Can a water drop do a "fake" touch on a capacitive touchscreen?

Capacitive sensors react to the polarization of a conductor or dielectric that touches (or is close enough to) its surface, so the size or connection to the water should be taken into account. An isolated drop might not affect it, while a stream of water will. I have a large trackpad for my computer, and an app that visualizes its input. I put a fairly large drop onto the trackpad, and it wasn't registered. When I touched the drop, it opened a path for the electric field into my body and that activated the sensor and registered, etc.

So what I'm saying is that drops of water on a touch surface won't affect it by themselves, though your results might vary depending on the implementation. Still, water on the surface might mess things up since it could make streams, or connect with someone's finger and cause jitter. Hope that helps.


Water drop on capacitive touchscreen is usually recognized as a touch. But, there are certain ways to avoid the fault output. Try to search with "digisensor" in YouTube.

Answer is simple and clear. If we have a high resolution capacitive sensor, then we can distinguish water from human finger touch. Generalized answer to avoid water drop is not easy because it is strongly dependent upon surrounding electrical pattern. (Precisely speaking, any electric field absoption).


The short answer is if you want to use pro cap (projected capacitance) touch, you need something that has been specifically designed to not produce ghosts touches in the presence of moisture. This is considered a premium solution and they do exist but they tend to be prohibitively expensive. Search for "rugged" or "ruggedized" touch screens and you will find them.

I have worked in the touch screen industry for 4 years (N-trig) and another 4 at Synaptics doing Clickpads and touch pads. I am now at my 3rd capacitive touch company (an Austin TX based startup). Some of the stuff posted here is pseudo intellectual technobabble. Examples:

"Capacitive sensors react to the polarization of a conductor or dielectric that touches (or is close enough to) its surface...So what I'm saying is that drops of water on a touch surface won't affect it by themselves"

All of this is wrong. Capacitive digitizers react to changes in the amount of signal that is capacitively coupled from the transmit side (i.e. rows) to the receive side (i.e. columns) of the very tiny capacitor in the sensor. We call this mutual capacitance or trans capacitance (short for transmission line). This is the most common kind of capacitive sensing and it has zero to do with polarization of anything. And yes, drops of water on the sensor, if they produce signal above threshold, will cause ghost touches (which is the industry standard term for "false touches, etc.).