Thought I'd post this over here.
hehe I posted on the development log thread
I got it the to run full auto at decent speeds without needing the capacitors from the E1 board. I used the capacitors and mircoswitch from an Ion board.
Next steps:
I am going to find something for the molex connector so I don't have to cut the wires for the pancake solenoid and cocking solenoid.
I also plan on getting a small breadboard for mounting the microswitch. Also planning on using that breadboard to branch off the positive lead for the pancake and cocking solenoid.
https://www.youtube.com/watch?v=Z2WnqNZcW3s
I can make DNA harnesses. They are the same as old ICD harnesses. Hit me with a PM so we can discuss your needs for the harness.
DNA Board partially in a Eclipse E1 Frame + MQ2 + S6.5 for testing
https://www.youtube.com/watch?v=E_LRNP9MCxo
DNA all tucked in the E-blade. Sorry for the bad lighting.
https://www.youtube.com/watch?v=1771Uwd-RaE
In the E-Blade
https://lh5.googleusercontent.com/-F...o/CIMG0963.JPG
https://lh4.googleusercontent.com/-Y...o/CIMG0964.JPG
One of the things I've noticed about the board setting is that all your dwells are in full ms increments. It would be great if you can make it .1ms increments to help fine tune makers like the MQ2 and G6R
Thanks
Ying
So after getting it to work in my orracle I think there is an issue with the ramping mode
Here is how I understand what PSP ramping should do:
Your first 3 trigger pulls is always in semi(you currently have first X shots and in what mode) shooting within set ROF(10.5/12.5).
After that as long as you pull the trigger 1 time in 1/3 of a second it will fire 3 balls at the set ROF(10.5/12.5).
Once you stop for more than 1 second between pulls, you need that 3 shots in semi before getting the 3 balls per pull ramping profile.
Here is what I have set and I think I have it but sometimes the board almost feels like it "lags" and can't sustain the 12.5 bps
https://lh3.googleusercontent.com/-X...o/Untitled.png
Can you make a video with the noid clicking? It'll be easier to understand what's exactly going on. You could also goldwave the audio to see what kind of lag there is.
.1 ms dwell fidelity? I.. guess.. but are there really solenoids that respond to that level of control? That is not a simple thing to jackhammer in at this point.