With the continuous maturity of LCD splicing technology, LCD splicing screens are becoming thinner and thinner. Under the strong promotion of industry manufacturers, the advantages of lightweight products have been well-known to many industry users, such as reduced weight, more beautiful screen experience, easier installation, and faster response time. Related studies have shown that reducing the thickness of a spliced large screen by 20 will increase its response speed by 35 on the original basis. So, does this mean that thinner LCD splicing products are better? The answer is definitely negative, because thinning the product can also bring certain negative effects, and users must have some understanding before making a purchase.

The thinner the product thickness, the higher the requirements for the manufacturing process. If the manufacturing process is not up to standard, not only will the color displayed on the screen become dull, but the viewing angle will also decrease. At the same time, the probability of bad pixels appearing on the screen will increase, and the yield of the product will decrease. So far, there is no very comprehensive technology in the industry to solve the above problems. Therefore, to produce lightweight products, the production cost of manufacturers will increase significantly. Correspondingly, when transferred to industry users, the cost of use will also increase significantly. High cost and multiple hidden dangers are factors that users must consider when pursuing ultimate lightweight products. Of course, if conditions permit, it is best to choose large brand products with guaranteed quality and after-sales service.

The larger the size of the LCD splicing unit, the higher the power consumption?

In the current field of LCD splicing, large size and energy-saving and environmental protection have become equally popular trends. However, for many industry users, this has become a helpless situation where they cannot have both fish and bear's paw, because in the latent consciousness of many people, large size will bring high power consumption? The fact is not so.

Related studies have found that the power consumption of LCD splicing units of different sizes does not change significantly. For example, the mainstream 46 inch, 50 inch, and 60 inch LCD splicing units on the market have roughly the same power consumption under the same conditions. Strictly speaking, the power consumption of LCD splicing screens is determined by the number of LCD splicing units. The more units there are, the greater the power consumption of the screen body. Therefore, if users have a demand for large-sized screen applications, choosing large-sized splicing units to reduce the number of splicing units can actually be more energy-efficient.

Is there no temperature limit for LCD splicing screen applications?

With the continuous improvement of market awareness, the application scope of LCD splicing screens is constantly expanding, which has created a "universal" attribute for many industry users. In fact, if you want to ensure the efficient application of LCD splicing screens, the temperature of the surrounding environment is an important factor that cannot be ignored. Generally speaking, the optimal operating temperature for LCD splicing screens is between 0 and 40 degrees Celsius, because the thermochromic liquid crystal used in LCD screens is derived from temperature changes, and its photoelectric effect is controlled by temperature. If the temperature is not within its operating temperature range, it is equivalent to shaking off the electric field control without photoelectric effect, which can cause various problems.

In practical applications, if the application environment temperature conditions are harsh, it is best for users to install air conditioning and set the temperature between 25 and 26 degrees Celsius to ensure that the LCD splicing wall is in the best working condition.

Will LCD splicing screens not have color difference?

As is well known, DLP splicing screens will experience color attenuation, or color difference, after a period of use, which affects the effectiveness of use. In response to this, some LCD splicing manufacturers have made color difference free an important promotional point in their marketing. So, does LCD splicing screen really not have color difference? In fact, LCD splicing screens also experience color attenuation after a period of use, and this attenuation is irreversible. However, its attenuation does not occur frequently, and many manufacturers have certain adjustment methods to effectively extend its service life.

LCD splicing screen doesn't need to 'rest'?

In the current LCD splicing market, 7x24 hour continuous operation has become a key element in manufacturers' marketing and promotion. So, in practical applications, do LCD splicing screens really not need to rest? In fact, if users want to extend the service life of LCD splicing screens as much as possible, they should try to give them a "vacation".

Related studies have found that when LCD splicing screens work continuously at full load for more than 96 hours, their aging will accelerate, and in severe cases, they may even burn out. Therefore, prolonged use of LCD splicing screens can easily cause certain pixels to overheat, which can lead to permanent damage once exceeded. Therefore, when users use LCD splicing screens for a long time, it is best to take a break for a while. If conditions do not allow, they can try changing the display content of the screen at different time intervals so that the screen body can adjust slightly while waiting for the working state.