 1930 yilda ishlay boshlagan va 1931 yilda namoyish etgan mutlaqo noyob "multipaktorli" qurilmani ixtiro qilish orqali o'zining Image Dissector bilan quvvat muammolarini engib chiqdi.^[65][66] Ushbu kichik naycha 60-chi kuchga yoki undan ham yaxshiroq signalni kuchaytirishi mumkin^[67] va elektronikaning barcha sohalarida katta va'da berdi. Afsuski, multipaktor bilan bog'liq muammo shundaki, u qoniqarsiz darajada eskirgan.^[68]

Da Berlin radio shousi 1931 yil avgustda, Manfred fon Ardenne translatsiya qilish va qabul qilish uchun CRT-dan foydalangan holda televizion tizimni ommaviy namoyish qildi. Biroq, Ardenne CRT-ni o'rniga a-ni ishlatib, kamera naychasini ishlab chiqarmagan uchadigan joy skaneri slaydlarni va filmlarni skanerlash uchun.^[69] Filo Farnsvort jonli kameradan foydalangan holda dunyodagi birinchi elektron televidenie tizimini namoyish qildi. Franklin instituti ning Filadelfiya 1934 yil 25-avgustda va undan keyin o'n kun davomida.^[70][71] Meksikalik ixtirochi Gilyermo Gonsales Kamarena erta televizorda ham muhim rol o'ynagan. Uning televizor bilan tajribalari (dastlab telectroescopía deb nomlangan) 1931 yilda boshlanib, "trikromatik maydonning ketma-ket tizimi" uchun patent olishga olib keldi. rangli televizor 1940 yilda.^[72] Britaniyada EMI boshchiligidagi muhandislik jamoasi Ishoq Shoenberg 1932 yilda "Emitron" deb nom olgan yangi qurilmaga patent olish uchun murojaat qilgan,^[73][74] ular Bi-bi-si uchun mo'ljallangan kameralarning yuragini tashkil etdi. 1936 yil 2-noyabrda a 405 qatorli eshittirish Emitronni ishlatish xizmati studiyalarda boshlangan Aleksandra saroyi va Viktoriya binosining minoralaridan biri ustiga maxsus qurilgan ustundan uzatiladi. U qo'shni studiyalarda Bairdning mexanik tizimi bilan qisqa vaqt davomida almashib turdi, ammo ancha ishonchli va ko'rinadigan darajada ustun edi. Bu dunyodagi birinchi muntazam "yuqori aniqlikdagi" televizion xizmat edi.^[75]

Dastlabki Amerika ikonoskopi shovqinli edi, shovqinning signalga nisbati yuqori edi va oxir-oqibat umidsizlikka olib keladigan natijalarni berdi, ayniqsa yuqori aniqlikdagi mexanik skanerlash tizimlari bilan taqqoslaganda.^[76][77] The EMI jamoasi nazorati ostida Ishoq Shoenberg, ikonoskop (yoki Emitron) elektron signalni qanday ishlab chiqarishini tahlil qildi va uning haqiqiy samaradorligi nazariy maksimaldan atigi 5% tashkil etdi degan xulosaga keldi.^[78][79] Ular ushbu muammoni 1934 yilda ikkita yangi kamerali naychalarni ishlab chiqarish va patentlash orqali hal qilishdi super-Emitron va CPS Emitron.^[80][81][82] Super-Emitron asl Emitron va ikonoskop naychalariga nisbatan o'ndan o'n besh baravar ko'proq sezgir edi va ba'zi hollarda bu nisbat ancha yuqori edi.^[78] U uchun ishlatilgan tashqi eshittirish BBC tomonidan, birinchi marta, kuni Sulh kuni 1937 yil, keng jamoat televizorda Qirolning Senotafga gulchambar qo'yishini tomosha qilishi mumkin edi.^[83] Bu qo'shni binolarning tomiga o'rnatilgan kameralardan kimdir birinchi marta jonli ko'chadagi sahnani translyatsiya qilgani edi, chunki na Farnsworth va na RCA xuddi shunday qilmaydilar 1939 yil Nyu-Yorkdagi Butunjahon ko'rgazmasi.

1939 yilda RCA tomonidan Nyu-Yorkda eksperimental televizion eshittirish boshlanishi uchun reklama

Hind boshidagi sinov namunasi 1970 yildan oldin qora va oq davrda ishlatilgan. Televizor har kuni birinchi marta imzolanganida namoyish qilingan.

Boshqa tomondan, 1934 yilda Zvorykin ba'zi patent huquqlarini Germaniyaning litsenziati Telefunken kompaniyasi bilan bo'lishdi.^[84] Hamkorlik natijasida "tasvir ikonoskopi" (Germaniyada "Superikonoskop") ishlab chiqarilgan. Ushbu kolba super-Emitron bilan bir xil.^{[iqtibos kerak ]} Evropada super-Emitron va tasvir ikonoskopini ishlab chiqarish va tijoratlashtirishga ta'sir ko'rsatilmagan patent urushi Zvorik va Farnsvort o'rtasida, chunki Dieckmann va Jahannam Germaniyada imidj dissektorini ixtiro qilishda ustuvor mavqega ega edilar, chunki ular uchun patentga talabnoma topshirdilar Lichtelektrische Bildzerlegerröhre für Fernseher (Televizor uchun fotoelektrik tasvirni ajratuvchi naycha1925 yilda Germaniyada,^[85] Farnsvort AQShda ham xuddi shunday qilganidan ikki yil oldin.^[86] Tasvir ikonoskopi (Superikonoskop) 1936 yildan 1960 yilgacha Evropada jamoat eshittirishining sanoat standartiga aylandi va keyinchalik uning o'rniga vidikon va plumbikon naychalar. Darhaqiqat, bu elektron naychalarda Evropa an'analarining vakili orthicon tasviri bilan namoyish etilgan Amerika an'analariga qarshi raqobatlashayotgan edi.^[87][88] Germaniyaning Heimann kompaniyasi 1936 yilgi Berlin Olimpiya o'yinlari uchun Superikonoskop ishlab chiqardi,^[89][90] keyinchalik Heimann 1940 yildan 1955 yilgacha uni ishlab chiqargan va tijoratlashtirgan;^[91] nihoyat Gollandiya kompaniyasi Flibs 1952 yildan 1958 yilgacha tasvir ikonoskopi va multikonni ishlab chiqardi va tijoratlashtirdi.^[88][92]

O'sha paytda Amerika televizion eshittirishlari 1941 yilda kelishuvlar va kelishuvlarga erishilgunga qadar har biri alohida texnologiyalar bilan dasturlash va ustunlik uchun raqobatlashadigan har xil o'lchamdagi turli xil bozorlardan iborat edi.^[93] Masalan, RCA Nyu-York mintaqasida faqat ikonoskoplardan foydalangan, ammo Filadelfiya va San-Frantsiskodagi Farnsworth Image Dissectors.^[94] 1939 yil sentyabrda RCA Farnsworth patentlariga kirish huquqi uchun Farnsworth Television and Radio Corporation kelasi o'n yil ichida royalti to'lashga rozi bo'ldi.^[95] Ushbu tarixiy kelishuv bilan RCA Farnsworth Technology-ning eng yaxshi narsalarini o'z tizimlariga qo'shib qo'ydi.^[94] 1941 yilda Qo'shma Shtatlar 525 qatorli televizion dasturni amalga oshirdi.^[96][97] Elektr muhandisi Benjamin Adler televideniening rivojlanishida katta rol o'ynadi.^[98][99]

Dunyodagi birinchi 625 chiziqli televizion standart Sovet Ittifoqida 1944 yilda ishlab chiqilgan va 1946 yilda milliy standartga aylangan.^[100] Birinchi translyatsiya 625 qatorli standart 1948 yilda Moskvada sodir bo'lgan.^[101] Keyinchalik har bir ramkada 625 ta chiziq kontseptsiyasi Evropada amalga oshirildi CCIR standart.^[102] 1936 yilda, Kalman Tihanyi printsipini tavsifladi plazma displeyi, birinchi tekis panelli displey tizim.^[103][104]

Erta elektron televizorlar katta va katta edi, bilan analog davrlar qilingan vakuumli quvurlar. Birinchi ish ixtiro qilingandan so'ng tranzistor da Bell laboratoriyalari, Sony asoschisi Masaru Ibuka ga o'tishni 1952 yilda bashorat qilgan elektron sxemalar tranzistorlardan yasalgan kichikroq va ko'chma televizorlarga olib keladi.^[105] Birinchi to'liq tranzistorli, ko'chma qattiq holat televizor 8 dyuymli edi Sony TV8-301, 1959 yilda ishlab chiqilgan va 1960 yilda chiqarilgan.^[106][107] Bu televizion tomoshabinlarni jamoaviy tomosha qilish tajribasidan yakka ko'rish tajribasiga aylantira boshladi.^[108] 1960 yilga kelib, Sony 4 dan ortiq sotgan dunyo bo'ylab million ko'chma televizor.^[109]

Rang

Samsung LED televizor

Rangli tasvirni yaratish uchun uchta monoxrom tasvirlardan foydalanishning asosiy g'oyasi deyarli oq-qora televizorlar qurilishi bilanoq tajriba qilingan edi. U hech qanday amaliy tafsilotlarni aytmagan bo'lsa-da, televizor uchun dastlabki nashr etilgan takliflar orasida 1880 yilda Mauris Le Blan tomonidan rangli tizim uchun takliflar, shu jumladan televizion adabiyotda chiziqli va kadrlarni skanerlash haqidagi birinchi eslatmalar mavjud edi.^[110] Polshalik ixtirochi Yan Shzepanik a dan foydalangan holda 1897 yilda rangli televizion tizimni patentladi selen transmitterdagi fotoelektr xujayrasi va qabul qilgichdagi tebranuvchi oynani va harakatlanuvchi prizmani boshqaruvchi elektromagnit. Ammo uning tizimida uzatuvchi uchida ranglar spektrini tahlil qilish uchun hech qanday vosita yo'q edi va u aytganidek ishlashi mumkin emas edi.^[111] Boshqa ixtirochi, Hovannes Adamian, shuningdek, 1907 yildayoq rangli televizor bilan tajriba o'tkazgan. Birinchi rangli televizion loyihani u da'vo qilmoqda,^[112] va 1908 yil 31 martda Germaniyada patent raqami 197183, keyinchalik Britaniyada 1908 yil 1 aprelda patent raqami 7219,^[113] Frantsiyada (patent № 390326) va Rossiyada 1910 yilda (patent № 17912).^[114]

Shotlandiyalik ixtirochi John Logie Baird 1928 yil 3-iyulda dunyodagi birinchi rang uzatilishini namoyish qildi va uzatishda va qabul qilishda skanerlash disklari yordamida uchta spiral teshik bilan, har bir spiral boshqa asosiy rangdagi filtrlar bilan; va qabul qilish uchida uchta yorug'lik manbai, a komutator ularning yoritilishini almashtirish uchun.^[115] Baird shuningdek 1938 yil 4 fevralda dunyodagi birinchi rangli translyatsiyani o'tkazdi va Baird's-dan mexanik ravishda skanerlangan 120 qatorli tasvirni yubordi. Kristal saroy London studiyasidagi proektsion ekranga studiyalar Dominion teatri.^[116] Shuningdek, mexanik ravishda skanerlangan rangli televizor namoyish etildi Qo'ng'iroq laboratoriyalari 1929 yil iyun oyida uchta to'liq tizimidan foydalangan holda fotoelektr xujayralari, qizil, yashil va ko'k rangdagi tasvirlarni bitta rangli tasvirga joylashtirish uchun bir qator nometall bilan kuchaytirgichlar, porlash naychalari va rangli filtrlar.

Birinchi amaliy gibrid tizim yana Jon Loji Baird tomonidan kashshof qilingan. 1940 yilda u an'anaviy oq-qora displeyni aylanadigan rangli disk bilan birlashtirgan rangli televizorni ommaviy ravishda namoyish etdi. Ushbu qurilma juda "chuqur" edi, ammo keyinchalik yorug'lik yo'lini katta an'anaviy konsolga o'xshash butunlay amaliy qurilmaga katlama oynasi yordamida yaxshilandi.^[117] Biroq, Baird dizayndan mamnun emas edi va 1944 yildayoq Britaniya hukumat qo'mitasiga to'liq elektron qurilma yaxshiroq bo'lishini izohlagan edi.

1939 yilda venger muhandisi Piter Karl Goldmark da elektromekanik tizimni joriy qildi CBS o'z ichiga olgan Ikonoskop Sensor. CBS dala ketma-ket rang tizimi qisman mexanik edi, qizil, ko'k va yashil filtrlardan yasalgan disk televizor kamerasi ichida 1200 rpm tezlikda aylanar edi va shunga o'xshash disk qabul qilgich ichidagi katod nurlari trubkasi oldida sinxronlashda aylanardi. .^[118] Tizim birinchi bo'lib namoyish etildi Federal aloqa komissiyasi (FCC) 1940 yil 29 avgustda va 4 sentyabrda matbuotga namoyish etilgan.^{[119][120][121][122]}

CBS 1940 yil 28-avgustda va jonli kameralar yordamida 12-noyabrga qadar plyonka yordamida eksperimental rangli maydon sinovlarini boshladi.^[120][123] NBC (RCA-ga tegishli) o'zining birinchi rangli televizion sinovini 1941 yil 20 fevralda o'tkazgan. CBS har kuni 1941 yil 1 iyunda rangli dala sinovlarini boshladi.^[124] Ushbu rang tizimlari mavjud qora va oq rangga mos kelmadi televizorlar, va hozirda jamoat uchun rangli televizorlar mavjud bo'lmaganligi sababli, rangli maydon testlarini ko'rish RCA va CBS muhandislari va taklif qilingan matbuot uchun cheklangan edi. The Urush ishlab chiqarish kengashi 1942 yil 22 apreldan 1945 yil 20 avgustgacha fuqarolik foydalanishi uchun televizion va radio uskunalarni ishlab chiqarishni to'xtatdi, rangli televizorni keng ommaga tanishtirish imkoniyatini chekladi.^[125][126]

1940 yildayoq Baird o'zi chaqirgan to'liq elektron tizim ustida ish boshladi Telekrom. Dastlabki Telechrome qurilmalari fosfor plitasining har ikki tomoniga qaratilgan ikkita elektron quroldan foydalangan. Fosfor naqshli edi, shuning uchun qurollardan elektronlar faqat naqshning bir tomoniga yoki boshqa tomoniga tushdi. Moviy va qizil fosforlar yordamida oqilona cheklangan rangli tasvirni olish mumkin edi. Shuningdek, u 3D tasvirni yaratish uchun monoxrom signallardan foydalangan holda xuddi shu tizimni namoyish etdi ("deb nomlangan"stereoskopik "O'sha paytda). 1944 yil 16-avgustda bo'lib o'tgan namoyish amaliy rangli televizion tizimning birinchi namunasi edi. Telechromda ishlar davom ettirildi va to'liq rangli uchun uchta qurolli versiyani joriy etish rejalari tuzildi. Biroq, 1946 yilda Bairdning bevaqt o'limi Telechrome tizimining rivojlanishi yakunlandi.^[127][128]Shunga o'xshash tushunchalar 1940 va 50-yillarda keng tarqalgan bo'lib, ular asosan uchta qurol tomonidan yaratilgan ranglarni birlashtirganligi bilan ajralib turardi. The Naycha Bairdning kontseptsiyasiga o'xshash edi, lekin Bairdning tekis yuzasida 3D naqshini o'rniga fosforlari tashqi yuzlariga joylashtirilgan kichik piramidalardan foydalangan. The Penetron bir-birining ustiga uchta qatlam fosfor ishlatgan va shu ranglarni chizishda nurning yuqori qatlamlarga etib borishi kuchini oshirgan. The Xromatron naychadagi vertikal chiziqlarga joylashtirilgan rangli fosforlarni tanlash uchun markazlashtiruvchi simlar to'plamidan foydalangan.

Rangni joriy qilishning eng katta texnik muammolaridan biri efirga uzatuvchi televizion dastur saqlab qolish istagi edi tarmoqli kengligi, mavjud bo'lganlardan potentsial ravishda uch baravar ko'p qora va oq me'yorlariga rioya qiling va ortiqcha miqdorni ishlatmang radio spektri. Qo'shma Shtatlarda, ancha tadqiqotlardan so'ng Milliy televideniye tizimlari qo'mitasi^[129] tomonidan ishlab chiqilgan barcha elektron tizimni tasdiqladi RCA, bu rang ma'lumotlarini nashrida ma'lumotidan alohida kodlagan va tarmoqli kengligini saqlab qolish uchun rang ma'lumotlarining o'lchamlarini sezilarli darajada kamaytirgan. Oq-qora televizorlar bir xil uzatishni qabul qilib, uni oq-qora rangda namoyish qilishi mumkinligi sababli, qabul qilingan rang tizimi [orqaga] «mos keladi». (O'sha davrdagi RCA reklamalarida ko'rsatilgan "Uyg'un rang" qo'shiqda keltirilgan "Amerika ", of West Side Story, 1957.) Yorqinlik tasviri mavjud bo'lgan oq-qora televizorlar bilan bir oz pasaytirilgan piksellar soniga mos keladigan bo'lib qoldi, rangli televizorlar signaldagi qo'shimcha ma'lumotlarni dekodlashi va cheklangan o'lchamdagi rangli displeyni ishlab chiqarishi mumkin edi. Yuqori aniqlikdagi qora va oq va pastki o'lchamdagi rangli tasvirlar miyada birlashib, yuqori aniqlikda ko'rinadigan rangli tasvirni hosil qiladi. NTSC standarti katta texnik yutuqni namoyish etdi.

A-da ishlatiladigan rangli chiziqlar sinov namunasi, ba'zida dastur materiallari mavjud bo'lmaganda ishlatiladi.

Birinchi rangli translyatsiya (jonli dasturning birinchi qismi) Nikoh (teleserial) ) 1954 yil 8-iyulda sodir bo'lgan, ammo keyingi o'n yil ichida ko'plab tarmoq translyatsiyalari va deyarli barcha mahalliy dasturlar oq-qora rangda davom etdi. Faqat 1960-yillarning o'rtalariga kelib, ranglar to'plamlari juda ko'p miqdorda sotila boshlandi, chunki qisman 1965 yilgi ranglarning o'zgarishi bilan bog'liq bo'lib, unda tarmoqning asosiy vaqtidagi dasturlarining yarmidan ko'pi shu yilning kuzida rangli efirga uzatilishi e'lon qilindi. Birinchi rangli asosiy vaqt mavsumi atigi bir yil o'tib keldi. 1972 yilda kunduzgi tarmoq dasturlari orasidagi so'nggi mablag 'rangga aylandi va natijada birinchi bo'lib butunlay rangli tarmoq mavsumi paydo bo'ldi.

Dastlabki rang to'plamlari polga mo'ljallangan konsol modellari yoki stol usti versiyalari deyarli katta va og'ir bo'lganligi sababli amalda ular bir joyga mahkam o'rnashib qolishgan. GE nisbatan ixcham va engil Porta-rang set was introduced in the spring of 1966. It used a tranzistor asoslangan UHF tuner.^[130] The first fully transistorized color television in the United States was the Kvasar television introduced in 1967.^[131] These developments made watching color television a more flexible and convenient proposition.

The MOSFET (metal-oxide-semiconductor field-effect transistor, or MOS transistor) was invented by Mohamed M. Atalla va Devon Kanx da Bell laboratoriyalari 1959 yilda,^[132] and presented in 1960.^[133] 1960-yillarning o'rtalariga kelib, RCA were using MOSFETs in their consumer television products.^[134] RCA Laboratories researchers W.M. Austin, J.A. Dekan, D.M. Griswold and O.P. Hart in 1966 described the use of the MOSFET in television circuits, including RF kuchaytirgichi, low-level video, xroma va AGC davrlar.^[135] The quvvat MOSFET was later widely adopted for televizion qabul qilgich davrlar.^[136]

In 1972, sales of color sets finally surpassed sales of black-and-white sets. Color broadcasting in Europe was not standardized on the PAL format until the 1960s, and broadcasts did not start until 1967. By this point many of the technical problems in the early sets had been worked out, and the spread of color sets in Europe was fairly rapid. By the mid-1970s, the only stations broadcasting in black-and-white were a few high-numbered UHF stations in small markets, and a handful of low-power repeater stations in even smaller markets such as vacation spots. By 1979, even the last of these had converted to color and, by the early 1980s, B&W sets had been pushed into niche markets, notably low-power uses, small portable sets, or for use as video monitor screens in lower-cost consumer equipment. By the late 1980s even these areas switched to color sets.

Raqamli

Digital television (DTV) is the transmission of audio and video by digitally processed and multiplexed signals, in contrast to the totally analog and channel separated signals used by analog televizor. Sababli ma'lumotlarni siqish, digital TV can support more than one program in the same channel bandwidth.^[137] It is an innovative service that represents the most significant evolution in television broadcast technology since color television emerged in the 1950s.^[138] Digital TV's roots have been tied very closely to the availability of inexpensive, high performance kompyuterlar. It was not until the 1990s that digital TV became feasible.^[139] Raqamli televideniye ilgari deyarli imkonsiz bo'lganligi sababli amalda mavjud emas edi tarmoqli kengligi talablari siqilmagan raqamli video,^[140][141] 200 atrofida talab qilinadi Mbit / s bit tezligi a standart aniqlikdagi televizor (SDTV) signal,^[140] va 1 dan ortiq Gbit / s uchun yuqori aniqlikdagi televizor (HDTV).^[141]

Raqamli televidenie 1990-yillarning boshlarida katta texnologik rivojlanish tufayli amalda amalga oshirila boshlandi, diskret kosinus konvertatsiyasi (DCT) videoni siqish.^[140][141] DCT kodlash bu yo'qotishlarni siqish uchun birinchi marta taklif qilingan texnika tasvirni siqish tomonidan Nosir Ahmed 1972 yilda,^[142] va keyinchalik a ga moslashtirildi harakat bilan qoplanadi DCT video kodlash algoritmi, uchun video kodlash standartlari kabi H.26x 1988 yildan boshlab formatlari va MPEG 1991 yildan boshlab formatlari.^[143][144] Harakat bilan kompensatsiya qilingan DCT video kompressiyasi raqamli televidenie signali uchun zarur bo'lgan o'tkazuvchanlik hajmini sezilarli darajada kamaytirdi.^[140][141] DCT kodlash raqamli televizion signallarning o'tkazuvchanlik kengligi talablarini taxminan 34 ga siqib chiqardi SDTV uchun Mpps bit tezligi va HDTV uchun 70–140 Mbit / s atrofida studiyada sifatli uzatishni saqlab, 1990-yillarda raqamli televidenieni amaliy haqiqatga aylantirdi.^[141]

Raqamli televidenie xizmati 1986 yilda taklif qilingan Nippon telegraf va telefon (NTT) va Pochta va telekommunikatsiya vazirligi (MPT) Yaponiyada "Integrated Network System" xizmatini rivojlantirish rejalashtirilgan edi. However, it was not possible to practically implement such a digital TV service until the adoption of DCT video compression technology made it possible in the early 1990s.^[140]

In the mid-1980s, as Japanese maishiy elektronika firms forged ahead with the development of HDTV texnologiya, MUSE analog format proposed by NHK, a Japanese company, was seen as a pacesetter that threatened to eclipse U.S. electronics companies' technologies. Until June 1990, the Japanese MUSE standard, based on an analog system, was the front-runner among the more than 23 different technical concepts under consideration. Then, an American company, General Instrument, demonstrated the feasibility of a digital television signal. This breakthrough was of such significance that the FCC was persuaded to delay its decision on an ATV standard until a digitally based standard could be developed.

1990 yil mart oyida, raqamli standartni amalga oshirish mumkinligi aniq bo'lganida, FCC bir qator muhim qarorlarni qabul qildi. First, the Commission declared that the new ATV standard must be more than an enhanced analog signal, but be able to provide a genuine HDTV signal with at least twice the resolution of existing television images.(7) Then, to ensure that viewers who did not wish to buy a new digital television set could continue to receive conventional television broadcasts, it dictated that the new ATV standard must be capable of being "simulcast " on different channels.(8)The new ATV standard also allowed the new DTV signal to be based on entirely new design principles. Although incompatible with the existing NTSC standard, the new DTV standard would be able to incorporate many improvements.

The final standards adopted by the FCC did not require a single standard for scanning formats, tomonlarning nisbati, or lines of resolution. This compromise resulted from a dispute between the maishiy elektronika industry (joined by some broadcasters) and the kompyuter sanoati (joined by the kino sanoati and some public interest groups) over which of the two scanning processes—interlaced or progressive—would be best suited for the newer digital HDTV compatible display devices.^[145] Interlaced scanning, which had been specifically designed for older analogue CRT display technologies, scans even-numbered lines first, then odd-numbered ones. In fact, interlaced scanning can be looked at as the first video compression model as it was partly designed in the 1940s to double the image resolution to exceed the limitations of the television broadcast bandwidth. Another reason for its adoption was to limit the flickering on early CRT screens whose phosphor coated screens could only retain the image from the electron scanning gun for a relatively short duration.^[146] However interlaced scanning does not work as efficiently on newer display devices such as Liquid-crystal (LCD), for example, which are better suited to a more frequent progressive refresh rate.^[145]

Progressive scanning, the format that the computer industry had long adopted for computer display monitors, scans every line in sequence, from top to bottom. Progressive scanning in effect doubles the amount of data generated for every full screen displayed in comparison to interlaced scanning by painting the screen in one pass in 1/60-second, instead of two passes in 1/30-second. The computer industry argued that progressive scanning is superior because it does not "flicker" on the new standard of display devices in the manner of interlaced scanning. Bundan tashqari, progressiv skanerlash Internet bilan osonroq ulanish imkoniyatini beradi va aksincha interlaced formatlarga arzonroq aylantiriladi. The film industry also supported progressive scanning because it offered a more efficient means of converting filmed programming into digital formats. O'z navbatida, maishiy elektronika sanoati va teleradioeshittirishlar interlaced scanning eng yuqori sifatli rasmlarni o'sha paytda (va hozirda) amalga oshirish mumkin bo'lgan yagona texnologiya ekanligini ta'kidladilar, ya'ni har bir rasm uchun 1080 ta chiziq va har bir chiziq uchun 1920 piksel. Teleradiokompaniyalar interlaced skanerlashni ma'qulladilar, chunki ularning interlaced dasturlarining katta arxivi progressiv formatga osonlikcha mos kelmaydi. William F. Schreiber, who was director of the Advanced Television Research Program at the Massachusets texnologiya instituti from 1983 until his retirement in 1990, thought that the continued advocacy of interlaced equipment originated from consumer electronics companies that were trying to get back the substantial investments they made in the interlaced technology.^[147]

Raqamli televizion o'tish started in late 2000s. All governments across the world set the deadline for analog shutdown by 2010s. Initially the adoption rate was low, as the first digital tuner-equipped TVs were costly. But soon, as the price of digital-capable TVs dropped, more and more households were converting to digital televisions. The transition is expected to be completed worldwide by mid to late 2010s.

Smart TV

A smart TV

This Sony Bravia TV is Smart as well as has built in Android software. Also has 3D support along with Full HD media playback

The advent of digital television allowed innovations like smart TVs. A smart television, sometimes referred to as connected TV or hybrid TV, is a television set or stol usti qutisi with integrated Internet and Veb 2.0 features, and is an example of texnologik yaqinlik between computers, television sets and set-top boxes. Besides the traditional functions of television sets and set-top boxes provided through traditional Broadcasting media, these devices can also provide Internet TV, online interaktiv ommaviy axborot vositalari, over-the-top content, shu qatorda; shu bilan birga so'rov bo'yicha; talabda Oqimli ommaviy axborot vositalari va uy tarmog'i kirish. These TVs come pre-loaded with an operating system.^{[9][148][149][150]}

Smart TV should not to be confused with Internet-televizor, Internet-protokol televideniesi (IPTV) or with Veb-televizor. Internet televizion refers to the receiving of television content over the Internet instead of by traditional systems—terrestrial, cable and satellite (although internet itself is received by these methods). IPTV is one of the emerging Internet television technology standards for use by television broadcasters. Veb-televizor (WebTV) is a term used for programs created by a wide variety of companies and individuals for broadcast on Internet TV. A first patent was filed in 1994^[151] (and extended the following year)^[152] for an "intelligent" television system, linked with data processing systems, by means of a digital or analog network. Apart from being linked to data networks, one key point is its ability to automatically download necessary software routines, according to a user's demand, and process their needs. Major TV manufacturers have announced production of smart TVs only, for middle-end and high-end TVs in 2015.^[6][7][8] Smart TVs have gotten more affordable compared to when they were first introduced, with 46 million of U.S. households having at least one as of 2019.^[153]

3D

Ushbu bo'lim kengayishga muhtoj. Siz yordam berishingiz mumkin unga qo'shilish. (2014 yil dekabr)

3D television conveys chuqurlik hissi to the viewer by employing techniques such as stereoskopik displey, multi-view displey, 2D-ortiqcha chuqurlik, or any other form of 3D displey. Most modern 3D televizorlar dan foydalaning faol tortishish 3D tizimi yoki a qutblangan 3D tizim, and some are autostereoskopik without the need of glasses. Stereoscopic 3D television was demonstrated for the first time on 10 August 1928, by John Logie Baird in his company's premises at 133 Long Acre, London.^[154] Baird pioneered a variety of 3D television systems using electromechanical and cathode-ray tube techniques. The first 3D TV was produced in 1935. The advent of digital television in the 2000s greatly improved 3D TVs. Although 3D TV sets are quite popular for watching 3D home media such as on Blu-ray discs, 3D programming has largely failed to make inroads with the public. Many 3D television channels which started in the early 2010s were shut down by the mid-2010s. According to DisplaySearch 3D televisions shipments totaled 41.45 million units in 2012, compared with 24.14 in 2011 and 2.26 in 2010.^[155] As of late 2013, the number of 3D TV viewers started to decline.^{[156][157][158][159][160]}

Broadcast systems

Yer usti televideniesi

A modern high gain UHF Yagi television antenna. It has 17 directors, and one reflector (made of 4 rods) shaped as a corner reflector.

Dasturlash translyatsiya by television stations, sometimes called "channels", as stations are litsenziyalangan by their governments to broadcast only over assigned kanallar televizorda guruh. Boshida, terrestrial broadcasting was the only way television could be widely distributed, and because tarmoqli kengligi was limited, i.e., there were only a small number of kanallar available, government regulation was the norm. AQShda Federal aloqa komissiyasi (FCC) allowed stations to broadcast advertisements beginning in July 1941, but required public service programming commitments as a requirement for a license. By contrast, the United Kingdom chose a different route, imposing a televizion litsenziya fee on owners of television reception equipment to fund the British Broadcasting Corporation (BBC), which had public service as part of its Qirollik xartiyasi.

WRGB claims to be the world's oldest television station, tracing its roots to an experimental station founded on 13 January 1928, broadcasting from the General Electric fabrika Schenectady, Nyu-York, under the call letters W2XB.^[161] It was popularly known as "WGY Television" after its sister radio station. Later in 1928, General Electric started a second facility, this one in New York City, which had the call letters W2XBS and which today is known as WNBC. The two stations were experimental in nature and had no regular programming, as receivers were operated by engineers within the company. A tasviri Mushuk Feliks doll rotating on a turntable was broadcast for 2 hours every day for several years as new technology was being tested by the engineers. On 2 November 1936, the BBC began transmitting the world's first public regular high-definition service from the Victorian Aleksandra saroyi Londonning shimolida.^[162] It therefore claims to be the birthplace of TV broadcasting as we know it today.

With the widespread adoption of cable across the United States in the 1970s and 80s, terrestrial television broadcasts have been in decline; in 2013 it was estimated that about 7% of US households used an antenna.^[163][164] A slight increase in use began around 2010 due to switchover to raqamli er usti televideniesi broadcasts, which offered pristine image quality over very large areas, and offered an alternate to cable television (CATV) for shnur kesgichlar. All other countries around the world are also in the process of either shutting down analog terrestrial television or switching over to digital terrestrial television.

Kabel televideniesi

Ushbu bo'lim kengayishga muhtoj. Siz yordam berishingiz mumkin unga qo'shilish. (2014 yil dekabr)

Koaksiyal kabel is used to carry cable television signals into cathode ray tube and flat panel television sets.

Cable television is a system of broadcasting television programming to paying subscribers via radio frequency (RF) signals transmitted through coaxial cables or light pulses through fiber-optic cables. This contrasts with traditional terrestrial television, in which the television signal is transmitted over the air by radio waves and received by a television antenna attached to the television. In the 2000s, FM radio programming, high-speed Internet, telephone service, and similar non-television services may also be provided through these cables. The abbreviation CATV is often used for cable television. It originally stood for Community Access Television or Community Antenna Television, from cable television's origins in 1948: in areas where over-the-air reception was limited by distance from transmitters or mountainous terrain, large "community antennas" were constructed, and cable was run from them to individual homes.^[165] The origins of cable broadcasting are even older as radio programming was distributed by cable in some European cities as far back as 1924. Earlier cable television was analog, but since the 2000s, all cable operators have switched to, or are in the process of switching to, digital cable television.

Sun'iy yo'ldosh televideniesi

DBS satellite dishes installed on an apartment complex.

Satellite television is a system of supplying televizion dasturlar using broadcast signals relayed from aloqa sun'iy yo'ldoshlari. The signals are received via an outdoor parabolic reflector antenna usually referred to as a sun'iy yo'ldosh antennasi va a past shovqinli blokli pastga konverter (LNB). A satellite receiver then decodes the desired television program for viewing on a televizor. Receivers can be external stol usti qutilari, or a built-in television tuner. Satellite television provides a wide range of channels and services, especially to geographic areas without terrestrial television or cable television.

The most common method of reception is to'g'ridan-to'g'ri efirga uzatiladigan sun'iy yo'ldosh televideniesi (DBSTV), also known as "direct to home" (DTH).^[166] In DBSTV systems, signals are relayed from a to'g'ridan-to'g'ri efirga uzatiladigan sun'iy yo'ldosh ustida K_siz wavelength and are completely digital.^[167] Satellite TV systems formerly used systems known as television receive-only. These systems received analog signals transmitted in the C-tasma spektri FSS type satellites, and required the use of large dishes. Consequently, these systems were nicknamed "big dish" systems, and were more expensive and less popular.^[168]

The direct-broadcast satellite television signals were earlier analog signals and later digital signals, both of which require a compatible receiver. Raqamli signallar o'z ichiga olishi mumkin yuqori aniqlikdagi televizor (HDTV). Some transmissions and channels are bepul yoki bepul ko'rish, while many other channels are pulli televizor requiring a subscription.^[169]In 1945, British science fiction writer Artur C. Klark proposed a worldwide communications system which would function by means of three satellites equally spaced apart in earth orbit.^[170][171] This was published in the October 1945 issue of the Simsiz dunyo magazine and won him the Franklin instituti "s Styuart Ballantin medali 1963 yilda.^[172][173]

The first satellite television signals from Europe to North America were relayed via the Telstar satellite over the Atlantika ocean on 23 July 1962.^[174] The signals were received and broadcast in North American and European countries and watched by over 100 million.^[174] Launched in 1962, the O'rnimizni 1 satellite was the first satellite to transmit television signals from the US to Japan.^[175] Birinchi geosinxron aloqa sun'iy yo'ldoshi, Syncom 2, was launched on 26 July 1963.^[176]

The world's first commercial communications satellite, called Intelsat I and nicknamed "Early Bird", was launched into geosynchronous orbit on 6 April 1965.^[177] The first national network of television satellites, called Orbita, tomonidan yaratilgan Sovet Ittifoqi in October 1967, and was based on the principle of using the highly elliptical Molniya satellite for rebroadcasting and delivering of television signallari erga pastki aloqa stantsiyalar.^[178] The first commercial North American satellite to carry television transmissions was Canada's geostationary Anik 1, which was launched on 9 November 1972.^[179] ATS-6, the world's first experimental educational and To'g'ridan-to'g'ri efirga uzatiladigan sun'iy yo'ldosh (DBS), was launched on 30 May 1974.^[180] It transmitted at 860 MHz using wideband FM modulation and had two sound channels. The transmissions were focused on the Indian subcontinent but experimenters were able to receive the signal in Western Europe using home constructed equipment that drew on UHF television design techniques already in use.^[181]

The first in a series of Soviet geostationary satellites to carry Uyga to'g'ridan-to'g'ri televizor, Ekran 1, was launched on 26 October 1976.^[182] It used a 714 MHz UHF downlink frequency so that the transmissions could be received with existing UHF television technology rather than microwave technology.^[183]

Internet televizion

Internet television (Internet TV) (or online television) is the raqamli tarqatish of television content via the Internet as opposed to traditional systems like terrestrial, cable, and satellite, although the Internet itself is received by terrestrial, cable, or satellite methods. Internet television is a general term that covers the delivery of television shows, and other video content, over the Internet by video streaming technology, typically by major traditional television broadcasters. Internet television should not be confused with Smart TV, IPTV yoki bilan Veb-televizor. Aqlli televizor refers to the TV set which has a built-in operating system. Internet Protocol television (IPTV) is one of the emerging Internet television technology standards for use by television broadcasters. Veb-televizor is a term used for programs created by a wide variety of companies and individuals for broadcast on Internet TV.

To'plamlar

RCA 630-TS, the first mass-produced television set, which sold in 1946–1947

A television set, also called a television receiver, television, TV set, TV, or "telly", is a device that combines a tuner, display, an amplifier, and speakers for the purpose of viewing television and hearing its audio components. Introduced in the late 1920s in mexanik form, television sets became a popular consumer product after World War II in electronic form, using katod nurlari naychalari. The addition of color to broadcast television after 1953 further increased the popularity of television sets and an outdoor antenna became a common feature of suburban homes. The ubiquitous television set became the display device for recorded media in the 1970s, such as Betamaks va VHS, which enabled viewers to record TV shows and watch prerecorded movies. In the subsequent decades, TVs were used to watch DVDs and Blu-ray disklari of movies and other content. Major TV manufacturers announced the discontinuation of CRT, DLP, plasma and fluorescent-backlit LCDs by the mid-2010s. Televisions since 2010s mostly use LEDlar.^{[3][4][184][185]} LEDs are expected to be gradually replaced by OLEDs in the near future.^[5]

Display technologies

Disk

The earliest systems employed a spinning disk to create and reproduce images.^[186] These usually had a low resolution and screen size and never became popular with the public.

CRT

A 14-inch cathode ray tube showing its deflection coils and electron guns

The cathode ray tube (CRT) is a vakuum trubkasi bir yoki bir nechtasini o'z ichiga olgan electron guns (manbai elektronlar or electron emitter) and a lyuminestsent screen used to view images.^[33] It has a means to accelerate and deflect the electron beam(s) onto the screen to create the images. Rasmlar elektrni aks ettirishi mumkin to'lqin shakllari (osiloskop ), pictures (television, kompyuter monitori ), radar targets or others. The CRT uses an evacuated glass envelope which is large, deep (i.e. long from front screen face to rear end), fairly heavy, and relatively fragile. Xavfsizlik masalasida yuz odatda qalindan yasalgan lead glass Shunday qilib, parchalanishga yuqori darajada chidamli bo'ling va ko'pini to'sib qo'ying Rentgen emissiya, ayniqsa CRT iste'mol mahsulotida ishlatilsa.

In television sets and kompyuter monitorlari, the entire front area of the tube is scanned repetitively and systematically in a fixed pattern called a raster. An image is produced by controlling the intensity of each of the three electron beams, har bir qo'shimcha uchun asosiy rang (qizil, yashil va ko'k) a bilan video signal as a reference.^[187] Barcha zamonaviy CRT monitorlari va televizorlarida nurlar egilib turadi magnetic deflection, bobinlar tomonidan hosil qilingan va trubaning bo'yin qismidagi elektron zanjirlar tomonidan boshqariladigan o'zgaruvchan magnit maydon elektrostatik burilish is commonly used in osiloskoplar, a type of diagnostic instrument.^[187]

DLP

The Christie Mirage 5000, a 2001 DLP projector.

Digital Light Processing (DLP) is a type of videoproektor technology that uses a digital micromirror device. Some DLPs have a TV tuner, which makes them a type of TV display. It was originally developed in 1987 by Dr. Larry Hornbeck ning Texas Instruments. While the DLP imaging device was invented by Texas Instruments, the first DLP based projector was introduced by Digital Projection Ltd in 1997. Digital Projection and Texas Instruments were both awarded Emmi mukofotlari in 1998 for invention of the DLP projector technology. DLP is used in a variety of display applications from traditional static displays to interactive displays and also non-traditional embedded applications including medical, security, and industrial uses. DLP technology is used in DLP front projectors (standalone projection units for classrooms and business primarily), but also in private homes; in these cases, the image is projected onto a projection screen. DLP is also used in DLP rear projection television sets and digital signs. It is also used in about 85% of raqamli kino proektsiya.^[188]

Plazma

A plazma display panel (PDP) is a type of tekis panelli displey common to large TV displays 30 inches (76 cm) or larger. They are called "plazma " displays because the technology utilizes small cells containing elektr bilan zaryadlangan ionlashgan gazlar, or what are in essence chambers more commonly known as lyuminestsent lampalar.

LCD

A generic LCD TV, with speakers on either side of the screen.

Liquid-crystal-display televisions (LCD TV) are television sets that use LCD displey texnologiyasi tasvirlarni yaratish. LCD televisions are much thinner and lighter than katod nurlari trubkasi (CRTs) of similar display size, and are available in much larger sizes (e.g., 90-inch diagonal). When manufacturing costs fell, this combination of features made LCDs practical for television receivers. LCDs come in two types: those using sovuq katod fluorescent lamps, simply called LCDs and those using LED as backlight called as LEDlar.

In 2007, LCD televisions surpassed sales of CRT-based televisions worldwide for the first time, and their sales figures relative to other technologies accelerated. LCD TVs have quickly displaced the only major competitors in the large-screen market, the Plazma displeyi panel and orqa proektsion televizor.^[189] In mid 2010s LCDs especially LEDs became, by far, the most widely produced and sold television display type.^[184][185] LCDs also have disadvantages. Other technologies address these weaknesses, including OLEDlar, FED va SED, but as of 2014^[yangilash] none of these have entered widespread production.

OLED

OLED televizor

An OLED (organic light-emitting diode) is a yorug'lik chiqaradigan diod (LED) in which the emissive elektroluminesans layer is a film of organik birikma which emits light in response to an electric current. Ushbu qatlam organik yarimo'tkazgich is situated between two electrodes. Generally, at least one of these electrodes is transparent. OLEDs are used to create raqamli displeylar kabi qurilmalarda televizor ekranlar. It is also used for computer monitors, portable systems such as mobil telefonlar, qo'l o'yin konsollari va PDAlar.

There are two main families of OLED: those based on small molekulalar and those employing polimerlar. Adding mobile ionlari to an OLED creates a light-emitting electrochemical cell or LEC, which has a slightly different mode of operation. OLED displays can use either passiv-matritsa (PMOLED) or faol matritsa (AMOLED) addressing schemes. Active-matrix OLEDs require a yupqa plyonkali tranzistor backplane to switch each individual pixel on or off, but allow for higher resolution and larger display sizes.

An OLED display works without a backlight. Thus, it can display deep black levels and can be thinner and lighter than a suyuq kristalli displey (LCD). In low ambient light conditions such as a dark room an OLED screen can achieve a higher kontrast nisbati than an LCD, whether the LCD uses sovuq katod fluorescent lamps or LED yoritgichi. OLEDs are expected to replace other forms of display in near future.^[5]

Displey o'lchamlari

Comparison of 8K UHDTV, 4K UHDTV, HDTV va SDTV qaror

LD

Low-definition television or LDTV refers to television systems that have a lower screen resolution than standard-definition television systems such 240p (320*240). Bu ishlatiladi qo'l televizorlari. The most common source of LDTV programming is the Internet, where mass distribution of higher-resolution videofayllar could overwhelm kompyuter serverlari and take too long to download. Many mobile phones and portable devices such as olma "s iPod Nano, or Sony's PlayStation Portable use LDTV video, as higher-resolution files would be excessive to the needs of their small screens (320×240 va 480 × 272 piksel tegishli ravishda). The current generation of iPod Nanos have LDTV screens, as do the first three generations of iPod Touch va iPhone (480×320). For the first years of its existence, YouTube offered only one, low-definition resolution of 320x240p at 30fps or less. A standard, consumer grade VHS video tasma can be considered SDTV due to its resolution (approximately 360 × 480i/576i).

SD

Standard-definition television or SDTV refers to two different resolutions: 576i, 576 bilan interlaced Evropa tomonidan ishlab chiqilgan rezolyutsiya chiziqlari PAL va SECAM tizimlar; va 480i based on the American National Television System Committee NTSC tizim. SDTV is a television system that uses a resolution that is not considered to be either yuqori aniqlikdagi televizor (720p, 1080i, 1080p, 1440p, 4K UHDTV va 8K UHD ) yoki enhanced-definition television (EDTV 480p ). In North America, digital SDTV is broadcast in the same 4:3 aspect ratio as NTSC signals with widescreen content being markaz kesilgan.^[190] However, in other parts of the world that used the PAL or SECAM color systems, standard-definition television is now usually shown with a 16:9 tomonlar nisbati, with the transition occurring between the mid-1990s and mid-2000s. Older programs with a 4:3 aspect ratio are shown in the US as 4:3 with non-ATSC countries preferring to reduce the horizontal resolution by anamorphically scaling a ustun qutisi rasm.

HD

High-definition television (HDTV) provides a qaror that is substantially higher than that of standart aniqlikdagi televizor.

HDTV may be transmitted in various formats:

• 1080p: 1920×1080p: 2,073,600 pixels (~2.07 megapikselli ) per ramka
• 1080i: 1920×1080i: 1,036,800 pixels (~1.04 MP) per maydon or 2,073,600 pixels (~2.07 MP) per frame
  • A non-standard CEA resolution exists in some countries such as 1440×1080i: 777,600 pixels (~0.78 MP) per field or 1,555,200 pixels (~1.56 MP) per frame
• 720p: 1280×720p: 921,600 pixels (~0.92 MP) per frame

UHD

Ultra-high-definition television (also known as Super Hi-Vision, Ultra HD television, UltraHD, UHDTV, or UHD ) o'z ichiga oladi 4K UHD (2160p) and 8K UHD (4320p), which are two raqamli video formats proposed by NHK Science & Technology tadqiqot laboratoriyalari and defined and approved by the Xalqaro elektraloqa ittifoqi (XEI). The Maishiy elektronika assotsiatsiyasi announced on 17 October 2012, that "Ultra High Definition", or "Ultra HD", would be used for displays that have an tomonlar nisbati of at least 16:9 and at least one digital input capable of carrying and presenting native video at a minimum resolution of 3840×2160 pixels.^[191][192]

Bozor ulushi

North American consumers purchase a new television set on average every seven years, and the average household owns 2.8 televisions. 2011 yildan boshlab^[yangilash], 48 million are sold each year at an average price of $460 and size of 38 in (97 cm).^[193]

Tarkib

Dasturlash

Getting TV programming shown to the public can happen in many different ways. After production, the next step is to market and deliver the product to whichever markets are open to using it. This typically happens on two levels:

1. Original run or First run: a producer creates a program of one or multiple episodes and shows it on a station or network which has either paid for the production itself or to which a license has been granted by the television producers to do the same.
2. Eshittirish sindikatsiyasi: this is the terminology rather broadly used to describe secondary programming usages (beyond original run). It includes secondary runs in the country of first issue, but also international usage which may not be managed by the originating producer. In many cases, other companies, TV stations, or individuals are engaged to do the syndication work, in other words, to sell the product into the markets they are allowed to sell into by contract from the copyright holders, in most cases the producers.

First-run programming is increasing on subscription services outside the US, but few domestically produced programs are syndicated on domestic bepul (FTA) elsewhere. This practice is increasing, however, generally on digital-only FTA channels or with subscriber-only, first-run material appearing on FTA. Unlike the US, repeat FTA screenings of an FTA network program usually only occur on that network. Shuningdek, filiallari rarely buy or produce non-network programming that is not centered on mahalliy dasturlash.

Janrlar

Ushbu bo'limdagi misollar va istiqbol birinchi navbatda Amerika Qo'shma Shtatlari bilan muomala va vakili emas a butun dunyo ko'rinishi mavzuning. Sizga mumkin ushbu bo'limni yaxshilang, masalani muhokama qiling munozara sahifasiyoki tegishli ravishda yangi bo'lim yarating. (2014 yil dekabr) (Ushbu shablon xabarini qanday va qachon olib tashlashni bilib oling)

Television genres include a broad range of programming types that entertain, inform, and educate viewers. The most expensive entertainment genres to produce are usually dramas and dramatic kichkintoylar. However, other genres, such as historical Western genres, may also have high production costs.

Popular culture entertainment genres include action-oriented shows such as police, crime, detective dramas, horror, or thriller shows. As well, there are also other variants of the drama genre, such as tibbiy dramalar and daytime soap operas. Science fiction shows can fall into either the drama or action category, depending on whether they emphasize philosophical questions or high adventure. Comedy is a popular genre which includes situation comedy (sitcom) and animated shows for the adult demographic such as Janubiy park.

The least expensive forms of entertainment programming genres are game shows, talk shows, variety shows, and reality television. Game shows feature contestants answering questions and solving puzzles to win prizes. Talk shows contain interviews with film, television, music and sports taniqli shaxslar and public figures. Variety shows feature a range of musical performers and other entertainers, such as comedians and magicians, introduced by a host or Tantanalar ustasi. Ba'zi tok-shoular va estrada shoulari o'rtasida bir-biridan o'tish bor, chunki etakchi tok-shoularda ko'pincha intervyular segmentlari orasida guruhlar, qo'shiqchilar, hajvchilar va boshqa ijrochilarning chiqishlari namoyish etiladi. Reality TV telekanalida "odatiy" odamlar (ya'ni aktyorlar emas) politsiya xodimlari tomonidan hibsga olinishgacha bo'lgan g'ayrioddiy qiyinchiliklarga yoki tajribaga duch kelishmoqda (COPS ) vazn yo'qotishgacha (Eng katta yutqazuvchi ). Realiti-shoularning variantli versiyasida taniqli insonlar kundalik hayotda yurish kabi oddiy ishlarni bajarishi tasvirlangan (Osburnlar, Snoop Doggning otasi Xudo ) yoki odatdagi ishlarni bajarish (Oddiy hayot ).

Ba'zi televizionshunoslar va radioeshittirish guruhlari ta'kidlagan badiiy televizion dasturlar "sifatli televizor "kabi qatorlarni o'z ichiga oladi Twin Peaks va Sopranoslar. Kristin Tompson ushbu teleseriallarning ayrimlarida ham mavjud bo'lgan xususiyatlar mavjud deb ta'kidlaydi badiiy filmlar, masalan, psixologik realizm, hikoya murakkabligi va noaniq syujetlar. Ba'zi televizionshunoslar va radioeshittirish guruhlari "sifatli televidenie" deb da'vo qiladigan badiiy bo'lmagan televizion dasturlar hujjatli filmlar va jamoat ishlari shoulari kabi o'ziga xos tomoshabinlarga mo'ljallangan qator jiddiy, notijorat dasturlarni o'z ichiga oladi.

Moliyalashtirish

Dunyoning 1000 kishiga televizorlar

1000+	100–200
500–1000	50–100
300–500	0–50
200–300	Ma'lumot yo'q

Dunyo bo'ylab efirga uzatiladigan televidenie hukumat tomonidan, reklama, litsenziyalash (soliq shakli), obuna yoki ularning har qanday kombinatsiyasi tomonidan moliyalashtiriladi. Daromadlarni himoya qilish uchun obuna telekanallari odatda shifrlangan bo'lib, signalni ko'rish uchun faqat abonentlar parol hal qilish kodlarini olishadi. Shifrlanmagan kanallar bepul efir yoki FTA sifatida tanilgan. 2009 yilda global televideniye bozori kamida bitta televizorga ega bo'lgan 1 217,2 million televizion uyni va jami daromadlarini 268,9 milliard evroni tashkil etdi (2008 yilga nisbatan 1,2 foizga kamaydi).^[195] Shimoliy Amerikada televizion daromadlar ulushi 39 foizni tashkil qildi, undan keyin Evropa (31 foiz), Osiyo-Tinch okeani (21 foiz), Lotin Amerikasi (8 foiz) va Afrika va Yaqin Sharq (2 foiz).^[196] Global miqyosda turli xil televizion daromad manbalari 45-50% reklama reklama daromadlari, 40-45% obuna to'lovlari va 10% davlat mablag'lariga bo'linadi.^[197][198]

Reklama

Televizorning keng qamrovi uni reklama beruvchilar uchun kuchli va jozibali vositaga aylantiradi. Ko'pgina televizion tarmoqlar va stantsiyalar o'zlarining dasturlarini moliyalashtirish uchun reklama beruvchilarga ("homiylar") efirga uzatiladigan vaqt bloklarini sotadilar.^[199] Televizion reklamalar (turli xil televizion reklama, reklama yoki reklama reklamasi deb nomlanadi Amerika ingliz tili, va ma'lum bo'lgan Britaniya ingliz tili reklama sifatida) - bu odatda mahsulot yoki xizmatni bozorga etkazish uchun xabar tarqatadigan tashkilot tomonidan ishlab chiqarilgan va to'lanadigan televizion dasturlarning bir qismi. Reklama daromadi ko'pchilik xususiy televizion tarmoqlarni moliyalashtirishning katta qismini ta'minlaydi. Bugungi kunda televizion reklamalarning aksariyati uzunligi bir necha soniyadan bir necha daqiqagacha (shuningdek, dastur davomiyligi) qisqacha reklama joylaridan iborat. infomercials ). Ushbu turdagi reklama turli xil tovarlar, xizmatlar va g'oyalarni targ'ib qilish uchun televizor paydo bo'lishidan beri foydalanilgan.

1928 yilda televizor hali eksperimental bosqichida edi, ammo vositaning tovarlarni sotish salohiyati allaqachon bashorat qilingan edi.

Televizion reklamaning tomoshabinlar ommasiga ta'siri (umuman ommaviy axborot vositalarining ta'siri) kabi munozarachilar tomonidan falsafiy nutq mavzusi bo'lgan. Marshall Makluan. Kabi kompaniyalar tomonidan o'lchanadigan televizion dasturlarning tomoshabinlari Nilsen Media tadqiqotlari, ko'pincha televizion reklamalarni joylashtirish metrikasi sifatida ishlatiladi va shuning uchun reklama beruvchilarga ma'lum bir tarmoq, televizion dastur yoki kun davomida efirga uzatiladigan stavkalar uchun ("kunlik qism" deb nomlanadi). Ko'pgina mamlakatlarda, shu jumladan Qo'shma Shtatlarda televizion aksiya reklamalari a uchun ajralmas hisoblanadi siyosiy kampaniya. Boshqa mamlakatlarda, masalan Frantsiyada, televideniedagi siyosiy reklama juda cheklangan,^[200] kabi ba'zi mamlakatlar, masalan Norvegiya, siyosiy reklamalarni butunlay taqiqlash.

Birinchi rasmiy, pullik televizion reklama AQShda 1941 yil 1 iyulda Nyu-Yorkning WNBT (hozirda) stantsiyasi orqali efirga uzatilgan WNBC ) o'rtasidagi beysbol o'yini oldidan Bruklin Dodjers va Filadelfiya Filliz. Uchun e'lon Bulova soatlari, buning uchun kompaniya 4,00 dan 9,00 AQSh dollarigacha pul to'lagan (hisobotlar turlicha), qo'llar vaqtni ko'rsatadigan soatga o'xshash qilib o'zgartirilgan WNBT sinov namunasini namoyish etdi. Bulova logotipi, "Bulova tomosha qilish vaqti" iborasi bilan, sinov chizig'ining pastki o'ng kvadrantida, ikkinchi qo'l esa terish tugmachasi atrofida bir daqiqaga o'ralgan.^[201][202] Buyuk Britaniyada birinchi translyatsiya televizion reklamasi yoqilgan edi ITV 1955 yil 22 sentyabrda reklama Gibbs SR tish pastasi. Osiyoda birinchi translyatsiya qilingan televizion reklama yoqilgan edi Nippon televideniesi 1953 yil 28-avgustda Tokioda, reklama Seykosa (hozir Seiko ), shuningdek, soatni joriy vaqt bilan namoyish etdi.^[203]

Qo'shma Shtatlar

1941 yilda AQShda tashkil topganidan beri,^[204] televizion reklamalar ko'plab turdagi mahsulotlarni, ayniqsa iste'mol tovarlarini sotishning eng samarali, ishontiruvchi va ommalashgan usullaridan biriga aylandi. 1940-yillarda va 1950-yillarda dasturlar bitta reklama beruvchilar tomonidan o'tkazildi. Bu, o'z navbatida, katta ijodiy litsenziyani berdi reklama beruvchilar shou mazmuni haqida. Ehtimol tufayli viktorina shousi janjallari 1950-yillarda,^[205] tarmoqlar jurnal kontseptsiyasiga o'tib, bir nechta reklama beruvchilar bilan reklama tanaffuslarini joriy qildi.

AQSh reklama stavkalari asosan belgilanadi Nilsen reytinglari. Televizion reklamaning narxi qancha bo'lishini kunning vaqti va kanalning mashhurligi aniqlaydi. Masalan, juda ommabop bo'lgan tijorat vaqtining 30 soniyali blokirovkasi uchun taxminan 750 000 dollar turishi mumkin American Idol, uchun bir xil vaqt Super Bowl bir necha million dollarga tushishi mumkin. Aksincha, kamroq ko'rilgan vaqt oraliqlari, masalan, erta tongda va ish kunining ikkinchi yarmida, ko'pincha ishlab chiqaruvchilarga ommaviy ravishda sotiladi infomercials ancha past narxlarda. So'nggi yillarda pullik dastur yoki infomercial odatda 30 daqiqa yoki bir soat davom etadigan odatiy holga aylandi. Biroz giyohvand moddalar ishlab chiqaradigan kompaniyalar va boshqa korxonalar hattoki sohada ma'lum bo'lgan translyatsiya uchun "yangiliklarni" yaratdilar video yangiliklar, to'lash dastur direktorlari ulardan foydalanish.^[206]

Ba'zi televidenie dasturlari qasddan mahsulotlarini reklama sifatida namoyish etishadi, badiiy filmlarda boshlangan amaliyot^[207] va sifatida tanilgan mahsulotni joylashtirish. Masalan, belgi ma'lum bir sodali ichimlikni ichishi, boshqasiga borishi mumkin zanjirli restoran, yoki ma'lum bir markadagi mashinani haydash. (Bu ba'zan juda nozik bo'lib, evaziga evaziga ishlab chiqaruvchilar tomonidan arzon narxlardagi transport vositalariga ega bo'lgan namoyishlar mavjud mahsulotni joylashtirish ). Ba'zan, ma'lum bir tovar belgisi yoki savdo belgisi yoki ma'lum bir rassom yoki guruhning musiqasi ishlatiladi. (Bunda spektaklda ishtirok etadigan san'atkorlarning mehmonlar ishtiroki hisobga olinmaydi)

Birlashgan Qirollik

Televizion regulyator Buyuk Britaniyadagi televizion reklamalarni nazorat qiladi. Uning cheklovlari tijorat tomonidan moliyalashtiriladigan televizorning dastlabki kunlaridan boshlab amal qiladi. Shunga qaramay, erta telemagnat, Roy Tomson, translyatsiya litsenziyasini "pulni chop etish uchun litsenziya" ga o'xshatdi.^[208] Cheklovlar shuni anglatadiki, uchta yirik milliy tijorat telekanallari: ITV, 4-kanal va 5-kanal o'rtacha soatiga atigi etti daqiqa reklama ko'rsatishi mumkin (eng yuqori davrda sakkiz daqiqa). Boshqa teleradiokompaniyalar o'rtacha to'qqiz daqiqadan oshmasligi kerak (eng yuqori nuqtada o'n ikki). Bu shuni anglatadiki, AQShdan olib kelinadigan ko'plab teleko'rsatuvlar g'ayritabiiy pauzalarga ega, bu erda Buyuk Britaniya kompaniyasi AQShning tez-tez reklama qilish uchun mo'ljallangan bayonot tanaffuslaridan foydalanmaydi. Belgilangan muddat ichida yarim soatdan kam davom etadigan ma'lum bir taqiqlangan dastur turlarida reklama joylashtirilmasligi kerak; ushbu ro'yxat bolalar uchun har qanday yangiliklar yoki dolzarb dasturlar, hujjatli filmlar va dasturlarni o'z ichiga oladi; Bundan tashqari, reklama maktablarda yoki biron bir joyda qabul qilish uchun mo'ljallangan va efirga uzatiladigan dasturda olib borilishi mumkin emas diniy eshittirish xizmat yoki boshqa bag'ishlangan dastur yoki rasmiy qirollik marosimi yoki marosimi paytida. Dasturlar va reklamalar o'rtasida o'z vaqtida aniq chegaralar bo'lishi kerak. The BBC, qat'iyan notijorat, Buyuk Britaniyada televizorda reklama ko'rsatishga yo'l qo'yilmaydi, garchi u chet elda reklama tomonidan moliyalashtiriladigan ko'plab kanallarga ega bo'lsa. Uning byudjetining katta qismi mablag'lardan iborat televizion litsenziya to'lovlar (pastga qarang) va translyatsiya sindikatsiyasi, kontentni boshqa translyatorlarga sotish.

Irlandiya

Teleradiokompaniyalar reklamasi Irlandiyaning radioeshittirish ma'muriyati.^[209]

Obuna

Ba'zi telekanallar qisman moliyalashtiriladi obuna; shuning uchun signallar faqat to'laydigan abonentlar tomosha qilish uchun parol hal qilish kodlariga kirishini ta'minlash uchun eshittirish paytida shifrlanadi. pulli televizor yoki maxsus kanallar. Aksariyat obuna xizmatlari reklama orqali ham moliyalashtiriladi.

Soliq yoki litsenziya

Ba'zi mamlakatlarda televizion xizmatlar a tomonidan moliyalashtirilishi mumkin televizion litsenziya yoki soliq solish shakli, ya'ni reklama kamroq rol o'ynaydi yoki umuman yo'q. Masalan, ba'zi kanallarda umuman reklama bo'lmasligi mumkin, ba'zilari esa juda kam, shu jumladan:

• Avstraliya (ABC )
• Belgiya (RTBF )
• Daniya (DR )
• Irlandiya (RTÉ )
• Yaponiya (NHK )
• Norvegiya (NRK )
• Shvetsiya (SVT )
• Birlashgan Qirollik (BBC )
• Qo'shma Shtatlar (PBS )

The BBC yo'q televizion reklama Buyuk Britaniyadagi kanallarida va to'g'ridan-to'g'ri televizion eshittirishlarni olib boradigan binolar tomonidan to'lanadigan har yili televizion litsenziya bilan moliyalashtiriladi. Hozirgi vaqtda Buyuk Britaniyaning taxminan 26,8 million xususiy uy xo'jaliklarida televizorlar borligi taxmin qilinmoqda, 2010 yildan boshlab barcha binolarda taxminan 25 million televizion litsenziyalar mavjud.^[210] Ushbu televizion litsenziyaning to'lovi hukumat tomonidan belgilanadi, ammo Bi-bi-si hukumat oldida javobgar emas yoki nazorat qilinmaydi.

BBCning ikkita asosiy telekanallarini har hafta aholining deyarli 90% tomosha qiladi va umumiy tomosha qilinganlarning 27% ulushiga ega,^[211] 85% uylar ko'p kanalli bo'lishiga qaramay, ularning 42% sun'iy yo'ldosh orqali 200 ta havo kanallariga, 43% esa 30 va undan ortiq kanallarga kirish huquqiga ega. Freeview.^[212] Bi-bi-sining reklamasiz ettita telekanalini moliyalashtiradigan litsenziyaning egasi bo'lgan televizorlar sonidan qat'i nazar, 2018 yilga kelib yiliga 147 funt sterling (taxminan 200 AQSh dollari) turadi; faqat qora va oq televizor olinadigan bo'lsa, narx uchdan ikki qismga kamayadi.^[213] Xuddi shu sport musobaqasi Bi-bi-si va tijorat kanallarida namoyish etilganda, Bi-bi-si har doim sherning ulushini jalb qiladi tomoshabinlar, tomoshabinlar televizorni reklama bilan uzluksiz ko'rishni afzal ko'rishlarini ko'rsatmoqda.

Ichki reklama materiallaridan tashqari, Avstraliya teleradioeshittirish korporatsiyasi (ABC) reklama qilmaydi; ABC qonuni 1983 yilda taqiqlangan. ABC har uch yilda bir marta Avstraliya hukumatidan mablag 'oladi. 2014/15 yilgi federal byudjetda ABC 1,11 mlrd.^[214] Ushbu mablag'lar ABC televideniesi, radiosi, onlayn va xalqaro chiqishlarini ta'minlaydi. ABC shuningdek, Avstraliyadagi ko'plab ABC do'konlaridan mablag 'oladi. Avstraliya hukumati tomonidan moliyalashtirilsa-da, ABCning tahririyat mustaqilligi qonun orqali ta'minlanadi.

Frantsiyada hukumat tomonidan moliyalashtiriladigan kanallarda reklama mavjud, ammo televizor egalari har yili soliq to'lashlari kerak ("la redevance audiovisuelle").^[215]

Yaponiyada, NHK litsenziya to'lovlari bilan to'lanadi (yapon tilida qabul qilish to'lovi sifatida tanilgan (受 信 料, Jushinryō)). NHK mablag'larini tartibga soluvchi translyatsiya qonuni, NHK olish uchun jihozlangan har qanday televizor to'lashi shartligini belgilaydi. To'lov standartlashtirilgan bo'lib, ofis ishchilari va ish joyiga boradigan talabalar uchun chegirmalar hamda Okinava prefekturasi aholisi uchun umumiy chegirmalar mavjud.

Eshittirish dasturlari

Birlashgan Qirollikdagi translyatsiya dasturlari yoki televidenie ro'yxatlari - bu televizion dasturlarni jadval bo'yicha tashkil etish, yangi dastur uchun auditoriya yig'ish, ushbu auditoriyani saqlab qolish yoki raqobatdoshlar bilan raqobatlashish uchun muntazam ravishda televizion dasturlarning jadvallarini o'zgartirish uchun ishlatiladigan translyatsiyani avtomatlashtirish. boshqa translyatsiya dasturlari.

Ijtimoiy jihatlar

Amerikalik oila 1958 yilga kelib televizor tomosha qilmoqda

20 va 21 asrlar ijtimoiylashuvida televizor hal qiluvchi rol o'ynadi. Televizionning ko'plab jihatlari, shu jumladan salbiy muammolarni hal qilish mumkin ommaviy axborot vositalarida zo'ravonlik. Hozirgi tadqiqotlar shuni ko'rsatadiki, ijtimoiy yakkalanishdan aziyat chekayotgan shaxslar televizorda yolg'izlik va ijtimoiy mahrumlik tuyg'usini chetga surish vositasi sifatida o'zlarining sevimli televizion ko'rsatuvlari va filmlari qahramonlari bilan parazotsial yoki soxta munosabatlar deb atashlari mumkin.^[216] Bir nechta tadqiqotlar shuni aniqladi o'quv televizion juda ko'p afzalliklarga ega. "Televizor haqida yaxshi narsalar" maqolasi^[217] agar televizordan oqilona foydalanilsa, bolalar uchun juda kuchli va samarali ta'lim vositasi bo'lishi mumkin, deb ta'kidlaydi.

Qarama-qarshilik

Metodist .da nominallar konservativ muqaddaslik harakati kabi Allegheny Wesleyan metodistning aloqasi va Evangelist Wesleyan cherkovi, televizordan foydalanishni rad eting.^[218]

Salbiy ta'sir

Bolalar, ayniqsa 5 yoshdan kichik bo'lganlar, televizorlarning qulashi tufayli shikastlanish xavfi mavjud.^[219] A CRT uslubi Bolaga tushadigan televizor, og'irligi sababli, binolardan bir necha qavatlar tushishining teng kuchi bilan uriladi.^[220] Yangisi tekis ekran televizorlar "juda og'ir va poydevorlari tor", demak, kichkina bola uni osongina tortib olishi mumkin.^[221] 2015 yildan boshlab^[yangilash], AQShda bolalarga yiliga 10 000 dan ortiq jarohat etkazish uchun televizorni o'chirib tashlash aybdor edi, bu xarajat yiliga 8 million dollardan oshadi. shoshilinch tibbiy yordam.^[219][221]

2017 yilda o'tkazilgan tadqiqotlar Inson resurslari jurnali kabel televideniesi ta'sirida o'g'il bolalarning bilim qobiliyati va o'rta maktabni tugatish darajasi pasayganligi aniqlandi. Bu ko'proq ma'lumotli oilalarning o'g'illari uchun kuchliroq edi. Maqolada yengil televizion ko'ngil ochish ko'proq kognitiv jihatdan rag'batlantiruvchi tadbirlarni o'tkazadigan mexanizm taklif qilingan.^[222]

Yuqori qo'rg'oshin tarkibi bilan CRTlar va yangi tekis panelli displey texnologiyalarining tez tarqalishi, ularning ba'zilari (LCD-lar ) o'z ichiga olgan lampalardan foydalaning simob haqida tashvish kuchaymoqda elektron chiqindilar bekor qilingan televizorlardan. Bog'liq kasb salomatligi mis simlarini va boshqa materiallarni CRT-lardan olib tashlaydigan qismlarga nisbatan xavotirlar mavjud. Televizion dizayni va undan foydalanish bilan bog'liq ekologik muammolar qurilmalarning ko'payishi bilan bog'liq elektr energiyasi talablar.^[223]

Shuningdek qarang

Adabiyotlar

Qo'shimcha o'qish

• Abramson, Albert (2003). Televizion tarixi, 1942 yildan 2000 yilgacha. Jefferson, NC va London: McFarland. ISBN  978-0-7864-1220-4.CS1 maint: ref = harv (havola)
• Per Burdiu, Televizionda, Yangi matbuot, 2001 yil.
• Tim Bruks va Erl Mart, Prime Time Network va kabel televidenie dasturlari uchun to'liq qo'llanma, 8-nashr, Ballantin, 2002 yil.
• Jak Derrida va Bernard Stigler, Televizion ekografiyalari, Polity Press, 2002 yil.
• Devid E. Fisher va Marshall J. Fisher, Naycha: Televizion ixtiro, Counterpoint, Vashington, DC, 1996, ISBN  1-887178-17-1.
• Stiven Jonson, Hamma yomon narsa siz uchun foydalidir: bugungi ommaviy madaniyat bizni qanday qilib aqlli qiladi?, Nyu-York, Riverhead (Penguen), 2005, 2006, ISBN  1-59448-194-6.
• Leggett, Julian (1941 yil aprel). "Rangli televizor". Mashhur mexanika. Chikago. Olingan 7 dekabr 2014.
• Jerri Mander, Televizionni yo'q qilish uchun to'rtta dalil, Ko'p yillik, 1978 yil.
• Jerri Mander, Muqaddasning yo'qligida, Sierra Club Books, 1992 yil, ISBN  0-87156-509-9.
• Nil pochtachi, O'zimizni o'limgacha kulgili qilish: Shou-biznes davrida ommaviy nutq, Nyu-York, AQSh Pengueni, 1985, ISBN  0-670-80454-1.
• Evan I. Shvarts, Oxirgi yolg'iz ixtirochi: Dahiy, yolg'on va televizorning tug'ilishi haqidagi ertak, Nyu-York, Harper Paperbacks, 2003, ISBN  0-06-093559-6.
• Beretta E. Smit-Shomade, Soyali hayot: afro-amerikalik ayollar va televidenie, Rutgers universiteti matbuoti, 2002 yil.
• Alan Teylor, Biz, OAV: AQShning asosiy kino va televidenie yangiliklari translyatsiyasining ritorikasiga pedagogik aralashuvlar, Piter Lang, 2005 yil, ISBN  3-631-51852-8.
• Amanda D. Lotz, Televizion inqilob qilinadi, Nyu-York universiteti matbuoti, ISBN  978-0-8147-5220-3

Tashqi havolalar

• Televizor da Britannica entsiklopediyasi
• Teleradiokompaniyalar milliy assotsiatsiyasi
• Evropada tijorat televideniesi assotsiatsiyasi
• Televizion entsiklopediyasi da Broadcast Communications muzeyi
• Televizion tarixi - Birinchi 75 yil
• To'plam profili - Televizion da Kanada fan va texnologiyalar muzeyi
• Televizor evolyutsiyasi, Yaponiyada televizion texnologiyalarning qisqacha tarixi – NHK (Yaponiya teleradio korporatsiyasi)
• Butunjahon televizion standartlari
• Televizor da Curlie