The more advanced members here may not get all that excited in regards to what I'm about to share, but this is a real breakthrough for me. Below is a scope shot I finally managed to capture while attempting Delayed Conduction:
What you are looking at is current (pink) and voltage (yellow) taken on the load side, call it L2, while another load is briefly connected to L3. If I'm properly understanding most everything Chris has been trying so hard to communicate, the power blip I have outlined in green is pure and simple free energy. It cost me nothing except the closure of a switch to produce it. This particular switch closure was manual and haphazardly done, but now I know what is needed and I can engineer a means to do it repeatedly. I can also speed things up considerably so the "blip" becomes a major portion of the overall peak instead of just a small fraction of it.
More work to do, but what I've just found looks to me like vindication.