L’histoire et l’évolution des écrans à cristaux liquides (LCD)

Au cours des décennies suivantes, des progrès significatifs ont été réalisés dans la technologie LCD. Dans les années 1970, James Fergason, un inventeur américain, a introduit l’écran nématique torsadé (TN), qui a révolutionné l’industrie. L’écran TN présentait un contraste amélioré, des temps de réponse plus rapides et une consommation d’énergie réduite, ce qui le rendait idéal pour les calculatrices, les montres et les premières montres numériques.

À mesure que la technologie progressait, les écrans LCD également. Dans les années 1980, les progrès de la technologie des Transistors à couches minces (TFT) ont conduit au développement d’écrans à matrice active. Ces écrans utilisaient un transistor séparé pour chaque pixel, ce qui permettait d’obtenir une résolution plus élevée et une qualité d’image améliorée. Les écrans à matrice active ont rapidement gagné en popularité et sont devenus la norme pour les écrans LCD dans de nombreux appareils.

Les années 1990 ont été témoins d’une avancée significative dans la technologie LCD avec l’introduction des écrans couleur. Auparavant limités aux écrans monochromes, les écrans LCD offrent désormais des couleurs vives et réalistes, ce qui les rend adaptés aux téléviseurs et aux écrans d’ordinateur. Cette avancée a été rendue possible grâce à l’ajout de filtres de couleur à l’écran LCD, permettant l’affichage des pixels rouges, verts et bleus.

Ces dernières années, la technologie LCD a continué d’évoluer, les fabricants repoussant les limites de la qualité et des performances d’affichage. . L’introduction des technologies de commutation dans le plan (IPS) et de commutation avancée de champ marginal (AFFS) a encore amélioré les angles de vision et la précision des couleurs. De plus, le développement d’écrans LCD haute résolution, tels que les écrans 4K et 8K, a permis des expériences visuelles époustouflantes.

La ville de Guangzhou en Chine est devenue une plaque tournante majeure pour la fabrication d’écrans LCD, avec plusieurs

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One of the pioneers in the field was George Heilmeier, an American engineer who developed the first working LCD in 1968. This early LCD, known as a dynamic scattering device, utilized the properties of liquid Crystals to control the passage of light. However, these displays were monochrome and had limited viewing angles, making them unsuitable for widespread use.

https://www.youtube.com/<a href="/tag/shorts" target="_blank"><strong>Shorts</strong></a>/pmSQUU0gaYUOver the next few decades, significant advancements were made in LCD technology. In the 1970s, James Fergason, an American inventor, introduced the twisted nematic (TN) display, which revolutionized the industry. The TN display featured improved contrast, faster response times, and lower power consumption, making it ideal for Calculators, Watches, and early Digital Watches.

As technology progressed, so did LCDs. In the 1980s, advancements in thin-film transistor (TFT) technology led to the development of active matrix displays. These displays used a separate transistor for each pixel, resulting in higher resolution and improved image quality. Active matrix displays quickly gained popularity and became the standard for LCDs in many devices.

The 1990s witnessed a significant breakthrough in LCD technology with the introduction of color displays. Previously limited to monochrome screens, LCDs now offered vibrant and lifelike colors, making them suitable for televisions and computer monitors. This advancement was made possible by adding color Filters to the LCD panel, allowing for the display of red, green, and blue pixels.

In recent years, LCD technology has continued to evolve, with manufacturers pushing the boundaries of display quality and performance. The introduction of in-plane switching (IPS) and advanced fringe field switching (AFFS) technologies has further improved viewing angles and color accuracy. Additionally, the development of high-resolution LCDs, such as 4K and 8K displays, has allowed for stunning visual experiences.

Guangzhou City in China has emerged as a major hub for LCD manufacturing, with several

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