Update README.md
parent
600449e88a
commit
3070230fa1
|
@ -6,8 +6,9 @@ The vitis project in this repository is to be used in a accoustic levitation exa
|
|||
When we power up the system, the transducers start emitting ultrasonic sound waves each at the same frequency (40kHz) and amplitude. However, the phases of the transducers are software controllable. This gives us full control over the beam shape exiting the transducer array.
|
||||
|
||||
## Working principle
|
||||
|
||||
[<img src="img/gifsmos_double_focus.gif" width="250px"/>](img/gifsmos_double_focus.gif)
|
||||
Lets consider an example where we want to send a single pulse of airpressure to a certain point in space. We have an array of transducers we can work with. If we time the pulse at each transducer correctly, we can make all the waves arrive at that point simultaniously.
|
||||
Since the waves travel in a sphere around the transducer, we can use the distance from the point to each transducer and the wavelength to time the pulse correctly.
|
||||
[<img src="img/gifsmos_double_focus.gif" width="250px"/>](img/gifsmos_single_focus.gif)
|
||||
|
||||
## Setup
|
||||
There are two array's used in the levitation example. One is facing upwards and the other is facing downwards. They are facing eachother with a distance of 70mm. this distance is arbitrarily chosen based on the needed volume for levitation.
|
||||
|
|
Loading…
Reference in New Issue