Astra Energy Inc (ASRE)

[SeekTruthAlways]

Dear Uber, tech explanation from Holcomb:

[Extract Start]

I have thoroughly reviewed the work and data that you and Gene completed recently at your HF
Sinclair laboratories in Tulsa.

The data is good and the results are exciting. The input/output power results are very significant.
The KVA ratios exceeded 3 to 1 output over input. When the voltage reference is shifted one
phase over for each phase leg, the output over input in KW is similar to the KVA. The unit is
obviously generating power because the amperage output over amperage input is over 3 to 1.
The voltage reference must be shifted for the following reasons:

Please refer to FIG 1 included herein. This Figure is a representation of the operating mechanism
of the ILPG. Power comes into the system from the power source over phase legs 1, 2 and 3.
These phase legs are connected to phase coils inside the stator iron - Phase 1, Phase 2 and Phase
3. The phase shift will be demonstrated by following one cycle starting with Phase 1.
We are using 60 hz 3 phase power. That is 60 cycles/second or 60 cycles/1000 ms.

1000

60 cycles = 16.666 ms/cycle

Therefore one cycle is 16.666 milliseconds.

Distance between phase cycle: 360° /3 = 120°

That is 120° between cycles.

The excitation/relaxation time of electrical steel is 2.5 – 3.0 ms. Therefore when incoming phase
1 is excited, the coils of phase 1 generate an electromagnetic field which aligns the magnetic
domains of the stator back iron and side iron. This excitation lasts 2.77 ms before phase 2 current
comes into the phase 2 coils. The stator iron flux aligns the magnetic domains of the rotor and as
they align, the very powerful flux field coming off the rotor powers the phase 2 coils and the
sequence continues around the circumference of the 4 pole ILPG.

Therefore the phase voltage reference must be shifted one phase forward for all 3 phases,
because the phase leg cannot be exciting and generating simultaneously.
The other important feature of this magnetic environment is that it decreases the reactance of the
stator coils, thereby decreasing the impedance and increasing the amperage which is being
generated by the powerful magnetic domains of the electrical steel.

In this system, the capacitive load becomes mostly reactive power, true power is taken from the
reactive power. Reactive power in this system is reserve power for the true load. This conclusion
is clear from the enclosed data A, A-1, B, B-1.

[Extract End]