Touch/Motion Sensor Technology
时间:03-26
整理:3721RD
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Hi,
I need a little help trying to determine the possibility of incorporating touch and motion sensor technology in material like rubber, plastic or glass. My question is as follows:
Is it possible to incorporate touch and motion sensor technology in material like rubber, plastic or glass where the absence of touch and/or lack of motion could cause a mechanical reaction?
If there is a way to accomplish this, by what process is this achieved? How does the lack of the presence of these electronic signals translate into a mechanical reaction?
I am curious as to whether it is indeed possible for the lack of these signals to produce a mechanical effect. I'm intrigued to know whether touch and motion sensor technology is capable in materials such as silicon, plastic, or rubber.
I would truly appreciate any insight and thank you for your time!
I need a little help trying to determine the possibility of incorporating touch and motion sensor technology in material like rubber, plastic or glass. My question is as follows:
Is it possible to incorporate touch and motion sensor technology in material like rubber, plastic or glass where the absence of touch and/or lack of motion could cause a mechanical reaction?
If there is a way to accomplish this, by what process is this achieved? How does the lack of the presence of these electronic signals translate into a mechanical reaction?
I am curious as to whether it is indeed possible for the lack of these signals to produce a mechanical effect. I'm intrigued to know whether touch and motion sensor technology is capable in materials such as silicon, plastic, or rubber.
I would truly appreciate any insight and thank you for your time!
Hi,
Yes. Touch sensing is able to work under non-metallic surface.
The following website has a video demo on the sensor.
http://www.siongboon.com/projects/20...nsor%20circuit
You can increase the sensitive and position the sensor under various material.
It will still be able to detect the touch.