Nano Cell TV – the New Generation of Television SetsJuly 1, 2020
With every passing day, the world of consumer electronics continues to witness mindboggling revolutions. The field of electronics undergoes a wide range of innovations and discoveries on a daily basis. These fertile developments reflect sincerely in the products that they give birth! We are living in a time where imagining our daily tidings without electronic gadgets has become utterly impossible. From easing up our workload to being our primary sources of entertainment, they have become rather indispensable. Notable among these products is the advent of luxury electronic items that have been spewing of late. Ranging from home automation devices to a nano cell tv, these products have seen an increased endorsement of late.
The high utility of these products combined with the aesthetics gives them a competitive edge. Though they’re a little demanding on the pocket, the overall package that they possess generally compensates for it. Multimedia gadgets such as cell phones, televisions, and laptops continue to top sales charts in the consumer electronics industry. They justify their global consumption by virtue of their diverse array of functionalities. Starting from a regular workplace environment to a household, these devices find their relevance in every sphere. Over time they have also undergone monumental phases of evolution. And with each subsequent leg, they strive to become more serviceable to the end-user. The same holds for the world of televisions as well.
Easily our primary sources of entertainment, the domain of television technology has indeed witnessed a stunning evolution curve. The gradual transition from primitive CRT screens to the present-day high-end nano cell tv, the development has been enthralling. The objective of this particular article is to understand the current scope of a nano cell tv. This is achieved by walking the reader through the various generations of TV evolution in general.
Table of Contents
What is Nano cell tv?
Nano cell tv is the latest addition in a long string of highly sophisticated television technology innovations. Currently trademarked under LG, all current active nano cell tv is operating only in their space only. Launched in the later half of the last decade, this sophisticated technology has taken entire consumer electronics space by storm.
With the advent of the Nano cell technology, the general end-user viewing experience stands ricocheted to unparalleled peaks. The path-breaking Nano cell tv technology brings to the table a vivid palette of colors facilitated by wide viewing angles. Additionally, the technology offers a frame by frame picture optimization feature which further enhances a viewer’s experience. The unique selling point in this innovation lies indisputably in the crystal-clear clarity that it delivers to the user.
To gain a deeper insight into the Nano cell tv technology, it is imperative that we understand Nano cells first. Understanding the mechanism of Nano cell’s operation helps shed light on why they’re able to promise high clarity levels. The breakdown of this mechanism is fairly simple.
At the outset, the Nano cell technology makes use of particles to absorb unwanted wavelengths of light. This filtering action works towards enhancing the purity of the red and green colors that are displayed on the screen. Additionally, they help in imparting more subtle and authentic hues to the general color palette of the Nano cell display. These colors manage to stay untainted even at viewing angles that are wide and seemingly disproportionate. Consequently, creates for an incredible viewing experience even for a substantial family gathering.
LG nano cell tv 55-inch variant makes this reality more accessible. Owing to all this, the Lg nano cell tv review is positively raving. Even though the Lg nano cell tv price is a little on the steeper side, it still demands respectable circulation.
Different Types of Television Technologies
Starting from the late 1920s and ranging to the current decade, the world of television technology has seen substantial makeovers. Before we are able to fully appreciate the marvel of Nano cell tv, a reading of its predecessors is mandatory. Only with a deep insight of the past technologies will we be able to the sophistication of the current design. This section strives to shed pertinent light upon the various constructs that have shaped television technology in their own right:
Direct View Televisions
In many ways, direct ray televisions can be considered upgraded counterparts of the cathode ray tube (CRT) television models. The production of direct view televisions has essentially come to a halt in this current time and age. Nevertheless, the engineering of this particular technology well merits academic scrutiny. CRT TVs and Direct view TVs rose to prominence for their established relevance in the gaming sector. As a matter of fact, the design of a number of games was tailor-made according to direct view TV specifications. Many classic video games that defined our childhood ran on this particular premise. These games when running in newer models run the risk of appearing rather lagged and distorted. This is because the programming of the game aligned itself with the inherent engineering of the direct view TV. A prominent case in study is that of the beloved Nintendo game, Duck Hunt.
The entire game revolved around the principle of the interface detecting a hit or miss on the duck in-game. This parameter was detected by monitoring the modulated electrons of the cathode ray tube mechanism on the targeted ducks. Now, this particular module of engineering can definitely be emulated with newer models as well. However, while carrying out these specific amendments, a massive dent announces itself in the user’s budget. Something that was super compatible with primitive technology requires extensive modifications to be relevant in a newer system. People who are still largely on the classical video gaming space, still find themselves possessing a CRT or Direct view. However, as the games of our childhood became subject to increasing marginalization, so did the devices of their facilitation. Nowadays it is mostly being sought after by people who mostly require a cheaper television model in their households.
Plasma Display Televisions
Plasma display panels and televisions noticeably broke into the scene in the late 1990s. Upon their advent, they carved their place as the first recognizable flat-screen alternatives to cathode-ray tube TVs. The design of plasma display panels at the time was a much sophisticated and calibrated affair. Their fundamental design comprises of a huge cellular grid that houses multiples pixels. These pixels in return harbor an ionized gas within their premises. This ionized gas is what we commonly refer to as plasma. Since it is ionized by nature it actively responds to electric fields. To trigger this particular phenomenon, another mechanism is in place. The layer of plasma collectively hosted by the pixels is duly flanked by electrodes. Additionally, it is encased by glass panels that are fitted at the front and the rear end. When this entire mechanism is set in place, the display is spurred to life.
Akin to cathode-ray tubes and direct views, plasma panels also make use of phosphor screens in their operation. This gives rise to a similar kind of color depth in both of these television technologies. However, in contrast to their predecessors, plasma displays offer much express frame responses. An average plasma display panel can refresh as much as 600 times in one second thus rendering 600Hz frequency. With the bulkiness of the rear discounted from the plasma models, the scalability was a major positive aspect as well. It was however observed that over time plasma panels became increasingly susceptible to image retention. This particular phenomenon was also otherwise popularly referred to as a “burn-in” situation. Hence a need for a more sophisticated model of technology subsequently arose. In the current market space, some renovated models of older plasma models are still in circulation.
Digital Light Processing (DLP) Televisions
Digital Light Processing TVs announced themselves in the 1980s as the brainchild of electronics giant Texas Instruments. This particular module owed its design to an absolutely newfangled technological approach. The underlying design of the digital light processing televisions was rather path-breaking at the time of its inception.
The basic design fuels itself on the shoulders of an optical semiconductor chip. This optical chip is aided by over a million digital signal processing mirrors that are a part of this construct. Further, these several mirrors are tilted to varying degrees keeping in accordance with the demand of the particular projection. Subsequently, the resultant reflections conjure themselves up in deferent directions to eventually give rise to a tangible image. At the time of its development digital light processing TVs promised smoother viewing experience over its CRT and plasma counterparts. The use of optical semiconductor chips in concomitance with DSP mirrors proved to be an absolutely game-changing dynamic.
Digital Light Processing televisions managed to etch their own indelible mark in the consumer electronics market space. The kind of technology that they advocated successfully found an increasing number of endorsers and eventual loyalists. DLP TVs gained prominence owing to their superior display quality, longer life spans, and their remarkably lighter bulk. An added bonus was the impressive 3D projection compatibility that they possessed. The use of multiple digital signal processing mirrors in their constituent mechanism could facilitate this particular feature. Gradually with time, digital light processing TVs started losing their relevance owing to increased and improved competition in corresponding parameters. The features that used to be their unique selling points now found themselves considerably outweighed by other electronics manufacturers. Consequently, in the year of 2012, the production of digital light processing televisions saw an absolute cessation.
Liquid Crystal Display (LCD) Televisions
Liquid Crystal Display Televisions undisputedly dominate the television market space right now. Though a relevantly new piece of technology, the basic philosophy of its creation was conceived back in the 1960s. The whole operation of this television technology hinges around a unique state of the matter referred to as liquid crystals. In this particular state, the molecules remain suspended in a fluid physical composition. However, even in this fluid suspension, they still manage to retain a specific crystal structure. Subsequently, the orientation of all of these crystal structures occurs in the same manner.
Modern LCDs capitalize upon a basic tweak of this core philosophy. In their case, one particular pixel harbors multiple liquid crystal molecules that are oriented with precision. These molecules are then further aligned between a couple of electrodes as well as a couple of polarizing filters. No beam of light passes through when the screen is kept in an inert condition.
The moment an electric field is introduced the precisely oriented liquid crystals undergo a designated rotation. The degree of rotation is proportionally dictated by the amount of voltage that is applied in the field. Corresponding to the degree of rotation an equivalent amount of light is allowed to pass through the screen. This speck of light then subsequently hits up the pixel. Different measures of voltage activate different pixels across the screen and resultantly an intelligible image is brought to life. The modern-day LED TVs are just a close variant of their Liquid Crystal Display counterparts. In these models, the backlighting takes place with the help of a light-emitting diode mechanism. LCD technology has grown beyond televisions to find applications in laptops, cell phones, and watch displays as well. This in itself is a resounding testimony to the commendable versatility of the LCD television technology.
The advent of LG trademark Nano cell tv technology has brought about a new era in this particular market. The LG Nano cell 86 series and LG Nano cell 90 series are among the first models in circulation. These models extend themselves to both 4K as well as 8K resolution variants. The considerable success of these models speaks volumes about the preparedness and eagerness of the market to perpetual technological innovations. Having partaken in various stages of evolution as highlighted before, the users are always on a lookout for something unconventional. In the greater scheme of things, the highly sophisticated Nano cell tv technology has proven to be just that.