In-vehicle touchscreens can provide drivers with better information display, convenient interactive experience and multiple function options to improve driving safety and comfort. So, what kind of product characteristics does it need to have?
Why do in-vehicle touchscreens have to be treated with anti-glare, anti-reflection and anti-fingerprint surfaces?
Improved visibility: anti-glare and anti-reflective treatments reduce the impact of reflected light on the screen surface, reducing glare and reflections in direct sunlight, thus improving the visibility of the screen. This allows drivers and passengers to clearly see the information on the screen in different lighting conditions, enhancing safety and comfort.
Reduces fingerprints and smudges: In-vehicle touchscreens often need to be operated by fingers, which can easily leave fingerprints and smudges, reducing the clarity and aesthetics of the screen. With anti-fingerprint treatment, it can effectively reduce fingerprints and smudges left on the screen, keep the screen clean and enhance user experience.
Why should I choose a wide-temperature display for automotive applications?
The operating temperature of vehicle displays usually ranges from -30°C to 85°C. This is due to the fact that the vehicle's internal environment may be affected by extreme temperatures. In cold winters or hot summers, the temperature inside the vehicle may exceed the normal range, so the in-vehicle display needs to have a certain degree of temperature resistance.
In a low-temperature environment, the liquid crystal material of the vehicle display is prone to hardening, leading to problems such as the screen becoming insensitive or producing image residue. In high-temperature environments, electronic components are prone to overheating, resulting in loss of response or damage to the display.
Therefore, vehicle displays are usually designed and manufactured with these factors in mind, and high and low temperature resistant materials and technologies are used to ensure that the screen can work properly over a wide range of temperatures. At the same time, care needs to be taken to prevent the temperature inside the vehicle from being too high or too low during vehicle use to avoid adverse effects on the in-vehicle display.
Is definition important for in-vehicle displays?
The answer is of course. In-vehicle display modules usually have high resolution and brightness to provide clear images and text display effects. High resolution can ensure the fineness and clarity of the display content, providing users with a better visual experience.