What factors should I take into consideration when purchasing a 15.6-inch TFT manufacturers display?

6 inch has gradually evolved into an industrial control size, with small lcd screen parameters that are not lost from 10.4 and 12.1 inch and other standard industrial control size LCDs, as well as low temperature -30 degrees Celsius, 1000 lumens ultra-high brightness and other parameters characteristics, in order to meet the industrial control screen parameters, can also reach 1920 * 1080 high-definition resolution, resulting in an improvement in the display effect of telecommunications devices.

Next, in the following section, you will find a comprehensive explanation of the characteristics of each model's parameters in a unified fashion.

In order to achieve the effect of outdoor visibility, only the AUO new models can achieve 1000 display brightness, whereas other models of 15.6-inch screens are still not up to high brightness standards, and must be brightened to achieve the effect of outdoor visibility; we also have a suitable brightening program that can be selected; for more information, please contact the official website customer service.

As a result, although the 15.6-inch screen is capable of reaching -30 working temperature, few of them do, -20 is more common, and AUO high-scoring models can meet -20 basic requirements, the following section provides a brief introduction to the -30 working temperature models of each resolution.-30 models of working temperatures for each resolution are available.

The wide temperature screen program can be used to get IPS full view on 15. If you absolutely must have IPS full view, you can choose the wide temperature screen program. A wide temperature 15.6 inch screen is virtually identical to IPS full view.

There are two types of 15. LVDS is the more common type. In the past, the EDP interface was only used for notebook screens, and it has continued to be used for industrial control screens; however, the EDP interface is also becoming more common in some industrial control motherboards, which is a good thing. Because of its high brightness and wide temperature range, LVDS is well suited for demanding applications.

The information provided above is an explanation of how to select a 15.6-inch vatn display, with some additional explanation; when selecting the appropriate screen, the five considerations listed above should be taken into consideration;

Even though many people are not familiar with the naming rules and principles, it doesn't matter because the goal today is to popularize the name of the LCD module on the basis of the naming rules and principles that have been established in the first place.

We are all aware of the fact that each model of LCD liquid crystal display module is now named after the number of points that it displays in the LCD, for example, 12864, which is actually an array of 128 columns by 64 rows, and that each model of LCD manufacturer liquid crystal display module is now named after the number of points that it displays in the LCD. When used in a specific situation, each transflective display liquid crystal module model will have some of its parameters; in the following section, we will use the model 12864 as an example to demonstrate some of the fundamental principles of LCD liquid crystal modules.

The display data memory is a type of random access memory (RAM) that is used to store information about dots on a display. It is necessary to write the dot matrix information corresponding to a particular graphic or Chinese character into the memory cell corresponding to that graphic or character in order for it to be displayed. Naturally, you must create the dot matrix information for a graphic or Chinese character on your own; the location of the display dot on the LCD manufacturers in China and the address of the display dot in the memory are the most important considerations to take into consideration.

The majority of LCD modules are driven by a line driver and two column drivers, which means that the 12864  is actually composed of two separate 64*64 LCDs, each of which contains a 512*8 bits display data RAM in its own half.

You can tell where a memory cell in the 512*8 bits RAM is located by looking at the line (063) and column (063) numbers that correspond to where the display points are located on the 64*64 VATN LCD, and you can tell where a memory cell is located by looking at the page address (Xpage,07) and column address (Yaddress,063 that correspond to where the memory cell is located in the 512*8 bits RAM.

The relationship between the location of the LCD dots and the location of the storage address becomes more intuitive as a result. The eight rows of dot matrix information in each column add up to a binary number of eight bits, which is then stored in one of the computer's memory cells.