Computers and Technology

Some Way To Choose Best Industrial Touch Monitor 2022

When selecting your industrial monitor It is crucial to consider the setting that it will be utilized in and the application it will be used in into consideration. Do you expect your monitor to come into contact with liquids? Dust? Do you need a high brightness? The kind of integration (rack-mount or panel mount etc.).) is also crucial. What industrial touch screen monitor is best suited to your specific application and at what level of security do you require?

Based on the environment in which you work and your planned work You can pick:

  • A desired display size and size. We determine the diagonal (in inches) and width: height ratio. The 6:9 and 4 3 ratios are the most well-known however, it is possible to get a 5:4 or 16:10 screen.
  • It is the screen’s resolution. Resolution is the amount of resolution in the picture. It is measured in pixels.
  • Brightness. This refers to the brightness of the screen. When the display isn’t bright enough it won’t be able to observe anything in daylight. The brightness is measured in candela per square meter (also known as nuits). The normal brightness is approximately 250 cd/m2. Nowadays, sunlight readable monitors can be used in extremely bright conditions. The screens have to be brighter than 1,000 Cd/m2.
  • There are a variety of standards that guide you in the selection of resistance to a spattering of different substances (water oil, solvents, and so on. ) and shocks, as well as more aggressive spattering in explosive environments (see the paragraph on standards for protection below).
  • This is to ensure the integration and the mounting of the screen. This VESA Mounting Interface Standard also known as VESA mount, defines the specifications for mounting monitors concerning the size of the holes as well as the screws used, as well as the layout of holes on the rear the back of the display.
  • Touch and not. 

Which screen technology should you pick as your Industrial screen?

  • LCD (Liquid Crystal Display) screens utilize pixels with backlighting to create a normal image, but with no black density and gray shades. The backlighting technology creates the LCD screen extremely big and heavy. LCD screens consume a lot of energy however they have the benefit of being extremely affordable.
  • LED (Light Emitting Diode) screens are extremely popular in the marketplace. The image is extremely exact and uniform.This leads to better contrast and image quality, and also helps save around 30% of energy when compared to LCD screens. LED screens are more expensive than LCD screens, but are still inexpensive.
  • OLED (Organic Light-Emitting Diode) screens provide the highest quality of images available. This kind of screen makes use of chemical substances that light on when coming in the contact with an electrical current. They have unmatched quality of the field and the subtleties of color. This kind of screen is lighter and thinner than other screen types and consumes less power. However, they were more expensive.
  • Plasma screens In comparison to LCD screens Plasma screens have higher quality images; the grey shades and black are superior and the contrast is higher. The minimum size for an LCD screen is 107cm, which makes it quite heavy. Plasma screens also consume greater energy and power than LCD screens. 

How do you choose your touchscreen?

  • Touchscreens that resist Two conductive layers are separated by insulation. When a user touches one of the conductive layers, the two films meet, which results in a flow of current. The device applies an electric current whose coordinates of the display are analyzed and sent to the computer. This kind of touch screen monitor for pc is crucial in a wide range of applications (GPS games, videos, money registers electronic agendas, and so on. ) It responds to any type of pressure. It is more precise than capacitive touchscreens. In addition, this type of device is impervious to grease, water, or dust. The resistive touchscreen is more sensitive to scratches and damage resulting from sharp objects. It’s also less reactive than a capacitive touchscreen and its reactivity diminishes over time. In addition, a touchscreen with a resistive coating has less transparency, which results in a decrease of between 20 and 25% of the screen’s brightness.
  • In capacitive touchscreens with this type of technology an element that is placed over the glass surface collects charge. When the user touches the layer using their fingers, the charges get transferred, causing the sensation of an alteration (the electrical field becomes cut off) on the surface. Sensors are then able to determine the location of the area affected. In “multitouch” applications, it is required to use touchscreens using projective capacitive technology. This technology is compatible with larger screens. Screens with capacitive technology have several advantages. They are sturdy and scratch-resistant They are also much brighter and have higher transparency than resistance screens (90 percent transparency as opposed to 75% transparency). The screen’s sensitivity is also higher simply because you need to tap the screen for an immediate response. The downside for capacitive tech is it will not function if the user wears gloves.

What safety standards do you need to have for your industrial monitor?

The industrial display you select is the best one for the job, however, it must comply with the standards of protection that apply to your particular industry:

  • IP Rating The first number in the IP rating is a sign of security against the solidification of and the second number indicates security against water and different liquids. Industrial monitors usually come with an IP67 or IP65rating.
  • IK rating The 2-digit IK rating represents the protection index used to protect electronic equipment against mechanical impacts from outside. It shows protection from the impact of energy in joules. It provides the equivalent of the fall of a mass with an arbitrary weight from an arbitrary height.
  • ATEX standard: ATEX standards concern the protection of workers in environments that are susceptible to risks of explosion. ATEX differentiates between areas with the highest concentration of gas and vapor (zones 0 1, 1, and 2) as well as areas that have dust concentrations (zones 20 21, 21, and 22).
  • MIL-STD-810G/F is an American standard that measures the durability that the product has.

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