The diodes in-parallel has always been a nightmare for the research. To date, all in-parallel diode experiments show poor results. The in-series experiments were vitally important in proving that the diode produces DC current and voltage. So then what about diodes in-parallel. It's probably far to premature to say ...
2009-08-13 19:33:04
In a recent blog I note that the mechanical Knife switch should be at least 10 Tohm, but that's not to suggest it's sufficient, mind you. I'm beginning to wonder just how high of resistance the undisturbed diode reaches. The depletion zone of a typical diode is comparable to glass, and recent experiments are showing ...
2009-08-13 19:18:51
There was a time when classical physics ruled the headlines, but starting in the early 1900's experiment after experiment began to hit the headlines that classical physics could not explain. Classical physics fails in quantization of certain physical quantities, wave-particle duality, the uncertainty principle, and ...
2009-08-13 17:47:46
Yesterdays major breakthrough explains the TED effect. Materials with high resistivity have long term resistance effect where the agitated materials resistance takes a relatively long time to reach its normal state. The diode contains exceptionally high resistive material in the depletion area, which explains why the ...
2009-07-28 15:14:27
People are asking about diode recovery. More data is required to say for certain, but I have data on two types of diodes, the SMS7630 and the 1N914. Thousands of measurements were taken on the SMS7630 diode arrays. The SMS7630 diode arrays were often disturbed. Sometimes the capacitor or a resistor (load) was soldered ...
2009-07-11 15:06:31
It just occurred to me that long ago I had the answer to aggregating ambient thermal energy. It's been so long I forgot. The answer is very simple! You place at least *at least 5 diodes in-series*, call that a diode *line*, and then you can start placing diode lines in-series. This will prevent the noise from ...
2009-07-09 22:23:39
Still, there is a missing link in the diode model. The most up to date diode model shows that it's kTC noise that drives the diode. If that's true, then initially one would think that diodes with less capacitance would produce more DC voltage. So far, the evidence has not shown that. This seems to indicate there's an ...
2009-07-06 15:14:10
Overwhelming experimental data shows that diodes connected in direct parallel connection produces less power than a single diode. The average DC voltage measured by Tom's 1N34A diode array was 0.57 uV. The predicted DC voltage using my diode equation is 0.5 uV. This is yet more support that diodes in direct parallel ...
2009-07-06 14:37:28
The following could be a major breakthrough in the diode research, as it might solve the issue with placing diodes in direct parallel connection. Experimental data suggestions that 2 diodes in parallel produce half the DC voltage as a single diode, and thus half the power-- P = V^2 / R. First, I'll outline the ...
2009-07-06 04:45:35
Interesting New Diode Theory Energy Levels Energy level 1: Experimental data suggests a high probability that the diode just prior to resting undisturbed will produce ~ 10 pA DC. I think that so far this is the best definition the diodes energy level 1. Energy Level 2: A diode that produces ~ 20 pA DC. Only one diode ...
2009-07-05 16:07:35