tft display vs super amoled in hindi for sale

आपके स्मार्टफोन की डिस्प्ले के बारे में आप कितना जानते हैं? डिस्प्ले के नाम जैसे कि AMOLED, OLED, LCD, TFT के बारे में आप कितना विस्तार से जानते हैं? इनके नाम बहुत छोटे हैं, लेकिन इनमें से कौन-सा बेहतर है, किस रिफ्रेश रेट के साथ आता है, रेज़ॉल्यूशन कितना है इन सब सवालों को जानकर यदि आप अपने लिए स्मार्टफोन चुनना चाहते हैं तो आपके इन सभी प्रश्नों के उत्तर मिलेंगे यहाँ।

पिछले कुछ सालों में स्मार्टफोन की डिस्प्ले काफी बेहतर हुई हैं। लेकिन प्रत्येक स्मार्टफोन डिस्प्ले के साथ जो शार्ट-फॉर्म एक संक्षिप्त नाम जुड़ता है, जैसे कि AMOLED, LCD, इत्यादि वो केवल नाम नहीं बल्कि अपने आप में एक तकनीक है। स्मार्टफोन पर लगे पैनल AMOLED, OLED, LED, LCD, IPS, TFT, LTPS, इत्यादि होते हैं। ये सभी पूर्णत: अलग होते हैं।

पहले ही इतने टाइप के पैनल मौजूद हैं, ऐसे में स्मार्टफोन निर्माता द्वारा फैंसी नामों का इस्तेमाल जैसे कि Apple द्वारा Super Retina XDR और Samsung द्वारा Dynamic AMOLED ग्राहकों के बीच भ्रम या असमंजस को और बढ़ा देता है।

डिस्प्ले के टाइप तो बहुत सारे हैं जैसे कि TFT, LTPS, AMOLED, OLED, IPS, LCD इत्यादि। लेकिन इन दिनों TFT, LTPS जैसी डिस्प्ले काफी कम हो गयीं हैं। किफ़ायती दामों पर और मिड-रेंज में आने वाले फोनों में आपको IPS LCD डिस्प्ले मिलेगी। लेकिन इन सबका विस्तार से समझें, तो मतलब क्या है ?

अगर संक्षिप्त रूप से और आसान भाषा में समझें तो दो तरह की टेक्नोलॉजी- एलसीडी (LCD) और ओलेड (OLED) बाज़ार में आ रहीं हैं। प्रत्येक में कुछ विभिन्न प्रकार और जनरेशन हैं जो बाकी के स्क्रीन टाइप शार्ट फॉर्म को बनाती हैं। इसी तरह टेलीविज़न की दुनिया में भी अलग स्क्रीन टाइप उपलब्ध हैं जैसे कि LED, QLED, miniLED – ये सब दरसअल एलसीडी (LCD) तकनीक के ही अलग अलग रूप हैं जिनमें थोड़ी विविधताएं हैं।

LCD का मतलब या फुल फॉर्म है लिक्विड क्रिस्टल डिस्प्ले (Liquid Crystal Display)। इसमें लिक्विड क्रिस्टल्स की एक श्रंखला दी जाती है जिसके पीछे एक बैकलाइट होती है। इस डिस्प्ले टाइप का हर जगह आसानी से उपलब्ध होना और कम दामों में इसका निर्माण इसे स्मार्टफोनों के लिए एक प्रचलित विकल्प या पसंद बनाता है।

स्मार्टफोनों में आपको दोनों डिस्प्ले TFT और IPS मिलती हैं। TFT का फुल फॉर्म है – Thin Film Transistor, जो LCD का ही एक बेहतर या एडवांस्ड वर्ज़न है, जो एक एक्टिव मैट्रिक्स (active matrix) का इस्तेमाल करता है। active matrix का अर्थ है कि प्रत्येक पिक्सेल एक अलग ट्रांजिस्टर और कपैसिटर से जुड़ा होता है।

TFT डिस्प्ले का सबसे बड़ा फायदा यही है कि इसके प्रोडक्शन में तुलनात्मक कम खर्च होता है और इसमें असल LCD के मुकाबले ज्यादा कॉन्ट्रास्ट मिलता है। वहीं TFT LCD में नुकसान ये है कि इन्हें रेगुलर LCD प्रकारों के मुकबाले ज्यादा एनर्जी यानि बैटरी चाहिए, इनके व्यूिंग एंगल और रंग भी इतने अच्छे नहीं होते। इन्हीं सब कारणों से बाकी डिस्प्ले विकल्पों की गिरती कीमतों के कारण अब TFT डिस्प्ले का इस्तेमाल स्मार्टफोनों में नहीं किया जाता।

TFT(Thin Film Transistor) – ये भी LCD डिस्प्ले का ही एक प्रकार है जिसमें नीचे एक पतली सेमीकंडक्टर की परत होती है जो हर एक पिक्सल पर रंगों को नियंत्रित करने का काम करता है। इसका और AMOLED में आने वाले AM यानि कि active matrix का काम लगभग एक ही है।

LTPS(Low Temperature PolySilicon) – ये भी Si (amorphous silicon) तकनीक पर आधारित TFT का ही वैरिएंट है जिसमें आपको हाई रेज़ॉल्यूशन मिलता है और ऊर्जा यानि कि पॉवर साधारणत: TFT से कम लेता है।

IGZO(Indium Gallium Zinc Oxide) – ये भी एक सेमिकंडक्टर मैटेरियल है जो डिस्प्ले के नीचे लगी फिल्म में इस्तेमाल होता है और आजकल a semiconductor material used in TFT films, which also allows higher resolutions and lower power consumption, and sees action in different types of LCD screens (TN, IPS, VA) and OLED displays

LTPO( Low Temperature Polycrystaline Oxide) – इस टेक्नोलॉजी को Apple ने डेवेलप किया है और इसे वर्तमान समय में OLED और LCD दोनों तरह की स्क्रीन में इस्तेमाल किया जाता है। इसमें LTPS और IGZO दोनों तकनीकों का इस्तेमाल मिलाकर किया जाता है और नतीजा होता है – डिस्प्ले द्वारा पॉवर का कम इस्तेमाल। ये Apple Watch 4 और Galaxy S21 Ultra में आयी है।

IPS तकनीक को In-Plane Switching तकनीक कहते हैं। IPS टेक्नोलॉजी ने सबसे पहले आयी LCD डिस्प्ले में आने वाली समस्या को दूर किया जिसमें TN तकनीक का इस्तेमाल होता था और इसमें साइड से देखने पर रंग बहुत ख़राब नज़र आते थे। ये कमी ज़्यादातर सस्ते स्मार्टफोन और टैबलेटों में नज़र आया करती थी।

PLS (Plane to Line Switching) – PLS और IPS के नाम या उनके फुल फॉर्म लगभग एक ही जैसे लगते हैं। लेकिन इसमें आश्चर्य की कोई बात नहीं है क्योंकि इनका मुख्य कार्य भी एक समान ही है। PLS टेक्नोलॉजी को Samsung Display द्वारा बनाया गया है और IPS डिस्प्ले की ही तरह इसकी विशेषता भी डिस्प्ले पर अच्छे रंग दर्शाना और बेहतर व्यूइंग एंगल दिखाना ही हैं। लेकिन इसमें OLED और LCD/VA डिस्प्ले के मुकाबले कॉन्ट्रास्ट थोड़ा कम है।

Samsung Display का कहना है कि PLS पैनलों के उत्पादन में लागत कम लगती है, ब्राइटनेस लेवल अच्छा मिलता है और प्रतियोगी कंपनी LG Display के IPS पैनलों के मुकाबले व्यूइंग एंगल भी काफी अच्छे मिलते हैं। अंतत: PLS पैनल का उपयोग किया जाए या IPS पैनल का इस्तेमाल करें, ये पूरी तरह से स्मार्टफोन निर्माताओं पर निर्भर करता है।

AMOLED की फुल फॉर्म – एक्टिव मैट्रिक्स ऑर्गेनिक लाइट एमिटिंग डायोड (Active Matrix Organic Light-Emitting Diode) है। हालांकि ये सुनने में बहुत मुश्किल नाम लग रहा होगा, लेकिन ये है नहीं। हम पहले ही TFT LCD टेक्नोलॉजी में एक्टिव मैट्रिक्स के बारे में पढ़ चुके हैं और अब रहा OLED, तो ये केवल एक पतली फिल्म वाली डिस्प्ले तकनीक है और कुछ नहीं।

और क्योंकि OLED डिस्प्ले में काले पिक्सल बंद हो जाते हैं, उनमें करंट नहीं आता, इसीलिए कॉन्ट्रास्ट लेवल भी LCD डिस्प्ले के मुकाबले ज्यादा मिलता है। AMOLED डिस्प्ले में रिफ्रेश रेट तो ज़्यादा मिल जाता है, लेकिन वहीँ LCD डिस्प्ले को, AMOLED की तुलना में ज्यादा ब्राइट बनाया जा सकता है। क्योंकि ये एक ऑर्गेनिक मैटीरियल से बने होते हैं, एक लम्बे समय के इस्तेमाल के बाद इनकी ब्राइटनेस घटने लगती है जिससे कई बार स्क्रीन बर्न-इन जैसी समस्याएं भी आ सकती हैं। हालाँकि ये समस्या पुराने स्मार्टफोनों में ज्यादा आती थी, अब ऐसा ना के बराबर होता है।

वहीँ इसकी अच्छी बात ये है कि AMOLED डिस्प्ले LCD के मुकाबले पतली होती हैं क्योंकि इनमें अंदर बैकलिट की परत लगाने की ज़रुरत नहीं पड़ती और इन्हें फ्लेक्सिबल यानि कि लचीला भी बनाया जा सकता है।

OLED को- Organic Light Emitting Diode कहते हैं। एक OLED डिस्प्ले electroluminescent मैटीरियल की पतली शीट से बनी होती है, जिसका सबसे बड़ा फायदा यही है कि ये अपनी रौशनी खुद पैदा करते हैं और इन्हें बैकलाइट की ज़रुरत नहीं पड़ती, जिससे ऊर्जा या बिजली की ज़रुरत कम पड़ती है। यही OLED स्क्रीन जब स्मार्टफोन या टीवी के लिए उपयोग होती है तो इसे ज़्यादातर AMOLED डिस्प्ले के नाम से जाना जाता है।

जैसे कि हमने पहले भी बताया AMOLED में AM एक्टिव मैट्रिक्स (Active Matrix) के लिए इस्तेमाल होता है। हालाँकि ये पैसिव मैट्रिक्स (Passive Matrix) OLED से अलग होता है जिसे p-OLED कहा जाता है। ये स्मार्टफोनों में थोड़ा कम प्रचलित है।

वहीं Super AMOLED, दक्षिणी कोरियाई कंपनी Samsung द्वारा दिया गया है एक नाम है जो अब कंपनी के मिड-रेंज से प्रीमियम रेंज के स्मार्टफोनों में देखने को मिलता है। IPS LCD की ही तरह, Super AMOLED डिस्प्ले में साधारण AMOLED डिस्प्ले पर टच रिस्पांस लेयर को जोड़कर एक किया जाता है, इसमें अलग से एक परत नहीं लगाई जाती। और इसका नतीजा ये होता है कि Super AMOLED स्क्रीन सूरज की रौशनी या आउटडोर में AMOLED के मुकाबले बेहतर नज़र आती हैं और साथ ही ये पावर भी कम लेती हैं।

जैसे कि Samsung ने इस स्मार्टफोन डिस्प्ले टाइप का नाम -Super AMOLED रखा है। साधारण भाषा में ये AMOLED स्क्रीन का सुधार किया गया या कहें कि बेहतर वर्ज़न है। और ये केवल मार्केटिंग के लिए मारने वाली डींगें नहीं हैं, बल्कि कई उत्पादों की समीक्षा (review) करने बाद, तथ्य यही है कि Samsung की डिस्प्ले बाज़ार में सबसे उत्तम श्रेणी में आती हैं।

वहीँ इसकी तकनीक में किये गए सबसे नए विकास या सुधार को कंपनी ने Dynamic AMOLED का नाम दे दिया। . हालांकि Samsung ने इसके बारे में कभी विस्तार से नहीं बताया है लेकिन इतना साफ़ कर दिया है कि इस तरह की डिस्प्ले में HDR10+ सर्टिफिकेशन शामिल होता है जिसके साथ आपको स्क्रीन पर रंगों और कॉन्ट्रास्ट की एक वाइड रेंज मिलती है। साथ ही इसमें ब्लू लाइट कम होती जिससे ये डिस्प्ले आँखों के लिए ज्यादा आरामदायक हो।

ठीक इसी तरह OnePlus ने भी हाई-एंड स्मार्टफोनों के लिए नाम रखा है – Fluid AMOLED, जिसमें हाई रिफ्रेश रेट ही इसकी ख़ास बात है, इसमें कोई और अंतर नहीं होता। उदाहरण के लिए – डिस्प्ले अगर 120Hz रिफ्रेश रेट के साथ आएगी तो उसमें आपको और ज्यादा स्मूथ एनीमेशन मिलेगा।

पिक्सल डेंसिटी की बात करें तो, 2010 में iPhone 4 के लॉन्च के समय Apple का मुख्य आकर्षण यही था। इस स्मार्टफोन डिस्प्ले में कंपनी ने LCD डिस्प्ले का इस्तेमाल किया। इस LCD पैनल ((LED, TFT, और IPS) को हाई रेज़ॉल्यूशन (उस समय पर 960 X 640 पिक्सल्स) के साथ Retina Display का नाम दिया। इस फ़ोन में 3.5 इंच की डिस्प्ले थी।

उस समय पर Apple के मार्केटिंग डिपार्टमेंट ने Retina Display नाम इसलिए चुना क्योंकि कंपनी के अनुसार एक निश्चित दूरी से हमारी या किसी भी इंसान की आंखें अलग-अलग पिक्सल में फर्क नहीं कर पाती। iPhones के केस में, ये नाम तब इस्तेमाल होता था जब फ़ोन की डिस्प्ले पर 300 ppi (pixel per inch) से ज्यादा होती थी।

तब से, अन्य स्मार्टफोन बनाने वाली कंपनियों ने भी यही तरीका अपनाया और हाई रेज़ॉल्यूशन वाले पैनलों को अपनाना शुरू कर दिया। जबकि iPhone 12 Mini में 476 dpi और Sony Xperia 1 में 643 dpi मिलती है।

जब सबने हाई रेज़ॉल्यूशन के साथ डिस्प्ले लेना आरम्भ कर दिया, फिर Apple ने खुद को भीड़ में अलग करने के लिए अपने प्रीमियम स्मार्टफोनों में इस्तेमाल होने वाली OLED डिस्प्ले को “Super Retina” का नाम दे दिया। ये डिस्प्ले iPhone X और उसके बाद आने वाले फोनों में आयी है। ये डिस्प्ले हाई कॉन्ट्रास्ट रेट और डिस्प्ले पर रंगों की सटीकता के लिए जानी जाती है, और ऐसी ही स्क्रीन Samsung के S-सीरीज़ के स्मार्टफोनों में भी आप देख सकते हैं।

इसके बाद कंपनी ने iPhone 11 Pro के साथ डिस्प्ले का नया नाम भी लॉन्च किया – “Super Retina XDR”। इसमें भी वही OLED पैनल का उपयोग किया गया है, लेकिन इसे पैनल का निर्माण Samsung Display या LG Display द्वारा हुआ है। इसमें आपको 2,000,000:1 रेश्यो के साथ और भी बेहतर कॉन्ट्रास्ट लेवल और 1200 nits की ब्राइटनेस मिलते हैं और ये ख़ासकर HDR कंटेंट के लिए अनुकूल हैं।

वहीं iPhone XR और iPhone 11 के ग्राहकों को भी खुश रखने के लिए कंपनी ने इनमें आने वाले LCD पैनल को “Liquid Retina” का नाम दे दिया। बाद में यही डिस्प्ले कंपनी स्टैण्डर्ड के अनुसार बेहतर रेज़ॉल्यूशन और सही रंगों के साथ iPad Pro और iPad Air मॉडल में भी आया।

अंतरराष्ट्रीय प्रणाली या सिस्टम में Nit या कैंडेला प्रति वर्ग मीटर (candela per square meter), जलने या निकलने वाली रौशनी की तीव्रता या गहनता (intensity) को मापने की यूनिट है। अधिकतर स्मार्टफोन, टैबलेट, मॉनिटर के बारे में जब हम बात करते हैं तो ये यूनिट बताती है कि डिस्प्ले कितना ब्राइट है। इसकी वैल्यू जितनी ज्यादा होगा, डिस्प्ले पर पिछले से पड़ने वाली रौशनी की तीव्रता भी उतनी ही ज्यादा होगी।

टेलीविज़न की दुनिया में, miniLED के बारे में हम जान चुके हैं और ये फ़ीचर या तकनीक टीवी में हम देखते ही आ रहे हैं। इसमें बैकलाइट में लाइटिंग ज़ोन का नंबर बढ़ा दिया जाता है। लेकिन अब अफवाहों और कई ख़बरों के अनुसार स्मार्टफोनों और स्मार्टवॉच में भी कंपनियां microLED टेक्नोलॉजी जल्दी ही लेकर आ सकती हैं। ये टेक्नोलॉजी या पैनल LCD/LED से काफी अलग है क्योंकि ये OLED डिस्प्ले की तरह ही बारीकियों के साथ अच्छी पिक्चर क्वॉलिटी देती है।

microLED डिस्प्ले में हर एक सब-पिक्सल में एक अलग रौशनी देने वाला डायोड होता है – अधिकतर ये एक लाल, हरे और नीले डायोड का एक सेट होता है जो एक डॉट के लिए होता है । माना जा रहा है कि microLED में इस बार किसी तरह की अजैविक (inorganic) मैटेरियल का इस्तेमाल होगा जैसे कि gallium nitride (GaN)।

खुद अपनी रौशनी छोड़ने वाला पिक्सल यानि कि self-emitting light जैसी तकनीक अपनाने के साथ, microLED डिस्प्ले में भी बैकलाइट की ज़रूरत नहीं होती। इसमें भी आपको OLED जैसे ही हाई कॉन्ट्रास्ट के साथ पिक्चर देखने को मिलेंगी और साथ ही इसमें ऑर्गेनिक डायोड की तरह स्क्रीन बर्न-इन जैसी समस्याओं का डर भी नहीं है।

साथ ही दूसरी चुनौती ये है कि इनकी कीमत भी काफी ज्यादा होती है। उदाहरण के लिए – Samsung की microLED TVs (146 इंच से 292 इंच) की कीमत 3.5 करोड़ से 12 करोड़ है, जो कि बहुत ही ज़्यादा है।

जैसे कि हमने पहले भी कहा, OLED या AMOLED डिस्प्ले में सबसे बड़ा फ़ायदा है कि हर पिक्सल खुद को रौशनी देने का कार्य संभालता है और इससे कंट्रास्ट लेवल बढ़ता है। साथ ही दूसरा फ़ायदा है ज़्यादा और सटीक काला रंग, जो कि डिस्प्ले पर देखते समय अच्छी पिक्चर क्वालिटी के लिए बेहद महत्वपूर्ण है। साथ ही जिस समय स्क्रीन कोई गहरे (डार्क) रंग की तस्वीर दिखाती है तो ये ये ऊर्जा भी कम लेते हैं।

वहीँ इनकी ख़ामियों की बात करें तो, इनको बनाने में काफी ज़्यादा लागत लगती है और कॉम्पोनेन्ट की पूर्ती करने वाली कंपनियां भी सीमित ही हैं। इनमें Samsung Display, LG Display और तीसरे नंबर पर चीन की इलेक्ट्रॉनिक्स कंपनी BOE और कुछ एक जो OLED की मांग को पूरा करते हैं। जबकि LCD पैनल बनाने वाली काफी कम्पनियां हैं।

इसके अलावा एक और बात जो हम यहां जोड़ना चाहते हैं, समय के साथ OLED स्क्रीन के ऑर्गेनिक डायोड अपनी चमक या कहें कि योग्यता खो देते हैं और ये तब होता है जब एक ही तस्वीर ज्यादा समय तक डिस्प्ले होती है। इसे कपनियां “burn-in” का नाम देती हैं।

Thanks for the display technology development, we have a lot of display choices for our smartphones, media players, TVs, laptops, tablets, digital cameras, and other such gadgets. The most display technologies we hear are LCD, TFT, OLED, LED, QLED, QNED, MicroLED, Mini LED etc. The following, we will focus on two of the most popular display technologies in the market: TFT Displays and Super AMOLED Displays.

TFT means Thin-Film Transistor. TFT is the variant of Liquid Crystal Displays (LCDs). There are several types of TFT displays: TN (Twisted Nematic) based TFT display, IPS (In-Plane Switching) displays. As the former can’t compete with Super AMOLED in display quality, we will mainly focus on using IPS TFT displays.

OLED means Organic Light-Emitting Diode. There are also several types of OLED, PMOLED (Passive Matrix Organic Light-Emitting Diode) and AMOLED (Active Matrix Organic Light-Emitting Diode). It is the same reason that PMOLED can’t compete with IPS TFT displays. We pick the best in OLED displays: Super AMOLED to compete with the LCD best: IPS TFT Display.

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Over time, the purpose of using mobile phones or Smartphones has changed. Comparatively, it has now become a basic necessity of every individual. Smartphone has dramatically transformed the lives of individuals. It has now become a mini-computer that everyone carries in their pocket. Instead, you can have multiple things at your fingertips in a few seconds. While there are plenty of things to look for, AMOLED vs OLED is also a part of it.

Before purchasing any Smartphone, everyone goes through a list of specifications. This list includes display type, screen size, battery backup, supported operating system, total internal memory, and many others. Today, we have brought a comprehensive study of the significant display technologies available nowadays.

This article will introduce you to AMOLED vs OLED display technologies. Then, we will discuss the properties of both display technologies, followed by the difference between AMOLED vs OLED.

It stands for Natural Light-Emitting Diode, a type of LED technique that utilises LEDs wherein the light is of organic molecules that cause the LEDs to shine brighter. These organic LEDs are in use to make what are thought to be the best display panels in the world.

When you make an OLED display, you put organic films among two conductors to make them. As a result, a bright light comes out when electricity is used—a simple design with many advantages over other ways to show things.

OLEDs can be used to make emissive displays, which implies that each pixel can be controlled and emits its very own light. As a result, OLED displays have excellent picture quality. They have bright colours, fast motion, and most importantly, very high contrast. Most of all, “real” blacks are the most important.  The simple design of OLEDs also makes it easy to create flexible displays that can bend and move.

PMOLED stands for Passive Matrix Organic Light Emitting Diode. The PMOLEDs are easy to find and much cheaper than other LEDs, but they cannot work for a long duration as their lifespan is very short. Therefore, this type of display is generally for small devices up to 3 inches.

AMOLED stands for Active Matrix Organic Light Emitting Diode. This type of display is generally for large platforms. It contains TFT, which further consists of a storage capacitor. It also works on the same principle as OLED displays.

AMOLED offers no restriction on the size of the display. The power consumption of AMOLED is much less than other display technologies. The AMOLED provides incredible performance. It is thinner, lighter, and more flexible than any other display technology like LED, or LCD technology.

The AMOLED display is widely used in mobiles, laptops, and televisions as it offers excellent performance. Therefore, SAMSUNG has introduced AMOLED displays in almost every product. For example, Full HD Super AMOLED in Samsung Galaxy S4 and Samsung Galaxy Note 3, Super AMOLED in Samsung Galaxy S3, HD Super AMOLED in Samsung Galaxy Note, and HD Super AMOLED Plus in Samsung Galaxy S3. Apart from this, it is also used in AMOLED vs OLED creating the following:

So far, we have discussed OLED and AMOLED display technologies. Now, we will look at some of the differences between OLED and AMOLED display technology:

OLED comprises thin layers of the organic component, which emits light when the current passes through it. In this technology, each pixel transmits its own light. On the other side, AMOLED consists of an additional layer of thin-film transistors (TFTs). In AMOLED, the storage capacitors are used to maintain the pixel states.

While the technology is different among various manufacturers, Samsung’s edge AMOLED displays use plastic substrates with poly-Si TFT technology similar to how LG uses it in their POLED technology. This technology is what makes the possibility to build curved displays using an active-matrix OLED panel.

OLED display much deeper blacks as compared to the AMOLED displays. You cannot see the screen in AMOLED display under direct sunlight. The AMOLED display quality is much better than the OLEDs as it contains an additional layer of TFTs and follows backplane technologies.

The OLED devices are simple solid-state devices consisting of a thin layer of organic compounds in an emissive electroluminescent layer where the electricity generates.

These organic compounds are present between the protective layers of glass or plastic. Comparatively, AMOLED comprises an active matrix of OLED pixels along with an additional layer of TFTs. This extra layer is responsible for controlling the current flow in each pixel.

The OLED display offers a high level of control over pixels. Hence, it can be turned off completely, resulting in an excellent contrast ratio compared to the AMOLED displays and less power consumption. On the other side, AMOLED has faster refresh rates than OLEDs. Also, they offer a tremendous artificial contrast ratio as each pixel transmits light but consumes more power than OLEDs.

OLED displays are comparatively much thinner compared to the LCDs. Hence, it provides more efficient and bright presentations. In addition, OLED offers support for large display sizes compared to the traditional LCDs. AMOLEDs remove the limitation of display sizes. one can fit it into any display size.

Putting all the points mentioned above in view, the key difference to understand appropriately is that POLED is an OLED display with a plastic substrate. On the other hand, AMOLED is Samsung’s word for its display technology which is mainly for marketing. Therefore, most phone manufacturers having AMOLED displays mean that they are using Samsung displays. It is as simple as that. To add to that, all the curved display technology is made possible because of the usage of plastic substrate.

So, based on the points mentioned above, the difference between OLED and AMOLED displays, you can choose any of the two display technology at your convenience. Both are good, offer excellent performance, and are customised according to your requirements.

The AMOLED display has a higher quality than OLEDs since it has an additional layer of TTs and uses backplane technologies. When compared to OLED screens, AMOLED displays are far more flexible. As a result, they are substantially more expensive than an OLED display.

Window to the digital world, the display is one of the first seen features when selecting a smartphone, so a show must be good, and an AMOLED display offers the same. Offering a great viewing experience, here are the top 3 AMOLED screen smartphones available in the market right now:

Realme 8 Pro features a 6.4-inch Super AMOLED display with 411 PPI and a 2.5D curved display. It runs on Snapdragon 720G, bundled with Adreno 618 and 6GB of RAM. On the rear, the Realme 8 Pro has a quad-camera setup with 108-megapixels primary sensor, 8-megapixel ultra-wide angle sensor, 2-megapixel macro sensor, and a 2-megapixel monochrome sensor.

Coming to the front, it has a 16-megapixel selfie camera housed in the punch-hole display. It comes with a 4,500 mAh battery that supports Super Dart fast charging, with 100 per cent coming in just 47 min. The Realme 8 Pro is one of the best segments with a Super AMOLED FHD+ display. Media lovers will enjoy this phone with its deep blacks and vibrant colours.

The Xiaomi Mi 11 Lite runs on Snapdragon 732G chipset bundled with Adreno 618 GPU and up to 8GB RAM. The display front comes with a 6.55-inch AMOLED display with HDR 10+ support and 402 PPI.

The cameras have a triple rear camera setup with a 64-megapixel primary sensor, 8-megapixel ultra-wide angle sensor, and a 5-megapixel macro sensor. In addition, it has a 16-megapixel selfie camera housed in the punch-hole display on the front. It has a 4,250 mAh battery with 33W fast charging with USB Type-C. With the support for HDR 10+, the AMOLED display on the Mi 11 Lite is a treat for all media enthusiasts.

OPPO has recently launched the Oppo Reno 6 Pro with MediaTek’s Density 1200 chipset coupled with Mali-G77 MC9 GPU and up to 12GB of RAM. In addition, it comes with a 6.55-inch curved AMOLED FHD+ display with support for HDR 10+ and an Oleophobic coating.

On the rear, it comes with a quad-camera setup with a 64-megapixel primary sensor, an 8MP ultra-wide angle sensor, a 2-megapixel macro sensor, and a 2-megapixel depth sensor. In addition, it has a 32-megapixel selfie camera integrated inside the punch-hole on display on the front. It comes with a 4,500 mAh battery that supports 65W Super VOOC fast charging and can charge the phone 100 per cent in just 31 minutes. Since it comes with an FHD+ curved AMOLED display on the display front, it is a treat for gamers and media consumption lovers.

Smartphone displays have advanced significantly in recent years, more so than most people realise in this technological age. Display screens are similar to windows in the mobile world, which has seen a tremendous transformation in innovative products in the last several years. People have gotten more selective when buying a phone in recent years, and although all of the functions are important, the display is always the most noticeable.

Major smartphone manufacturers attempt to provide their consumers with the most delicate devices possible that incorporate the most up-to-date technologies. In AMOLED vs OLED, AMOLED is a type of OLED and a more prominent example of both OLED and POLED, so there’s no debate about which is superior.

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The world of smartphones has been busy for the past few months. There have been numerous revolutionary launches with groundbreaking innovations that have the capacity to change the course of the smartphone industry. But the most important attribute of a smartphone is the display, which has been the focus for all prominent players in the mobile phone industry this year.

Samsung came up with its unique 18:5:9 AMOLED display for the Galaxy S8. LG picked up its old trusted IPS LCD unit for the G6’s display. These display units have been familiar to the usual Indian smartphone buyer. Honor, on the other hand, has just unveiled the new Honor 8 Pro for the Indian market that ships with an LTPS LCD display. This has led to wonder how exactly is this technology different from the existing ones and what benefits does it give Honor to craft its flagship smartphone with. Well, let’s find out.

The LCD technology brought in the era of thin displays to screens, making the smartphone possible in the current world. LCD displays are power efficient and work on the principle of blocking light. The liquid crystal in the display unit uses some kind of a backlight, generally a LED backlight or a reflector, to make the picture visible to the viewer. There are two kinds of LCD units – passive matrix LCD that requires more power and the superior active matrix LCD unit, known to people as Thin Film Transistor (TFT) that draws less power.

The early LCD technology couldn’t maintain the colour for wide angle viewing, which led to the development of the In-Plane Switching (IPS) LCD panel. IPS panel arranges and switches the orientation of the liquid crystal molecules of standard LCD display between the glass substrates. This helps it to enhance viewing angles and improve colour reproduction as well. IPS LCD technology is responsible for accelerating the growth of the smartphone market and is the go-to display technology for prominent manufacturers.

The standard LCD display uses amorphous Silicon as the liquid for the display unit as it can be assembled into complex high-current driver circuits. This though restricts the display resolution and adds to overall device temperatures. Therefore, development of the technology led to replacing the amorphous Silicon with Polycrystalline Silicon, which boosted the screen resolution and maintains low temperatures. The larger and more uniform grains of polysilicon allow faster electron movement, resulting in higher resolution and higher refresh rates. It also was found to be cheaper to manufacture due to lower cost of certain key substrates. Therefore, the Low-Temperature PolySilicon (LTPS) LCD screen helps provide larger pixel densities, lower power consumption that standard LCD and controlled temperature ranges.

The AMOLED display technology is in a completely different league. It doesn’t bother with any liquid mechanism or complex grid structures. The panel uses an array of tiny LEDs placed on TFT modules. These LEDs have an organic construction that directly emits light and minimises its loss by eradicating certain filters. Since LEDs are physically different units, they can be asked to switch on and off as per the requirement of the display to form a picture. This is known as the Active Matrix system. Hence, an Active Matrix Organic Light Emitting Diode (AMOLED) display can produce deeper blacks by switching off individual LED pixels, resulting in high contrast pictures.

The honest answer is that it depends on the requirement of the user. If you want accurate colours from your display while wanting it to retain its vibrancy for a longer period of time, then any of the two LCD screens are the ideal choice. LTPS LCD display can provide higher picture resolution but deteriorates faster than standard IPS LCD display over time.

An AMOLED display will provide high contrast pictures any time but it too has the tendency to deteriorate faster than LCD panels. Therefore, if you are after greater picture quality, choose LTPS LCD or else settle for AMOLED for a vivid contrast picture experience.

AMOLED (active-matrix organic light-emitting diode, OLED display device technology. OLED describes a specific type of thin-film-display technology in which organic compounds form the electroluminescent material, and active matrix refers to the technology behind the addressing of pixels.

An AMOLED display consists of an active matrix of OLED pixels generating light (luminescence) upon electrical activation that have been deposited or integrated onto a thin-film transistor (TFT) array, which functions as a series of switches to control the current flowing to each individual pixel.

Typically, this continuous current flow is controlled by at least two TFTs at each pixel (to trigger the luminescence), with one TFT to start and stop the charging of a storage capacitor and the second to provide a voltage source at the level needed to create a constant current to the pixel, thereby eliminating the need for the very high currents required for passive-matrix OLED operation.

TFT backplane technology is crucial in the fabrication of AMOLED displays. In AMOLEDs, the two primary TFT backplane technologies, polycrystalline silicon (poly-Si) and amorphous silicon (a-Si), are currently used offering the potential for directly fabricating the active-matrix backplanes at low temperatures (below 150 °C) onto flexible plastic substrates for producing flexible AMOLED displays.

AMOLED was developed in 2006. Samsung SDI was one of the main investors in the technology, and many other display companies were also developing it. One of the earliest consumer electronics products with an AMOLED display was the BenQ-Siemens S88 mobile handsetiriver Clix 2 portable media player.Nokia N85 followed by the Samsung i7110 - both Nokia and Samsung Electronics were early adopters of this technology on their smartphones.

Manufacturers have developed in-cell touch panels, integrating the production of capacitive sensor arrays in the AMOLED module fabrication process. In-cell sensor AMOLED fabricators include AU Optronics and Samsung. Samsung has marketed its version of this technology as "Super AMOLED". Researchers at DuPont used computational fluid dynamics (CFD) software to optimize coating processes for a new solution-coated AMOLED display technology that is competitive in cost and performance with existing chemical vapor deposition (CVD) technology. Using custom modeling and analytic approaches, Samsung has developed short and long-range film-thickness control and uniformity that is commercially viable at large glass sizes.

The amount of power the display consumes varies significantly depending on the color and brightness shown. As an example, one old QVGA OLED display consumes 0.3 watts while showing white text on a black background, but more than 0.7 watts showing black text on a white background, while an LCD may consume only a constant 0.35 watts regardless of what is being shown on screen.

AMOLED displays may be difficult to view in direct sunlight compared with LCDs because of their reduced maximum brightness.Super AMOLED technology addresses this issue by reducing the size of gaps between layers of the screen.PenTile technology is often used for a higher resolution display while requiring fewer subpixels than needed otherwise, sometimes resulting in a display less sharp and more grainy than a non-PenTile display with the same resolution.

The organic materials used in AMOLED displays are very prone to degradation over a relatively short period of time, resulting in color shifts as one color fades faster than another, image persistence, or burn-in.

As of 2010, demand for AMOLED screens was high and, due to supply shortages of the Samsung-produced displays, certain models of HTC smartphones were changed to use next-generation LCD displays from the Samsung-Sony joint-venture SLCD in the future.

Flagship smartphones sold in 2020 and 2021 used either a Super AMOLED. Super AMOLED displays, such as the one on the Samsung Galaxy S21+ / S21 Ultra and Samsung Galaxy Note 20 Ultra have often been compared to IPS LCDs, found in phones such as the Xiaomi Mi 10T, Huawei Nova 5T, and Samsung Galaxy A20e.ABI Research, the AMOLED display found in the Motorola Moto X draws just 92 mA during bright conditions and 68 mA while dim.

"Super AMOLED" is a marketing term created by Samsung for an AMOLED display with an integrated touch screen digitizer: the layer that detects touch is integrated into the display, rather than overlaid on top of it and cannot be separated from the display itself. The display technology itself is not improved. According to Samsung, Super AMOLED reflects one-fifth as much sunlight as the first generation AMOLED.One Glass Solution (OGS).

Future displays exhibited from 2011 to 2013 by Samsung have shown flexible, 3D, transparent Super AMOLED Plus displays using very high resolutions and in varying sizes for phones. These unreleased prototypes use a polymer as a substrate removing the need for glass cover, a metal backing, and touch matrix, combining them into one integrated layer.

Also planned for the future are 3D stereoscopic displays that use eye-tracking (via stereoscopic front-facing cameras) to provide full resolution 3D visuals.

Lee, Hyunkoo; Park, Insun; Kwak, Jeonghun; Yoon, Do Y.; Kallmann, Changhee Lee (2010). "Improvement of electron injection in inverted bottom-emission blue phosphorescent organic light emitting diodes using zinc oxide nanoparticles". Applied Physics Letters. 96 (15): 153306. Bibcode:2010ApPhL..96o3306L. doi:10.1063/1.3400224.

Kim, Yang Wan; Kwak, Won Kyu; Lee, Jae Yong; Choi, Wong Sik; Lee, Ki Yong; Kim, Sung Chul; Yoo, Eui Jin (2009). "40 Inch FHD AM-OLED Display with IR Drop Compensation Pixel Circuit". SID Symposium Digest of Technical Papers. 40: 85. doi:10.1889/1.3256930. S2CID 110871831.

Lee, Myung Ho; Seop, Song Myoung; Kim, Jong Soo; Hwang, Jung Ho; Shin, Hye Jin; Cho, Sang Kyun; Min, Kyoung Wook; Kwak, Won Kyu; Jung, Sun I; Kim, Chang Soo; Choi, Woong Sik; Kim, Sung Cheol; Yoo, Eu Jin (2009). "Development of 31-Inch Full-HD AMOLED TV Using LTPS-TFT and RGB FMM". SID Symposium Digest of Technical Papers. 40: 802. doi:10.1889/1.3256911. S2CID 110948118.

Hamer, John W.; Arnold, Andrew D.; Boroson, Michael L.; Itoh, Masahiro; Hatwar, Tukaram K.; Helber, Margaret J.; Miwa, Koichi; Levey, Charles I.; Long, Michael; Ludwicki, John E.; Scheirer, David C.; Spindler, Jeffrey P.; Van Slyke, Steven A. (2008). "System design for a wide-color-gamut TV-sized AMOLED display". Journal of the Society for Information Display. 16: 3. doi:10.1889/1.2835033. S2CID 62669850.

Lin, Chih-Lung; Chen, Yung-Chih (2007). "A Novel LTPS-TFT Pixel Circuit Compensating for TFT Threshold-Voltage Shift and OLED Degradation for AMOLED". IEEE Electron Device Letters. 28 (2): 129. Bibcode:2007IEDL...28..129L. doi:10.1109/LED.2006.889523. S2CID 11194344.

Sarma, Kalluri R.; Chanley, Charles; Dodd, Sonia R.; Roush, Jared; Schmidt, John; Srdanov, Gordana; Stevenson, Matthew; Wessel, Ralf; Innocenzo, Jeffrey; Yu, Gang; O"Regan, Marie B.; MacDonald, W. A.; Eveson, R.; Long, Ke; Gleskova, Helena; Wagner, Sigurd; Sturm, James C. (2003). "Active-matrix OLED using 150°C a-Si TFT backplane built on flexible plastic substrate (Proceedings Paper)". SPIE Proceedings. 5080: 180. doi:10.1117/12.497638. S2CID 12958469. "Archived copy" (PDF). Archived from the original (PDF) on 28 June 2011. Retrieved 2010-09-06.link)

Reid Chesterfield, Andrew Johnson, Charlie Lang, Matthew Stainer, and Jonathan Ziebarth, "Solution-Coating Technology for AMOLED Displays Archived 16 May 2011 at the Wayback Machine", Information Display Magazine, January 2011.

Dong, Mian; Choi, Yung-Seok Kevin; Zhong, Lin (2009). "Power modeling of graphical user interfaces on OLED displays". Proceedings of the 46th Annual Design Automation Conference on ZZZ - DAC "09. p. 652. doi:10.1145/1629911.1630084. ISBN 9781605584973. S2CID 442526.

"AMOLED vs LCD: differences explained". Android Authority. 8 February 2016. Archived from the original on 27 December 2016. Retrieved 6 February 2017.

Tim Carmody (10 November 2010). "How Super AMOLED displays work". Wired. Wired.com. Archived from the original on 28 September 2012. Retrieved 10 October 2012.

Ashtiani, Shahin J.; Reza Chaji, G.; Nathan, Arokia (2007). "AMOLED Pixel Circuit With Electronic Compensation of Luminance Degradation". Journal of Display Technology. 38 (1): 36. Bibcode:2007JDisT...3...36A. doi:10.1109/JDT.2006.890711. S2CID 44204246.

"AMOLED vs LCD: Which screen is best for your phone?". digitaltrends.com. 29 August 2014. Archived from the original on 29 March 2018. Retrieved 6 May 2018.

Kelly, Gordon. "Samsung Report "Confirms" Significant Galaxy S9 Design Changes". forbes.com. Archived from the original on 1 April 2018. Retrieved 6 May 2018.

AnonD-628531, 06 Aug 2017Surely if you"re not voting for: "Only quality matters" then you"re just shamelessly fanboying???No, because life expectancy is important too. Sony quantum dot displays are supposed to last around 20 000 hours, AMOLEDS may be degrading after just a couple of thousand. A small improvement in black level seems a poor tradeoff for a short product life.

My opinion is as follow: I use Nokia since years, and the hi-end phones all have AMOLED screens. I am used to AMOLED by now and the panels on Nokia phones are of amazing quality. I also have an iPhone 6 with LCD, which is a very good display. Good colors, good saturation en good contrast for an LCD panel. Now which I prefer, that is difficult to say. I believe the iPhone"s display is from Sharp, I am not sure. And it"s a great display. The Nokia Lumia 930 has an amazing display as well and it is a must when using Windows due to the blacks. I like both. At this time I would say it"s a tie in my opinion, but I slighty prefer AMOLED since I"m used to it.

Amoled Is Better......But IPS Display Also Good............ I Have Have Lumia 640 Which Have IPS Display Looks Great Clear Clearity It"s Also Consume Less Power N Black Wallpapers Also Help For Battery....... Amoled Display Best Display Is All Rounder Which I Saw In Samsung Galaxy Series N After That Some Chinese Companies Models Like Lenovo P2........ Anyday I Will Go For Amoled or IPS But TFT Displays No Way :)

Their screen is just slightly worse than LG, but their speakers are better. So no big differences, but the it costs 30% more which isn"t worth it, and the design of it is really unusual and it lays back in an awkward angle, which isn"t for everybody.

I prefer Ips LCD. More comfortable for reading websites and natural colors, more detail, more reliable. I don"t like the background always black color like a black hole, therefore I always set my background with white colors I call it heaven feels, if so oled will comsume more battery.

I wonder how the world which criticised AMOLED screens for highly saturated inaccurate colors now started to love it. That all has been made possible by Samsung only. OnePlus 3T or Nexus 6, for example, have awful displays. Samsung"s SuperAMOLED has been tremendously improved.

NOTE: Just to clear confusion among many of you, AMOLED is not a Samsung Brand or technology. It is a type of screen. Samsung"s variation of AMOLED is SuperAMOLED. P-OLED is a type of screen. It is not a LG Brand. All the votes to AMOLED is because of Samsung though, as AMOLED by others are over saturated, inaccurate and have low brightness, something which Samsung struggled from in initial days (or years?).

regs, 06 Aug 2017That"s just IPS. Yet Sharp"s IPS one is far better.You"re wrong, Sony"s Triluminous displays use Quantum Dot screens (or let"s say "Q-led" as Samsung is naming it), it"s not just a plain IPS LCD.

XtremE16, 06 Aug 2017Amoled display is not show true color and over brightness... Useless display..... Wait for SON... moreSony doesn"t produce displays they buy them from sharp and LG

AnonD-678801, 06 Aug 2017Sony"s Triluminos Display is the best for me... tried AMOLEDs but I Dont like oversaturated co... more"trilominous" is an LCD lol nothing special about it it"s the same one apple uses and calls it retina

I use A7 2016 1 and half year not seeing burn in issue.It wasn"t my screen... since I have been using Sony devices... however my mom"s Samsung had a S4 Mini and its display had burns after 2 years of use, (now she has an S7 Active, lets see how long it last)... my aunt has an S6 and its display burned after just 1 year... and I have seen many others...

It is more noticeable on devices from users that never turn on Screen Rotation and tend to use a lot of one app... in my family"s case Whatsapp, Keyboard and Notification Bar is the culprit.

I understand why people prefer AMOLED, they do look vibrant, with true blacks, and potentially better battery management, however I have no complains with current offerings from Sony, and even less complains from my Surface Book which has one of the best LCD displays I"ve ever seen...

IME the problem with AMOLED lies in their Diamond Pentile matrix. Not to undermine others but I never see AMOLED phones that have screen burn-in. At least on my phone, my dad"s and my mom"s. If Samsung could rearrange the matrix to equal RGB I think the image could"ve look as sharp as LCD at the same screen size and resolution.

But I"ll go with the last option though. As long as the screen has wide viewing angle, deep blacks, great contrast & sunlight legibility, decent PPI & color accuracy, and suitable for night reading then I"m happy. Quality first, tech specs later.

Right now , AMOLED all the way , it colours are way better , or saturated & excellent viewing indoors or outdoors .I have IPS LCD screens with 1500 + viewing angle screen ( Excellent for IPS standard ) , but still AMOLED beats it by miles.

BurnIn or rather Colour Loss issue exists for AMOLED over 2 - 3 years of usage , but who uses mobile over 5 years , by which time battery is reduced or 4g goes to 5g.

Quality Quantum Dot or as said MicoLED is future but is still not mature enough , will need 5 - 7 years of research & improvement to near match OLED standard , till then AMOLED will rule upcoming LG , Iphone , Samsung phones ,

Yes ,Sony IPS LCD Triluminos are the best in LCD , but unfortunately they dropped on new tech like 4 RGBW combination as in Xperia P ( Which had excellent outdoor visibility ) ,still its 4K Triluminos is excellent & if Sony goes for OLED with Triluminos it will kill Samsung OLED for sure. I assume Quantum Dot of Sony Mobile will be best in future.

regs, 06 Aug 2017AMOLEDs have poor viewing angles - significant color shift even on little angles. Haven"t seen... moreAMOLEDs have poor viewing angles? Really? I haven"t used that many phones over the years but I used Nokia E7 for a couple of years when it came out. It had an AMOLED screen with Nokia"s ClearBlack technology and the screen was simply stunning. If I remember correctly there wasn"t practically any color shift when you angled the screen. You could angle the phone so that the screen would be just a tiny sliver and the brightness and the colors would pretty much stay the same.

I remember being gutted after moving to Moto G which has an IPS display. There"s a huge shift in brightness when you angle the screen even a little bit, and this obviously affects the colors as well, although obviously things aren"t as terrible as they are with TN panels. I used a cheap candybar Samsung which had a TN panel (or so I assume) and it was just dreadful. You couldn"t angle the phone at all because the color shift was so huge the colors practically became reversed.

I"ve briefly used Samsungs with AMOLED screens at work and they were totally fine as well, even if I don"t remember them being as gorgeous as Nokia E7"s screen. In any case they were far better than any IPS screen on phones I"ve seen.

Both screens are made up of Pixels. A pixel is made up of 3 sections called sub-pixels. The three sections are red, green and blue (primary colors for display tech).

The light is generated from a “backlight”. A series of thin films, transparent mirrors and an array of white LED Lights that shine and distribute light across the back of the display.

On some lower quality LCD screens, you can see bright spots in the middle or on the perimeters of screens. This is caused by uneven light distribution. The downside to using backlights, is that black is never true black, because no matter what, light has to be coming through, so it will never have as dark of a screen as an AMOLED screen. Its comparable to being able to slow a car down to 2 mph versus coming to a complete stop.

Each pixel is its own light source, meaning that no backlight is necessary. This allows the screen assembly to be thinner, and have more consistent lighting across the whole display.

In addition, since each pixel is an OLED (Organic Light Emitting Diode) or individual light, showing black means it shuts off pixels it doesn’t need to generate color.

So on the Samsung Galaxy S lineup of phones, the notification lock screen, which is white text on a black background, uses barely any power, because 90% of the screen is actually powered off.

नई दिल्ली (टेक डेस्क)। स्मार्टफोन में बेहतर परफॉर्मेंस के लिए प्रोसेसर साथ-साथ डिस्प्ले भी एक मुख्य कारक माना जाता है। आपको बता दें कि स्क्रीन क्वालिटी और पिक्सल रेजोल्यूशन एक दूसरे के अनुपातिक होते हैं। लेकिन अगर पिक्सल में इस्तेमाल की जाने वाली तकनीक की बात की जाए तो इसे समझना थोड़ा मुश्किल हो जाता है। अगर हम स्मार्टफोन्स की बात करें तो इनमें दो तकनीक दी गई होती हैं। पहली AMOLED और दूसरी LCD है। लेकिन क्या आप इन दोनों स्क्रीन्स में अंतर जानते हैं। अगर नहीं, तो यहां हम आपके हर सवाल का जवाब देने जा रहे हैं।

AMOLED नाम से आप यह समझ पाएंगे की यह टेलिविजन में इस्तेमाल होनी वाली OLED डिस्प्ले टेक्नोलॉजी का ही एक वेरिएंट है। सबसे पहले LED का मतलब जानते हैं। इसका मतलब Light Emitting Diode है। इसके बाद O का मतलब होता है Organic और AM का मतलब होता है Active Matrix जो किसी भी पिक्सल को बेहतर क्वालिटी देने में सक्षम होता है। AMOLED में OLED डिस्प्ले की सभी खासियतें जैसे कलर रिप्रोडक्शन, बेहतर बैटरी लाइफ, हाई ब्राइटनेस और शार्पनेस होती हैं। इसके अलावा AMOLED डिस्प्ले में TFT यानी थिन फिल्म ट्रांजिस्टर भी शामिल होता है जो पिक्सल को सही दिशा में भेजने के पूरे प्रोसेस को आसान और स्मूद बना देता है। वहीं, एक Active Matrix की मदद से TFT को अलग-अलग पिक्सल