| f the latest improvements in the home equipment | | | | When an individual switches an LCD TV on, a light is |
| industry, the development of flat screen TV adds | | | | triggered at the back of the television set to turn on. |
| excitement and enjoyment to the daily lives of people. | | | | Within the spectrum of this light, people can find |
| The use of flat screen TV has many advantages like | | | | numerous pixels that feature microscopic liquid crystals. |
| it can enhance the aesthetic value of simple houses, it | | | | Two filters that can polarize glasses surround each |
| can occupy less space than televisions that have | | | | crystal. When the television is switched on, each of the |
| traditional designs, and electricity consumption is used | | | | crystal is rotated, which allow light rays to enter the |
| when people have flat screen televisions in their | | | | filters. Sub pixels in LCD TVs have three colors, |
| places. To increase our understanding on these | | | | namely red, blue, and green. Light rays stimulate the |
| matters, it is best to know the two types of flat | | | | sub pixels to produce a particular color, which is |
| screen television. | | | | important to the creation of clear and moving pictures |
| Difference of LCD and Plasma TVs with CRT TVs | | | | in flat screen TVs. |
| Cathode Ray Tube (CRT) TVs use interfaces that | | | | Know How Plasma TVs Operates |
| are different with Liquid Crystal Display (LCD) and | | | | The main components of plasma TVs, another type of |
| Plasma Display Panels (PDP) TVs. The main | | | | flat screen TV, are two glass sheets that enclose |
| difference of Cathode Ray Tube TVs with flat screen | | | | numerous pixels and gases known as xenon and |
| TVs is that it features an electronic beam at the back | | | | neon. Every pixel within the glass sheets is surrounded |
| of the screen of the television. With the use of the | | | | by a chemical named phosphor, which adds color to |
| electronic beam, Cathode Ray Tube produces clear | | | | the pixel. When a person switches a plasma TV on, |
| and bright pictures. | | | | the electricity will pass through the glass sheets and |
| Description of LCD and Plasma TVs | | | | will trigger phosphor in each pixel to create a light. The |
| The two types of flat screen television are LCD TV | | | | light produced by phosphor is very important since it |
| and plasma TV. Technically speaking, these televisions | | | | colors the pictures that people seen when they watch |
| have the same features and qualities. Both types use | | | | television shows on their plasma TVs. |
| similar interfaces that can turn pixels into television | | | | Learning the difference between the two types of flat |
| graphics. However, the difference lies in the process of | | | | screen TVs, namely plasma TV and LCD TV, allows |
| converting these pixels to video graphics. LCD TVs | | | | people to make wise decisions regarding which of |
| feature liquid crystals that have the capacity to change | | | | these suit their needs. However, aside from this, it is |
| the focus of polarized light on pixels. On the other | | | | also important to consider other factors like space and |
| hand, plasma TVs use fluorescent lights to turn pixels | | | | architecture of the area where they will place the |
| on and off. | | | | television set before they decide which of the flat |
| A Closer Glance on LCD TVs | | | | screen TVs is the best to purchase. |