How to choose a model of LED full color display screen?
How to choose a model of LED full color display screen?
The environment in which the LED display screen is located, whether it is outdoor, semi outdoor, or indoor, varies with the corresponding waterproof requirements. Outdoor waterproofing requirements are high, generally above IP65. Based on the environment, the approximate selection range can be determined whether it is an outdoor full color display screen, a semi outdoor full color display screen, or an indoor full color display screen!
The distance between the observation position and the installed display screen, also known as the visible distance, is very important as it directly determines the model of the display screen you choose. Generally, indoor full color display screen models are divided into p1.9, P2, P2.5, P3, p4, etc., while outdoor full color display screen models are divided into P4, P5, P6, P8, p10, etc. These are all conventional, such as pixel screens, bar screens, and irregular screens, which have different specifications and models. Here, we will only talk about conventional ones, The number after P is the distance between the lamp beads, in millimeters. Generally, the minimum value of our visible distance is equivalent to the size of the number after P. The distance between P10 is only a rough estimate of 10 meters!
Another more scientific and specific method is to use the density of lamp beads per square meter to calculate. For example, if the point density of P10 is 10000 points/square meter, then the distance is equal to 1400 divided by the square root of the point density. As for P10, it is 1400/10000 square meters=1400/100=14 meters, which means that the distance from observing the P10 display screen is 14 meters away!
The above two methods directly determine the specifications of the selected LED full color display screen, which is that customers must pay attention to two points when choosing:
1. The environment in which the display screen is located.
2. The distance between the observation position and the display screen position. Only by understanding these can you choose an LED full color display that matches your environment and achieves satisfactory results.
The environment in which the LED display screen is located, whether it is outdoor, semi outdoor, or indoor, varies with the corresponding waterproof requirements. Outdoor waterproofing requirements are high, generally above IP65. Based on the environment, the approximate selection range can be determined whether it is an outdoor full color display screen, a semi outdoor full color display screen, or an indoor full color display screen!
The distance between the observation position and the installed display screen, also known as the visible distance, is very important as it directly determines the model of the display screen you choose. Generally, indoor full color display screen models are divided into p1.9, P2, P2.5, P3, p4, etc., while outdoor full color display screen models are divided into P4, P5, P6, P8, p10, etc. These are all conventional, such as pixel screens, bar screens, and irregular screens, which have different specifications and models. Here, we will only talk about conventional ones, The number after P is the distance between the lamp beads, in millimeters. Generally, the minimum value of our visible distance is equivalent to the size of the number after P. The distance between P10 is only a rough estimate of 10 meters!
Another more scientific and specific method is to use the density of lamp beads per square meter to calculate. For example, if the point density of P10 is 10000 points/square meter, then the distance is equal to 1400 divided by the square root of the point density. As for P10, it is 1400/10000 square meters=1400/100=14 meters, which means that the distance from observing the P10 display screen is 14 meters away!
The above two methods directly determine the specifications of the selected LED full color display screen, which is that customers must pay attention to two points when choosing:
1. The environment in which the display screen is located.
2. The distance between the observation position and the display screen position. Only by understanding these can you choose an LED full color display that matches your environment and achieves satisfactory results.