Having a low voltage winding and a HV winding, using also Coax Cable..
Maybe this might point us in a better direction.---->>>
The invention relates to electrical engineering, to energopreobrazovatelnym devices and can be used in the power supply of electrical devices and systems. The technical result is to increase the flexibility and adaptability of the output parameters of the control transformer, extended output power parameters and the possibility of fine adjustment. Resonant transformer includes a primary and secondary coaxial coil. In the interior of the secondary winding of an extra coaxially inside additional winding set of ferrite core, made an open one. 2 BACKGROUND f-ly, 1 ill.
The invention relates to electrical engineering, namely energopreobrazovatelnym devices and can be used to power electrical devices and systems.
A device for the generation of electrical energy, consisting of a source of high voltage capacitor charger, discharger besserdechnikovogo transformer primary winding is connected to the discharge circuit-charging capacitor, characterized in that, in order to ensure the operation of the device as efirodinamicheskogo electricity generator, the secondary set in resonance with the discharge, and for providing a positive feedback output transformer secondary winding is connected to the battery through a rectifier capacitor / Application RU 2003113351, 2004 /.
Known device is not available from the output low voltage consumers.
A device to capture and convert physical vacuum energy into electrical energy, comprising: a modified transformer, generator of sinusoidal current, the capacitor of the primary winding of the transformer, the transformer secondary condenser, matching element, battery / Application RU 2001109811, 2003 /.
Known device structurally difficult, not technologically to use, especially when doing this, to have limited application at high energy performance, does not meet the safety requirements (high voltage), no electromagnetic compatibility with the consumer.
N.Tesla known transformer consisting of three windings - primary and two secondary, located inside the primary. A high-voltage secondary winding, and the second low-voltage winding, located similarly high / V.A.Atsyukovsky. Transformer N.Tesla: Energy from the air. Publishing house "Petit", 2004, page 8, 7 /. The disadvantage of a small area of the transformer windings interact with each other.
The closest is a resonant transformer having a primary circuit is tuned to resonance at the resonant frequency of the inductance and capacitance (resonance currents or voltages), characterized in that the coil in the primary circuit has two cores, the smaller of which contains a secondary coil, which is removed useful power, and the total change in the inductance of the coil primary circuit does not exceed (even when fully loaded transformer) of several percent, which hardly affects the resonance, is removed from the secondary power exceeds the power of email. current in the primary circuit, as at resonance, the total power at the coil of the transformer primary circuit in times of Dr (Q) exceeds the total power supplied to the primary circuit, the resonance is maintained when the transformer load or change the capacitance and inductance of the resonant circuit, or a change in frequency of a let down DC / Application RU 96108039, 1998 /.
Known transformer does not have a high Q factor, structurally complex, not technologically when adjusting the output parameters. Object of the invention is to increase the flexibility and adaptability of the output parameters of the control transformer, increasing energy output parameters as well as their smooth adjustment.
The problem is solved by the fact that in a resonant transformer, which includes primary and secondary coaxial coil according to the invention in the inner cavity of the secondary winding coaxially mounted auxiliary winding, auxiliary winding is installed inside of the ferrite core, made an open one. The distinguishing features are:
- In the interior of the secondary winding of an extra coaxial (which reduces the structural complexity, enables the implementation of technological control of power settings);
- Inside the auxiliary winding set a core made of ferrite (which provides expansion output parameters - current and voltage);
- The core is made not closed (which reduces the consumption of materials and structural complexity).
Thus, the claimed solution meets the criterion of "novelty." A comparison of the proposed solutions with peers and other known solutions are not revealed to them the features distinguishing the claimed solution to the prototype, which allows to conclude that the criterion of "inventive step."
The invention is illustrated drawing, where the transformer is presented in the context of resonant transformer comprises a primary winding 1, the secondary winding 2, additional winding 3, frame 4 coil core 5.
Resonant transformer operates as follows. In the primary of one transformer with a high frequency current pulses of short rise triggered by a pulse generator (the figure is not specified). The secondary coil 2 having a greater number of turns than the primary, the phenomenon of resonance, which is initiated by a high voltage / V.A.Atsyukovsky. Modeling of structures of matter and fields on the basis of gaseous air. "Energoizdat", 1990, p.5-7 /.
The resonant oscillations due to the secondary parameters (wire diameter, number of turns, the thickness and insulation material), which in turn initiates an extra-low voltage winding 3, which has fewer turns than the secondary coil. The additional winding can be connected if needed rectifying diodes and a smoothing capacitor. In this case, the resulting DC voltage can be used either directly or through the appropriate converters, DC to change the form of the energy needed by the consumer. Resonant transformer can work without the core, but with the transformer core power figures increase by at least 10%. Not a closed core secures the proper functioning of the transformer core saturation and without concomitant distortions in converting electricity.
Control the output of the transformer is performed without modifying the transformer, and by varying only the input action of the control pulses generated by any generator.
Resonant transformer provides increased flexibility and adaptability of the output parameters of adjustment, with the expansion of output power parameters and the ability to fine adjustment of any of the pulse generator, which in turn provides a simple and easy to navigate.
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