1. A capacitive touch screen only requires touch and does not require pressure to generate signals.
2. Capacitive touch screens only require one or no calibration after production, while resistance technology requires routine calibration.
3. The lifespan of the capacitor solution is longer because the components in the capacitor touch screen do not need to be moved at all. In resistive touch screens, the upper layer of ITO film needs to be thin enough to have elasticity, in order to bend down and contact the lower layer of ITO film.
4. Capacitive technology is superior to resistive technology in terms of optical loss and system power consumption.
5. The choice of capacitor technology or resistor technology mainly depends on the object touching the screen. If it's finger touch, a capacitive touch screen is a better choice. If you need a stylus, whether it's plastic or metal, a resistive touch screen can handle it. A capacitive touch screen can also use a stylus, but a specially designed stylus is required to work with it.
6. The surface capacitive type can be used for large size touch screens, and is relatively low, but currently cannot support gesture recognition: the inductive capacitive type is mainly used for small and medium-sized touch screens, and can support gesture recognition.
7. Capacitive technology is wear-resistant, has a long lifespan, and has low maintenance costs for users. Therefore, the overall operating expenses of manufacturers can be further reduced.
8. Capacitive touch screen can support multi-touch technology, and unlike resistive touch screen, it is insensitive and not easy to wear.
