The diagram reminds me of constructions consisting of springs and dashpots
in series and parallel which are used to model viscoelastic materials.
see e.g.

http://gertrude-old.case.edu/276/materials/5.fig/05.htm6.gif
http://ars.els-cdn.com/content/image/1-s2.0-S0023643808000790-gr1.jpg

His circuit diagram could be considered an electric model of force
interaction at the atomic scale within the Ecat's fuel.




harry


On Tue, May 28, 2013 at 9:09 PM, Andrew <[email protected]> wrote:

> **
> Let's make sure I understand these 4 plots. I understand your diagram thus:
>
>  The blue square wave goes through your toy model and emerges as the
> green double exponential.
> The blue triangular wave goes through your toy model and emerges as the
> green curve that looks very like the power curve in the report.
> The toy model describes a thermal simulation which translates electrical
> input to the device to radiant power output.
>
> OK so far?
>
> Assuming yes, here's what I think you've shown.  The control box consumes
> power as a square wave (which is what the report measures on the input
> side), and outputs a triangular wave to the device. The device's output
> power profile (radiant heat) comes out as per the report. Bazinga.
>
> The only problem is that the cable between the control box and the device
> contains "secrets". That's your next reverse-engineering mission :)
>
> Andrew
>
> ----- Original Message -----
> From: "Alan Fletcher" <[email protected]>
> To: <[email protected]>
> Sent: Tuesday, May 28, 2013 5:37 PM
> Subject: Re: [Vo]:Spice model explains eCat non-exponential waveform,
> supports David Roberson's linear-response theory
>
> >> From: "Andrew" <[email protected]>
> >> Sent: Tuesday, May 28, 2013 4:53:45 PM
> >> That's a nice piece of reverse engineering - Kudos. My only issue
> >> with it is
> >> the plot in the report, which definitely shows square waves. Mind
> >> you, these
> >> were measured on the input side of the control box. So it's possible
> >> you've uncovered a secret about the actual drive waveform.
> >
> > The square waves are the INPUT stimulus. The wavy line (eg plot 8) is
> the OUTPUT power.
> >
> > But the general shape will be similar.
> >
> > (I displayed voltage ...  equivalent to temperature. I still have lots
> to do.
> >
>

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