The inside look at the HyperDimensional Resonator.
Photo by JTHats.

Today I decided to do what I've never done before and look at the interior of the Steven Gibbs HyperDimensional Resonator, because from what I have read about it and from the circuit diagrams I've seen there was just too much I didn't understand. In fact, I was starting to feel like I'd been scammed.

Now that I've seen the inside of the device and have done a little research on caduceus coils, I don't feel scammed. There's much more to this little device than you'd think, if like me all you had to go by was the minimal schematic diagram. That diagram now makes more sense. I had wondered how the rubbing plate became an active part of the circuit, and now I know. I will be more inclined to use it and I think I understand the operating procedure better.

Sketch possibly originated with David Brenneman
but was taken from the Zerksus Engineering website.

Underneath the section of the case that serves as the interactive "rubbing plate" is a second coil wound in a flattened spiral cone shape, and around the "witness well" is a third coil wound around the cylinder of the well. That's where the crystal sits, so the crystal also is part of the circuit, although it doesn't make direct contact with anything but the EM field of the coil. Anybody who thinks it's weird to put crystals in a circuit, well, every transistor and diode has a piece of one. They're fundamental to modern electronics.

What I can't tell from looking at the rubbing plate coil or the witness coil is whether these are simple bifilar coils or whether they are caduceus patterns. I don't see crossover windings so I'm assuming bifilar. The caduceus coil should be a cylindrical form with a specific geometry of crossover points. The flat wound coil below the rubbing plate looks like the sketch of Nicola Tesla's flat bifilar coil. I'm assuming that the cone shape this one has is just a mechanical problem since it's only anchored at the edges, letting the center drop slightly down.

Sketch of a flat bifilar coil designed by Nicola Tesla;
becomes the rubbing plate coil of the HDR.
Photo from Wikipedia

The witness well coil is a different beast. The well itself looks like a black film canister epoxied to the case. Two wires enter the masking tape cover at the top and exit at the bottom. I don't see any crossover windings. Looks like twelve neat turns at the top, a space and six more turns in the center, a space and twelve more at the bottom.

The other weird thing is that the six diodes in the circuit are arranged directly below the rubbing plate coil in a circular pattern. There's considerable attention paid to geometry and that's consistent with manipulation of EM fields.

There's a lot going on here, electrically speaking. This isn't the simple machine I thought it was.

I was reading some of the articles about caduceus coils that I've linked below and notice that others actually have experienced some of the negative effects I've been concerned about, specifically some disruption of hard drive files if the HDR is activated too close to a computer. I've been careful to turn mine on only when our computers are off, and to use it at what seems like a safe distance. The only electronic item I've had close to it during operation is a digital timer. It stopped working after surviving two sessions. I'm not sure whether the problem was the HDR or the magnets I've used to test the HDR. Anyway, don't do that.

Simple cylindrical bifilar coil; witness well
coil appears to be simpler, two wires
wound in parallel but with some quirks.
Sketch from Wikipedia.

What I see inside the machine brings up a couple of new possibilities. First, there's real potential for interaction with the human operator through the effects of electrical charges on the fingertips, if not through the EM fields of the body or brain. Second, if the coils actually do generate scalar waves with the ability to jump across time and space, there's a potential for communication. The HDR might be a cooperative effort.

It's always exciting to learn things, and I've learned things about coils today that I'd managed to skip, since most of my electronics hasn't had anything to do with winding weird coils. I do recall from college classes that there are many unexplained effects observed in coils, spikes of voltage greater than engineering formulas predict yet not useful for any practical purpose. The bifilar winding cancels out the electromagnetic field of the coil, so it's a common way to make a non-inductive resistor. All you have is the resistance of the copper wire with no inductance to muck up the circuit, and that's what most of the hand-wound coil work in the HDR appears to be. But it isn't there to be a resistor -- it's there to be a sensor.

At least that's my opinion of it today, I'm sure I'll learn something else eventually.

The third effect is something I'd suspected from manually testing the caduceus field's pattern with a magnet. The caduceus coil creates a beam, or at least an elongated field. The one around the activation coil appears to be assymetrical, but so far that's just a guess. I don't have enough iron filings handy to be absolutely sure. Wait a minute! I do have a couple of pounds of steel BB's laying around somewhere . . . . Alice may be upset with me soon. Maybe I'll skip that test for now.

Links:

For a list of all my articles about the HDR see the HDR Time Travel category.
For a list of all my articles about experiments with the HDR go to Meat blog and the Mind Machine Practice category.
For an explanation of why I'm interested, see Skin blog and the post called Stepping Back.

Zerksus Engineering
CADUCEUS WOUND COIL EXPERIMENTS
Uncle Taz
Time Travel & the Caduceus Coil
Caduceus Coil Observations
HDR Caduceus Coil
Bifilar coil at Wikipedia