Gennady Markov -- bidirectional current transformer

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**Gennady MARKOV**

**Bidirectional Transformer**

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**<http://www.engl.fis.ru/news/?nid=18407>
( 11-24-06 )**

**Novosibirsk Scientist Refutes Physics
Law Established about Two Hundred years Ago**

**Simultaneous Bidirectional Flux
Induction for New Transformer Technology**

Novosibirsk scientist, Professor of Harbin
Polytechnic Institute, Head of Research and Technical Center
'Virus' Gennady Markov came out with a suggestion that the
electromagnetic induction law discovered by Faraday in 1831 is
not actually a law. According to Faraday, a magnetic flux in a
ferromagnetic core of the transformer can be induced only in
one direction. By Markov's theory the magnetic flux in a
conductor can be induced simultaneously in both opposite
directions. After several years of experimenting and practical
studies Markov managed to prove the validity of his theory,
develop an operable transformer on its base and obtain several
international patents for his invention. In contrast to
regular transformer, Markov's transformer has a vertically
extended form and instead of the primary and secondary
windings it has two primary windings with oncoming magnetic
fluxes. By the new induction law, 'new' transformers can
induce necessary voltage even from 'the worst iron' and can
have considerably reduced sizes.

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**Canadian Patent # 2,224,708**

**[ [PDF Format](ca2224708.pdf) 
]**

**Transformer**

**Classification:** - international:
H01F27/28; H01F30/00; H01F30/06; H01F30/10; H01F27/28;
H01F30/00; H01F30/06; (IPC1-7): H01F30/06; H01F27/28; -
european: H01F30/06; H01F30/10   
**Also published as:** EP0844626 (A1) // EP0844626 (A4) //
CA2224708 (C)

**Abstract** --- A number of types of
transformer are proposed for possible use as basic electrical
equipment in power stations, substations, power transmission
lines, in radio engineering, and in measurement and automatic
control and regulation systems. The invention is based on the
principle that the primary coil comprises two sections wound
and connected to one another in such a way that the magnetic
flux generated by one such section when the transformer is in
operation balances the magnetic flux generated by the other
section. The transformer contains a magnetic circuit and a
primary coil in two sections wound onto the circuit core in
one direction with the same number of turns. The two coil
sections are connected at their ends while the starts of the
windings serve as power source inputs. The secondary coil is
wound over the primary coil on the same magnetic circuit core,
and a load RH is connected to it. The proposed transformer
variants are characterised by the fact that the primary coil
sections are wound onto one magnetic circuit core (3 variants)
or onto two cores of one magnetic circuit (4 variants), by the
respective winding directions (identical or opposite) of the
sections and thus by the different coil connections, and also
by the presence of a secondary coil (absent in one variant).

![](fig12.jpg)![](fig34.jpg)

![](fig56.jpg)![](fig789.jpg)

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