Exploration of High Sensitivity GG Touch Screen Technology

In the consumer electronics field that pursues extreme thinness, for every 0.1mm reduction in thickness of the GG touch screen, sensitivity may decrease by 15%. The field of GG touch screen technology is constantly innovating, and through three major technological breakthroughs, the 0.7mm ultra-thin screen has achieved a more agile response than the traditional 1.1mm screen.
 

Core breakthrough one: spider web electrode arrangement of GG touch screen
Abandoning traditional matrix circuits and adopting a biomimetic radial routing design. Like the stress distribution of a spider web, this structure can quickly disperse signals when the GG touch screen is under pressure, and the contact positioning speed is increased to 0.8 milliseconds. In curved screen application scenarios, the edge touch accuracy has been improved to 99.6%.
 

Core breakthrough 2: Quantum dot bridging technology of GG touch screen
Implanting quantum dot materials into micro level line gaps to form electronic transition channels. This innovation reduces signal transmission loss by 70%, and even in industrial workshops with strong electromagnetic interference, the screen can still stably recognize ten point touch. After testing, the contact deviation is still less than 0.1mm after 2000 hours of continuous operation.
 

Core breakthrough three: adaptive pressure-sensitive coating of GG touch screen
The elastic silicone layer covering the screen surface is not a simple protective film - it contains over 2000 micro pressure-sensitive units embedded inside. When finger contact is detected, the coating will soften locally to increase the contact area; Sensing water droplets automatically enhances surface tension. After adopting this solution on the central control screen of a high-end car, the success rate of touch control during driving increased from 82% to 97%.