1) Brief Summary and Field
The Anamagnetic Reactance device also called
Magnetic Capacitor develops a new reactance. Presently known reactances
are the magnetic reactance also called inductance, and the electrostatic
reactance also called capacitance. Magnetic reactance is proportional to
frequency and current and shifts the phase angle of voltage and current in
a way called current-lagging. Electrostatic reactance is inversely
proportional to frequency and shifts the phase angle of voltage and current
in a way called current-leading. This new device develops a reactance
proportional to frequency and current and shifts the phase angle of
voltage and current in a way called current-leading. Because the new
device has properties like magnetic and electrostatic reactive devices yet
is unlike them both as well, certain advantages become obvious, power
transformer power factor correction, and tuning circuits with flat line
response curves.
a) Power
Transformer Use
High efficiency
transformers with one load level only can now be used with a varying
load or several smaller intermittent loads as with normal household and
many industrial power requirements. Before my invention the tighter
linkage of the coils in high efficiency transformers developed various
phase angle shifts and various power factors under various loads. Less
efficicient transformers have the same problem, but to a lesser degree.
This is why lights dim when a high power oven or air-conditioner is
activated. The more loosely linked coils are less reactive and thus there
is less phase shift, at the expense of efficiency. My invention produces a
phase shift capable of correcting the power factor by correcting the phase
shift to zero degrees. The transformer may then be made as tightly linked
as technologically possible, even for varying loads.
b) Tuning
Circuit Use
Tuning circuits
presently depend primarily on a magnetic and an electrostatic reactive
device. Similar tuning circuits based on a magnetic and an anamagnetic
device can be built. The advantage is that the constant of proportionality
is the same for anamagnetic and magnetic reactance and they are both
linear. This means that the low frequency side and the high frequency side
of the tuning curve will now be mirror images whereas the non-linear
electrostatic reactance-to-frequency curve distorted this symmetry
previously. This is especially important in frequency modulation.
2) Brief Description
"Field Orientation" of Figure 1) is a drawing
of an "s" shaped conductive wire and the field generated by current through
the center at point "P."
Mass Production Techniques" of Figure 2) shows
how conductive material is surrounded by insulation in an efficient manner
for the field orientation required.
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