Thanks, seems like it would be good for me. I don't need something super precise, just trying to work out what would be the most efficient way to design my coil gun. So finding a good amount of amps and being able to see how many turns I should do
Sure thing. Thank you for the nice comment. BTW, I'd recommend the Riden power supply models that end in "P" (for precision). They do cost a little more but are worth it, imo. Also, I think the noise levels are even lower than 1 mV. For example, my Fluke 8842A multimeter reports an AC RMS of around 0.5 mV. I think the higher noise levels shown in the video may be due to the noise floor of my oscilloscope (a Digilent Electronics Explorer). Here is my other video showing the AC RMS noise using a Fluke multimeter: th-cam.com/video/dwQodc7ndPg/w-d-xo.html
Thanks, seems like it would be good for me. I don't need something super precise, just trying to work out what would be the most efficient way to design my coil gun. So finding a good amount of amps and being able to see how many turns I should do
Thanks, very useful info, nice review.
Sure thing. Thank you for the nice comment. BTW, I'd recommend the Riden power supply models that end in "P" (for precision). They do cost a little more but are worth it, imo. Also, I think the noise levels are even lower than 1 mV. For example, my Fluke 8842A multimeter reports an AC RMS of around 0.5 mV. I think the higher noise levels shown in the video may be due to the noise floor of my oscilloscope (a Digilent Electronics Explorer). Here is my other video showing the AC RMS noise using a Fluke multimeter:
th-cam.com/video/dwQodc7ndPg/w-d-xo.html
Fresh intro 'n' review. Thank you for sharing this - I'm considering one of these currently. 🤗🌈👍🙏🤟✌️🖖
What scope you used?
I used a Digilent Electronics Explorer along with Digilent Waveforms software.