MOTIONLESS ELECTROMAGNETIC GENERATOR
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29-01-2010, 07:26 PM


MOTIONLESS ELECTROMAGNETIC GENERATOR


ABSTRACT:
It introduce one of the revolutionary apparatus in the world of free
Energy / over unity devices, namely Motionless Electromagnetic Generator (MEG) .The major objective behind the invention of MEG is to design a magnetic generator in which the generation of electricity is accomplished without moving parts and moreover which eliminates a need for an external power source during itâ„¢s operation. In other words it is the objective to design a magnetic generator for which the coefficient of performance (COP) is well over unity (COP>1), i.e. which gives more output power than we inputted. In this paper, how these objectives are achieved is explained with the help of first version of MEG.
The electrical energy needs of the world are increasing exponentially. At the same time, the worldâ„¢s oil supplies are peaking and will be gradually decreasing, while becoming ever more expensive to obtain. The easily foreseeable result is first a world energy crisis, now looming, followed by a world economic crisis as prices of transportation, goods, etc. increases. MEG can resolve this crisis that is coming upon us. Not only MEG but With all free energy systems and technologies, the increasing need for oil can be blunted and controlled, so that the economy levels off while at the same time additional electrical power is provided as needed. Some of the free energy technologies include Radiant energy/ Cold Electricity, Permanent magnets, Mechanical heaters, Super-efficient electrolysis, Cold Fusion etc. These processes produce clean electrical power, do not require rivers, special conditions for windmills and solar cells, hydrocarbon combustion, or nuclear fuel rod consumption.


SOMESWARA RAO
06H41A0242
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nikinshetty90
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05-02-2010, 11:06 PM

give me some more information
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05-02-2010, 11:44 PM

The MEG (MOTIONLESS ELECTROMAGNETIC GENERATOR) to be a special type of transformer with a permanent magnet in its main flux path. this distorts the hysteresis curve enough to cause flux saturation of the core and generates voltage spikes on the output coils.Within the MEG, a set of input coils and a set of output coils extend around portions of the transformer-type magnetic core. A pair of input and output coils are on the right and left of the transformer frame. A permanent magnet is positioned in middle of the magnetic core. A permanent magnet furnishes magnetic flux lines moving from the north pole outward into the core material, resulting in a right and a left magnetic path. These paths extend externally between the north and south magnetic poles. A driving electrical current through each of the input coils (acting as a type of choke coil) reduces a level of magnetic flux from the permanent magnet within the magnet path around which the input coil extends.A moving magnetic field induces a charge in a coil. When a magnet is placed in between two metal plates, the flux is placed evenly. The permanent magnet is used as a flux battery, making this machine's operation possible. When a current flows through one of the input coils, all the magnetic flux goes to one metal plate, making the total magnetic flux change


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en.wikipediawiki/Motionless_electromagnetic_generator
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19-02-2010, 11:56 AM


.pptx   MOTIONLESS ELECTROMAGNETIC GENERATOR[MEG}.pptx (Size: 2.96 MB / Downloads: 893)
MOTIONLESS ELECTROMAGNETIC GENERATOR[MEG}

INTRODUCTION

¢ generator without any moving parts
¢ steady input power is required
¢ magnetic field of permanent magnet is switched with
precise timing
¢ power is produced without an external application
of input power
Invented by Thomas E. Bearden
in March 2000

Construction

Core
Input coil
Output coil
Permanent magnet
Theory

Aharonov-Bohm effect
curl and curl-free components of
magnetic vector potential (A) is
separated
As input coils are alternately pulsed, A varies and produces electric field (E) directed towards the core
Coils act as antenna and receives E-field energy and re-radiates and results in a dense E-field
More E-field energy is coming back to MEG from outside
MEG have two energy input
- energy inputted by operator
- lots of free energy from outside
Its COP > 1
Efficiency < 100%

ADVANTAGES

Low maintenance
Pollution free
Low running cost
More efficient than conventional generators
Compact size & free from noise

Disadvantages

¢ Fabrication of core is difficult
¢ High installation cost
Application
¢ All conventional generators can be replaced

Conclusion

Electromagnetic generator operating should be considered not as a perpetual motion machine, but rather as a system in which flux radiated from a permanent magnet is converted into electricity, which is used both to power the apparatus and to power an external load.
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21-03-2010, 03:49 PM

hi every one.........
i wanted to give a technical presentation on this topic....
i want the full details and documentation of this innovative project and implimentation...
pleace help me in this .......[/font][/size]
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keerthi vegiraju
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23-03-2010, 12:42 PM

hi every one.........
i wanted to give a technical presentation on this topic....
i want the full details and documentation of this innovative project and implimentation...
pleace help me in this
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05-05-2010, 12:34 PM


.pdf   Motionless-Electromagnetic-Generator.pdf (Size: 514.52 KB / Downloads: 345)

MOTIONLESS ELECTROMAGNETIC GENERATOR

Presented By:
Mr. Vijay Darshan Reddy
Abstract:
This paper is written to introduce one of the revolutionary apparatus in the world of free energy / over unity devices, namely Motionless Electromagnetic Generator (MEG) [7].The major objective behind the invention of MEG is to design a magnetic generator in which the generation of electricity is accomplished without moving parts and moreover which eliminates a need for an external power source during it's operation. In other words it is the objective to design a magnetic generator for which the coefficient of performance (COP) is well over unity (COP>1), i.e. which gives more output power than we inputted. In this paper, how these objectives are achieved is explained with the help of first version of MEG.
Keywords:
Over unity devices, Coefficient of performance, MEG. Conclusion:
This MEG is a revolutionary apparatus in the world of free energy, with which it overcomes the world's energy crisis.
l.Introduction:
The electrical energy needs of the world are increasing exponentially. At the same time, the world's oil supplies are peaking and will be gradually decreasing, while becoming ever more expensive to obtain. The easily foreseeable result is first a world energy crisis, now looming, followed by a world economic crisis as prices of transportation, goods, etc. increases. MEG can resolve this crisis that is coming upon us. Not only MEG but With all free energy systems and technologies, the increasing need for oil can be blunted and controlled, so that the economy levels off while at the same time additional electrical power is provided as needed. Some of the free energy technologies include Radiant energy/ Cold Electricity, Permanent magnets, Mechanical heaters, Super efficient electrolysis, Cold Fusion etc. These processes produce clean electrical power, do not require rivers, special conditions for windmills and solar cells, hydrocarbon combustion, or nuclear fuel rod consumption. They will provide clean (pollution free), cheap electrical energy anywhere, anytime, everywhere, and every time with no detrimental impact to the environment.
2. Permanent Magnets:
MEG operates in accordance with, very well known law in the electrical engineering literature, an extension of Faraday's law, indicating that an electrical current is induced within a conductor within a changing magnetic field, even if the source of the magnetic field is stationary. Harnessing the invisible force called Magnetism has already changed the world. It has given us electricity, radio, television, computers, and thousands of other things. But it's greatest gift to mankind is yet to be realized. Magnetism can provide a source of inexhaustible, pollution-free energy. In the last 120 years, dozens of inventors have reported success in harnessing magnetism to produce excess mechanical energy, electricity, and heat. With permanent magnets getting stronger and cheaper, all the time more and more researchers are probing the unknown properties of magnetism The device under consideration, MEG, also, utilizes thepermanent magnets to produce cop>1.0. Let us start our original discussion.
3 Principle of operation :
chieved is explained with the help of first version of MEG.

682424
4 Construction and operation :From the above, we can observe that this device works on the principle of transformer rather than on the principle of generator. Not only in the principle but in construction also it resembles with a transformer. It consists of a permanent magnet, two magnetic paths external to the permanent magnet, each of which extends
between the opposite poles of the permanent magnet, switching means for causing magnetic flux to flow alternately along each of the two magnetic paths, one or more output coils in which current is induced to flow by means of change in magnetic field within the device. See figure.1, for basic setup of MEG. Fig.1, shows an electromagnetic generator including a permanent magnet, a magnetic core, first and second input coils, first and second output coils, and a switching circuit. The permanent magnet has magnetic poles at opposite ends. The magnetic core includes a first magnetic path, around which the first input and output coils extend, and a second magnetic path, around which the second input and output coils extend, between opposite ends of the permanent magnet. The switching circuit drives electrical current alternately through the first and second input coils. The electrical current driven through the first input coil causes the first input coil to produce a magnetic field opposing a concentration of magnetic flux from the permanent magnet within the first magnetic path. The electrical current driven through the second input coil causes the second input coil to produce magnetic flux opposing a concentration of magnetic flux from the permanent magnet within the second magnetic path. The essential function of the magnetic portion of an electrical generator is simply to switch magnetic fields in accordance with precise timing. In most conventional applications of magnetic generators, the voltage is switched across coils, creating magnetic fields in the coils which are used to override the fields of permanent magnets, so that a substantial amount of power must be furnished to the generator to power the switching means, reducing the efficiency of the generator. In the present apparatus, the path of the magnetic flux from a permanent magnet is switched in a manner not requiring the overpowering of the magnetic fields. Furthermore, a process of self -initiated iterative switching is used to switch the magnetic flux from the permanent magnet between alternate magnetic paths within the apparatus, with the power to operate the iterative switching being provided through a control circuit consisting of components known to use low levels of power. With self switching, a need for an external power source during the operation is eliminated, with a separate power source, such as battery, being used only for a very short time during start-up of the generator. For complete block diagram of MEG ,see figure.2.

5. Detailed description :
Fig.3 is a partly schematic front elevation of an electromagnetic generator 10, built to include a permanent magnet 12 to supply input lines of magnet flux moving from the north pole 14 of the magnet 12 outward into magnetic flux path core material 16. The flux path core material 16 is configured to form a right magnetic path 18 and a left magnetic 20, both of which extend externally between the north pole 14 and the south pole 22 of the magnet 12. The electromagnetic generator 10 is driven by means of a switching and control circuit 24, which alternately drives electrical current through a right input coil 26 and a left input coil 28. These input coils 26, 28 each extend around a portion of core material 16, with the right input coil 26 surrounding a portion of the right magnetic path 18 and with the left magnetic path 20.
Switching and COW»T>1 circuit
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magnetic generator
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A right output coil 29 also surrounds a portion of the right magnetic path 18, while a left output coil 30 surrounds a portion of the left magnetic path 20. The switching and control circuit 24 and the input coils 26, 28 are arranged and so that, when the right input coil 26 is energized, a north magnetic pole is present at its left end 31, the end closest to north pole 14 of the permanent magnet 12, and so that, when the left input coil 28 is energized, a north magnetic pole is present at its left end 31, the end closest to the north pole 14 of the permanent magnet 12, and so that, when the left input coil 28 is energized, a north pole is present at its right end 32, which is also the end closest to the north pole 14 of the permanent magnet 12. Thus, when the right input coil 26 is magnetized, magnetic flux from the permanent magnet 12 is repelled from extending through the right input coil 26.
Hinn-v
Similarly, when the left input coil 28 is magnetized, magnetic flux from the permanent magnet 12 is repelled from extending through the left input coil 28. Thus, it is seen that driving electrical current through the right input coil 26 opposes a concentration of flux from the permanent magnet 12 within the right magnetic path 18, causing at least some of this flux to be transferred to the left magnetic path 20. On the other hand, driving electrical current through the left input coil 28 opposes a concentration of flux from the permanent magnet 12 within the left path 20, causing at least some of this flux to be transferred to the right magnetic path 18.
While in the example of figure.3, the input coils 26, 28 are placed on either side of the north pole of the permanent magnet 12, being arranged along a portion of the core 16 extending from the north pole of the permanent magnet 12, it is understood that the input coils 26, 28 could as easily be alternately placed on either side of the south pole of the permanent magnet 12, with the input coils 26, 28 being wired to form, when energized, magnetic fields having south poles directed toward the south pole of the permanent magnet 12. In general, the input coils 26, 28 are arranged along the magnetic core on either side of an end of the permanent magnet forming a first pole, such as a north pole, with the input coils being arranged to produce magnetic fields of the polarity of the first pole directed toward the first pole of the permanent magnet. Further the input coils 26, 28 are never driven with so much current that the core material 16 becomes saturated. Driving the core material 16 to saturation means that subsequent increases in input current can occur without effecting corresponding changes in magnetic flux, and therefore that input power can be wasted.
In this way, this apparatus is provided with an advantage in terms of the efficient use of input power. In the electromagnetic generator 10, the switching of current flow within the input coils 26, 28 does not need to be sufficient to stop the flow of magnetic flux in one of the magnetic paths 18, 20 while promoting the flow of magnetic flux in other magnetic path. The electromagnetic generator 10 works by changing the flux pattern; it does not need to be completely switched from one side to another. Experiments have determined that this configuration is superior, in terms of the efficiency of using power within the input coils 26, 28 to generate electrical power within the output coils 29, 30, to the alternative of arranging input coils and the circuits driving them so that flux from the permanent magnet is driven through the input coils as they are energized. The right output coil 29 is electrically connected to a rectifier and filter 33, having an output driven through a regulator 34, which provides an output voltage adjustable through the use of a potentiometer 35. The output of the linear regulator 34 is in turn provided as an input to a sensing and switching circuit 36. Under start up conditions, the sensing and switching circuit 36 connects the switching and control circuit 24 to an external power source 38, which is, for example, a starting battery. After the electromagnetic generator 10 is properly started, the sensing and switching circuit 36 senses

that the voltage available from regulator 34 has reached a predetermined level, so that the power input to the switching and control circuit 24 is switched from the external power source to the output of regulator 34. After this switching occurs, the electromagnetic generator 10 continues to operate without an application of external power.
The left output coil 30 is electrically connected to a rectifier and filter 40, the output of which is connected to a regulator 42, the output voltage of which is adjusted by means of a potentiometer 43. The output of the regulator 42 is in turn connected to an external load 44.
6. Switching and control circuit :
Figure.4 shows schematic view of the first version of the switching and control circuit 24. An oscillator 50 drives the clock input of a flip-flop 54, with the Q and Q' outputs of the flip flop 54 being connected through driver circuits 56, 58 to power FETS 60, 62 so that the input coils 26, 28 are alternately driven. The voltage V applied to the Fig.5 shows a graphical view of the signals driving the gates of FETS 60, 62 of fig.4, with the voltage of the signal driving the gate 60 being represented by the line 64, and with the voltage of the signal driving FET 62 being represented by line 66.

Both of the coils 26, 28 are driven with positive voltages. Fig.6 is a schematic view of a second version of the switching and control circuit 24. In this version, an oscillator 70 drives the clock input of a flip-flop 72, with the Q, Q' outputs of the flip-flop 72 being connected to serve as triggers for one-shot 74, 76. The outputs of the one-shots 74, 76 are in turn connected through driver circuits 78, 80 to drive FETS 82, 84, so that the input coils 26, 28 are alternately driven with

shorter in
the Q and Q' the flip-flop

86
~LZn__rL_n__n
88
TLATI n n
Fig .7 : Graphical view of the signals (hiving
die gates of FETS 82,84 of Fig JS.
Fig.7 is a graphical view of signals driving the gates of FETS 82, 84 of Fig.4, with the voltage of the signal driving the gate of FET 82 being represented by line 86, and with the voltage of the signal driving the gate of FET 84 being represented by line 88.
Importance of pulse-width : Referring again to fig. 3, power is generated in the right output coil 29 only when the level of magnetic flux is changing in the right magnetic path 18, and in the left output coil 30 only when the level of magnetic flux is changing in the left magnetic path 20. It is therefore desirable to determine, for a specific magnetic generator configuration, the width of the pulse providing the most rapid practical change in magnetic flux, and then to provide this pulse width either by varying the frequency of the oscillator 50 of the apparatus of fig.4, so that this pulse width is provided with the signals shown in fig.5, or by varying the time constant of the one-shots 74, 76 of fig.6, so that this pulse width is provided by the signals of fig.7 at a lower oscillator frequency. In this way, the input coils are not left on longer than necessary. When either of the input coils is on for a period of time longer than that necessary to produce the change in flux direction, power is being wasted through heating within the input coil without additional generation of power in the corresponding output coil. 7.MERITS
1 .The foremost merit of this generator is we get output greater than that of input, thus making COP>1
2. No rotating parts and hence reducing its frictional losses
3. No external power is required during its operation
4. It is pollution free and thus eco-friendly also meeting the needs of the world's energy crisis.
9.REFERENCE:
1.The present paper is entirely based on the " Motionless Electromagnetic Generator ", us patent #6,362,718, Mar. 26,2002, granted to L.Patrick, T.Bearden, J.C.Hayes, Kenneth D. Moore, James

L. Kenny. The inventors gave full freedom to everyone to use the material for education, demonstration purposes but not for the commercial purposes.
2. Dr. Tom Bearden - cheniere - Website for Dr. Tom Bearden. This is a great
site for people who are interested in free energy theory and how it fits into classical
physics.
3.Electromagnetic Magnetic Fields by William Hayth 4. Switching theory and logic theory by Godsey
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18-12-2010, 05:06 PM


.ppt   A motionless electro magnetic generator.ppt (Size: 4.07 MB / Downloads: 163)
This article is presented by:
S.SOWJANYA
NCH.VISHNU PRIYA
MOTIONLESS ELECTROMAGNATIC GENERATOR

WHAT IS MEG?



OBJECTIVE?

The MEG is designed in such a way to get the coefficient of performance (COP) is well over unity (COP>1), i.e. which gives more output power than we input.

BASIC TERMINOLOGY

COEFFICIENT OF PERFORMANCE (COP):

Ratio of the work done on load (s) powered by the machine or circuit, divided by the work done on it by the operator to operate it.


EFFICIENCY:

Ratio of the work done on the loads (or the energy output
converter), divided by the total energy input to the device from all sources.



Principle of
operation

An electric
Current is
Produced with
a changing
Magnetic field.

EXPERIMENTAL RESULTS

The input coils were driven at an oscillator frequency of 87.5 KHz, which was determined to produce optimum efficiency using a switching control circuit configured .

This frequency has a period of 11.45 microseconds.

Input voltage=100v input current=14ma input power=14watts

Output voltage=400v output current=12ma output power=48watts


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05-02-2011, 02:02 PM

8mljdkgdf;lkg;sk;lgks[oeyl;sa,;kg;'sasgdnjkfk
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22-02-2011, 04:01 PM


.docx   motion_less_electromagnetic_generator.docx (Size: 373.65 KB / Downloads: 109)
Abstract
This paper is written to introduce one of therevolutionary apparatus in the world of freeenergy / overunity devices, namely MotionlessElectromagnetic Generator (MEG) [7].The majorobjective behind the invention of MEG is todesign a magnetic generator in which thegeneration of electricity is accomplished withoutmoving parts and moreover which eliminates aneed for an external power source during it’soperation. In other words it is the objective todesign a magnetic generator for which thecoefficient of performance (COP) is well overunity (COP>1), i.e. which gives more outputpower than we inputted. In this paper, how theseobjectives are achieved is explained with thehelp of first version of MEG.
1. Introduction
The electrical energy needs of the world areincreasing exponentially. At the same time, theworld’s oil supplies are peaking and will begradually decreasing, while becoming ever moreexpensive to obtain. The easily foreseeableresult is first a world energy crisis, now looming,followed by a world economic crisis as prices oftransportation, goods, etc. increases. MEG canresolve this crisis that is coming upon us. Notonly MEG but With all free energy systems andtechnologies, the increasing need for oil can beblunted and controlled, so that the economylevels off while at the same time additionalelectrical power is provided as needed. Some ofthe free energy technologies include Radiantenergy/ Cold Electricity, Permanent magnets,Mechanical heaters, Super-efficient electrolysis,Cold Fusion etc. These processes produce cleanelectrical power, do not require rivers, specialconditions for windmills and solar cells,hydrocarbon combustion, or nuclear fuel rodconsumption. They will provide clean (pollutionfree), cheap electrical energy anywhere, anytime,everywhere, and every time with no detrimentalimpact to the environment.
1.1. Goals of Every Free EnergyResearcher:
• Producing usable form of energy at afraction of its present cost, dependablyand reliably, and doing it easily andanywhere, to revolutionize the presentsystems with their wastes and pollution
.• To design power systems that willprovide a never-ending source forelectrical power and energy sodesperately needed by all the peoplesand nations of the earth.
1.2 Basic Terminology :
• Free Energy :- Excess energy freelyfurnished to a device from an externalsource of energy, so that all one needsto do to use the energy is to gate,collect, and distribute it to a load orloads, without utilizing it to close thegating mechanisms.
• Free Energy device :- A device thatreceives excess energy from an externalsource, gates it, and shuttles or shifts itto be distributed to one or more loads toperform work, without performing workto close the gating mechanism.
• Coefficient of performance (COP) :-Ratio of the work done in load(s)powered by the machine or circuit,divided by the work done on it by theoperator to operate it. Does not apply toa self powering (closed loop) machineor circuit
.• Efficiency :- Ratio of the work done inthe loads (or the energy output of aconverter), divided by the total energyinput to the device from all sources. Nosystem can have efficiency>1.0.
2. Permanent Magnets
Harnessing the invisible force calledMagnetism has already changed the world. It hasgiven us electricity, radio, television, computers,and thousands of other things. But it’s greatest giftto mankind is yet to be realized. Magnetism canprovide a source of inexhaustible, pollution-freeenergy. In the last 120 years, dozens of inventorshave reported success in harnessing magnetism toproduce excess mechanical energy, electricity, andheat. With permanent magnets getting stronger andcheaper, all the time more and more researchers areprobing the unknown properties of magnetism Thedevice under consideration, MEG, also, utilizes thepermanent magnets to produce cop>1.0. Let usstart our original discussion.
3. MEG
3.1 Principle of operation :

MEG operates in accordance with, very wellknown law in the electrical engineering literature,an extension of Faraday’s law, indicating that anelectrical current is induced within a conductorwithin a changing magnetic field, even if thesource of the magnetic field is stationary.
3.2 Construction and operation :
From the above, we can observe that thisdevice works on the principle of transformer ratherthan on the principle of generator. Not only in theprinciple but in construction also it resembles witha transformer. It consists of a permanent magnet,two magnetic paths external to the permanentmagnet, each of which extends between theopposite poles of the permanent magnet, switchingmeans for causing magnetic flux to flow alternately along each of the two magnetic paths, one ormore output coils in which current is induced toflow by means of change in magnetic fieldwithin the device. See figure.1, for basic setup ofMEG.Fig.1, shows an electromagnetic generatorincluding a permanent magnet, a magnetic core,first and second input coils, first and secondoutput coils, and a switching circuit. Thepermanent magnet has magnetic poles atopposite ends. The magnetic core includes a firstmagnetic path, around which the first input andoutput coils extend, and a second magnetic path,around which the second input and output coilsextend, between opposite ends of the permanent magnet. Theswitching circuit drives electrical currentalternately through the first and second inputcoils. The electrical current driven through thefirst input coil causes the first input coil toproduce a magnetic field opposing aconcentration of magnetic flux from thepermanent magnet within the first magnetic path.The electrical current driven through the secondinput coil causes the second input coil to producemagnetic flux opposing a concentration of3magnetic flux from the permanent magnet withinthe second magnetic path.The essential function of the magnetic portionof an electrical generator is simply to switchmagnetic fields in accordance with precise timing.In most conventional applications of magneticgenerators, the voltage is switched across coils,creating magnetic fields in the coils which are usedto override the fields of permanent magnets, so thata substantial amount of power must be furnished tothe generator to power the switching means,reducing the efficiency of the generator. In thepresent apparatus, the path of the magnetic fluxfrom a permanent magnet is switched in a mannernot requiring the overpowering of the magneticfields. Furthermore, a process of self –initiatediterative switching is used to switch the magneticflux from the permanent magnet between alternatemagnetic paths within the apparatus, with thepower to operate the iterative switching beingprovided through a control circuit consisting ofcomponents known to use low levels of power.With self switching, a need for an external powersource during the operation is eliminated, with aseparate power source, such as battery, being usedonly for a very short time during start-up of thegenerator
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03-03-2011, 04:58 PM

please send full report of meg i need to give technical reprentation
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to get information about the topic "MOTIONLESS ELECTROMAGNETIC GENERATOR" full report ppt and related topic refer the link bellow

topicideashow-to-motionless-electromagnetic-generator-download-ppt-abstract

topicideashow-to-motionless-electromagnetic-generator

topicideashow-to-motionless-electromagnetic-generator-download-ppt-abstract?page=3
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please give more info about this project and implimentation
give more info about this project and implimentation immediately
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to get information about the topic "motionless electromagnetic generator" full report ppt and related topic refer the link bellow

topicideashow-to-motionless-electromagnetic-generator-download-ppt-abstract

topicideashow-to-motionless-electromagnetic-generator

topicideashow-to-motionless-electromagnetic-generator-download-ppt-abstract?page=3
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PLS GIVE ME VIEW ABOUT THESE TOPIC ,FOR PROJECT ie equipments,and operation
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