Electronics What should be included in a circuit board to allow experimentation with ultrasonic signals?

AI Thread Summary
The discussion revolves around the development of a versatile ultrasonic signal board designed for experimentation across various frequencies and amplitudes, beyond typical ranging applications. The proposed board aims to facilitate innovative projects, including a steerable array configuration with at least 4x4 transducers. Key considerations include the initial challenge of getting the board operational, followed by the need for systematic performance measurement and documentation. This process is expected to enhance understanding and mastery of the technology, potentially leading to various follow-on projects. Suggested components for the board include piezoelectric transducers, dual-purpose circuitry, and a capable digital signal processor (DSP) to support diverse experimental applications. The intention is to possibly open-source the design to encourage further experimentation and development within the community.
ilana8
Messages
1
Reaction score
0
TL;DR Summary
What should be included in a circuit board to allow experimentation with ultrasonic signals?
I've been wanting to experiment with ultrasonic signals, to see what could be done at different frequencies, amplitudes, maybe combining several modules and trying to get coherent effects, that sort of thing. There are components available specifically for ultrasonic ranging at short range with no obstruction (for your robots, etc), but they don't allow much in the way of experimentation across frequencies, or for non-ranging applications. So I was thinking of developing a board that had a few different features and maybe I could open-source the design.

As I'm just in the design process, I'm wondering, if you had such a board, what kind of experiments would you run, or gadgets would you try to build?
 
Last edited by a moderator:
Physics news on Phys.org
I would suggest a steerable array - at least 4x4.
 
Reply
  • Like
Likes ilana8 and Tom.G
.Scott said:
I would suggest a steerable array - at least 4x4.
Interesting. What applications do you have in mind for that?
 
berkeman said:
Interesting. What applications do you have in mind for that?
Perhaps Learning? (a bunch of stuff!)
 
berkeman said:
Interesting. What applications do you have in mind for that?
As @Tom.G said, learning.
Simply getting it to work at all would be an achievement - involving a lot of planning and design.

Then measuring its performance would be another substantial task - involving the development and documentation of systematic and perhaps automated methods of collecting the performance data - and reporting it. I wouldn't be surprised if the design of the device changed just to allow performance data to be collected more routinely.

Those two tasks will give you a certain level of mastery with the device - a likely many ideas of follow-on projects.
 
- piezoelectric transducers: complete dual purpose circuitry for several channels
- AD & DA for all of them
- a DSP beefy enough to handle all that, with adequate reserves to supply development from 'hello world' to beam forming...

Well, that's what I would start with.
 

Similar threads

Trying to get raw signal from SRF02 ultrasonic sensor
Replies
1
Views
2K
Can we hear beats between ultrasounds in the audible range?
Replies
23
Views
7K
Upper division physics lab -- Project ideas
Replies
6
Views
3K
Op-amp compensation of cascade fudges audio signal oddly
Replies
3
Views
2K
The nosy guy
Replies
2
Views
825
How does AM broadcasting/receiving work + a project for HS students?
Replies
20
Views
1K
I could really use some help picking my optional module [GameDev]
Replies
2
Views
2K
Isolated Analog Voltage Measurements
Replies
5
Views
2K
Calculating Magnetic Field Strength from FFT
Replies
10
Views
3K
Measuring Reflectance with a Digital Camera
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top