FR2674366A1 - Oscillating circuit with toro-nodal topology - Google Patents

Abstract

The invention relates to an electrical and electronic oscillating circuit which operates as a single electromagnetic wave generator assembly. The two component parts of the oscillating circuit are geometrically combined in the same space around the toric topology. This oscillating circuit consists of an electrical capacitor of toric shape, consisting of metal discs separated by an electrical insulator, linked to a nodal coil of "right-hand" form or of "left-hand" form - wound around the insulating surface of this toric-shape electrical capacitor. Under the action of an electric current, this oscillating circuit will produce electromagnetic waves which are convergent at a single point, with torsion and radiating in transverse and in longitudinal mode. There are two electromagnetic fields with torsion to right or to left according to the shape of the nodal coil. The applications are all communications systems using electromagnetic waves as well as systems which concentrate electromagnetic energy in a single space.

Description

 The present invention relates to a topological oscillating circuit using the combination of an electric toric capacitor on which the magnetic nodal winding is wound.

 Previously, the electronic circuits were constructed in topology of one or more two-dimensional surfaces and the oscillating circuits consisted of two separate elements: a capacitor electrically connected to a bipolar electromagnet.

The device according to the invention overcomes several drawbacks 1- the spatial separation of the capacitor and the electro-
magnet which are thus gathered in the same con
spatial figuration to produce "interference in sy
energy "of electrical energy (generated by the field
electric Qu capacitor) with magnetic energy (ge
generated by the magnetic field of the coil electromagnet
nodal).

 Thus, the electric and magnetic energies of the conventional oscillating circuit, which each dispersed in separate fields, will be able to multiply by the synergistic effect of asymmetrical superposition of the electric (of the toroidal capacitor) and magnetic (of the nodal winding) fields. .

2- the spatial dispersion of pro electromagnetic waves
picked up by conventional oscillating circuits (connected to
an antenna or a waveguide) can be resolved:
- by the convergence of the electromagnetic field in a single
point, in the center of the toro topology oscillating circuit
nodal
- by its wave generator function which will radiate in
a longitudinal and transverse spatial configuration.

3- separation of the bipolar electric field from the condensa
tor (cylindrical or laminated) and bi magnetic field
pole of the electromagnet which were separated in
the classic oscillating circuit.

 This separation of the two electric and magnetic fields will be resolved by their asymmetrical superposition the toric electric field produced by the capacitor will be superimposed on the magnetic field produced by the nodal coil (wound around this same capacitor) to generate a third torsional force. of the electromagnetic field.

 Thus, the association of the toroidal capacitor and the nodal coil in the same spatial configuration of the toronodal topology oscillating circuit will produce an electromagnetic field with twisting of the field lines in the surrounding space.

 The invention comprises an electrical toroidal capacitor (T) made up of metal and insulating plates in the form of discs placed inside an electrical insulating toroid. The assembly constitutes the electrical capacitor with toric topology.

 The invention comprises an ambidextrous nodal winding (A, B) which can "between wound on the toroidal electric capacitor either in the form of knot on the right (A), or in the form of knot on the left (B). constitutes the magnetic winding with nodal topology.

 The invention constitutes a whole by the electrical connection of the toroidal electric capacitor (T) with the magnetic nodal winding (A, B) which thus constitute the oscillan.t circuit with toronodal topology.

 The device according to the invention comprises two embodiments due to the ambidextrous nodal winding which will constitute two oscillating circuits - either by winding the magnetic nodal hobbing "to the right" (Fig.1), or by 1 ' winding of the magnetic nodal winding "on the left (Fig. 2) - on two toric electric capacitors.

 The first variant (Fig.l) makes it possible to produce an electromagnetic field of configuration "on the right" associated with a packet of waves or electromagnetic energy of geometrical configuration "on the right".

 The second variant (Fig. 2) makes it possible to produce an electromagnetic field of configuration "on the left" associated with a packet of waves or electromagnetic energy of geometrical configuration "on the left".

 These two variants of the toronodal topology oscillating circuit make it possible to obtain two forms of ambidextrous electromagnetic fields (mirror image of one another) - comprising a specific property of torsion and polarization "to the right" or " on the left "- which will generate two specific electro-magLetic flood types with two torsional and polarization characteristics" to the right "and" to the left ".

Claims (3)

1- The invention is an oscillating circuit which operates by the  electrical connection and by the association of a winding no  magnetic dal wound on an electric capacitor  toroidal plated in the same geometric configuration  spatial. 2- Device according to claim 1, characterized by  fact that the magnetic nodal winding is ambidextrous: the  winding (A) is wound in the shape of a knot "right" (Fig.1)  on the toroidal electric capacitor (T 1). 3- Device according to claim 1, characterized by the  fact that the magnetic nodal winding is ambidextrous: the  winding (B) is wound in the shape of a knot "left" (Fig. 2)  on the toroidal electric capacitor (T 2).