If you need help with the wind turbine construction i would really love to
help.
Maybe i can help with some coding or cad. Dont know.
Okay, great!
What are your CAD skills? Inventor?
Used CAD for 15 years. AutoCAD, 3d max, sketchup. I used Inventor back
when it ran on SGI Silcon Graphics equipmnet only. But i onyl used it
for a bit.
I also am programming a web based CAD system based on OpenCacade. Uses webgl.
Coding:
We still need a lot of hardware development for Wilssen, the controller.
Have you experience with microcontroller programming and generally in
electronics?
I have done a little bit of arduino. I played around building a RGB
LED controller. This is something i would like to learn about more
though.
We also need an online GUI for the stuff, e.g. an energy monitoring
system, how much current flows etc.
I have always wanted to build something like this. I know html and
javascript well. I use nodejs on the server. I used to use c# and Java
and various databases.
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For the RGB LED stuff at the turbine: a DMX-to-adressable Wilssen wrapper
programm running on a computer would be cool.
I dont get why but you can tell me.
A mobile application for Android OS
Done one. Is pretty simple. I also use phone gap and so program it in
html and embed it as a container in an android app.
We also need an online GUI for the stuff, e.g. an energy monitoring
system, how much current flows etc.
I have always wanted to build something like this. I know html and
javascript well. I use nodejs on the server. I used to use c# and Java
and various databases.
That sounds really great, because a fluent GUI is a must-have in my opinion. ajax and neat diagramms should be incorporated, so you experience with js and -frameworks is of great use here.
We still have to work out how the stuff can be fed into a database online from a Wilssen controller:
The controller is attached to a turbine and has got the following interfaces:
-serial connection over hardware serial port, 115200bps (wired on board, mainly for debugging)
-NRF24L01+ wireless 2.4Ghz transceiver module (not wifi! there’s no IP layer.)
-optional: a micro SD card slot for long time logging
For a computer connection, an NRF24->IP(LAN or WLAN) conversion has to be made. This could be done with an Arduino + NRF24L01+ shield, which is then connected to a PC and the LAN/WAN. The Computer would have to be online and awake all the time, I would prefer a standalone node with NRF24->LAN conversion. This could be made with an ethernet shield on the Arduino. So again, another hardware project on the list…
\
For the RGB LED stuff at the turbine: a DMX-to-adressable Wilssen wrapper
programm running on a computer would be cool.
I dont get why but you can tell me.
Just to control a lot of TiVAs simultaneously. Because if you would do a workshop or just build 20 TiVAs on your own, then all of those have a super bright RGB led equipped. One could use any Software DMX Controller to make a light show or even integrate them into a proprietary system. Another example: A huge dot matrix display on a field, totally off grid. I guess using DMX is a good choice here.