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US645576A - System of transmission of electrical energy. - Google Patents

System of transmission of electrical energy.
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US645576A
US645576AUS65034397DUS1897650343DUS645576AUS 645576 AUS645576 AUS 645576AUS 65034397 DUS65034397 DUS 65034397DUS 1897650343 DUS1897650343 DUS 1897650343DUS 645576 AUS645576 AUS 645576A
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-. SYSTEII 0F TRAB IIIIIIIIIIIIIIIIIIIIIIIII Y.
' d 20, I90 I N. TEN-A. Patenfe ylfiar 0 I To (all whom it may concern:
Be it known that I, NIKOLATESLA, acit iY-en UNITED STATES PATENT OFFICE.
NIKOLA TESLA, OF NE\V YORK, N. Y.
SYSTEM OF TRANSMISSION OF ELECTRICAL ENERGY;
SPECIFICATION forming part of Letters Patent No. 645,576, dated March 20, 1900. Application filed September 2, 1897. Serial No. 650,343. (No model.) I
of the United States, residing at New York, in the county and State of New York, have invented certain new and useful Improvements in Systems of Transmission of ElectricalEnergy, of which the following is a specification, reference being had to the drawing accompanying and forming a part of thesame.
It has been well known heretofore that by rarefying the air inclosed in a vesselits insulating properties are impaired to such an extent that it becomes what may be considered as a true conductor, although one of admittedly very high resistance. The practical information in this regard has been derived from observations necessarily limited in their scope by the character of the apparatus or means heretofore known and the quality of the electrical effects producible. thereby. Thus it has been shown by William (-rookes in his classical researches, which have so far served as the chief source of knowledge of this subject, that all gases behave as excellent insulators until rare lied to a point'correspon din g to a barometric pressure of about seventyfive millimeters, and even at this Very low pressure the discharge of a high-tension induction-coil passes through only a part of the attenuated gas in the form of a luminous thread or are, a still further and considerable diminution of the pressure being required to render the entire mass of the gas inclosed in a vessel conducting. While this is true in every particular so long as electromotive or current impulses such as are obtainable with ordinary forms of apparatusare employed, I have found that neither the general behavior of the gases nor the known relations between electrical conductivity and barometric pressure are in conformity with these observations when impulses are used such as are producible by methods and apparatus devised by me and which have peculiar and hitherto unobserved properties and are of effective electromotive forces, measuring many hundred thousands or millions of volts. Through the continuous perfectionof these methods and apparatus and the investigation of the 5c actions of these current impulses I have been unknown. Among these and bearing directly upon the subject of my present application are the following: First, that atmospheric or other gases, even under normal pressure,when' they are known to behave as perfect insulators, are in a large measure deprived of their dielectric properties by being subjected to the in fluence of electromotive impulses of the character and magnitude I have referred to and assume conducting and other qualities which have been so far observed only in gases greatly attenuated or heated to a high temperature, and, second,that the conductivity imparted to the air or gases increases very rapidly both with the augmentation of the-applied electrical pressure and with the. degree of rarefaction, the law in thislatter respect be ing, however, quite different from that heretofore established. In illustrationof these facts a few observations, which I have made with apparatus devised for the purposes here contemplated, may be cited. For example, a conductor or terminal, to which impulses such as those here considered are supplied, but which is otherwise insulated in space and is remote from any conducting-bodies, is surrounded by a luminous flame-like brush or discharge often covering many hundreds or even as much as several thousands of square feet of surface, this striking phenomenon clearly attesting the high degree of conductivity which the atmosphere attains under the influence of the immence electrical stresses to which it is subjected. This influence is, however, not confined to that portion of the atmosphere which is discernible by the eye as luminous and which, as has been the case in some in stances actually observed, may fill the space within a spherical or cylindrical envelop of a diameter of sixty feet or more, but reaches out to far remote regions,the insulating quali- 'tinuously enlarges as time goes on, and the discharge is allowed to pass not unlike a con-' 5 flagration which slowly spreads, this being possibly due to the gradual electrification or ionization of the air or to the formation of less insulating gaseous compounds. It is, furthermore, a fact that such discharges of extreme tensions, approximating those of lightning, manifest a marked tendency to pass upward away from the ground,which maybe due to electrostatic repulsion, or possibly to slight heating and consequent rising of the electrified or ionized air. These latter observations make it appear probable that a discharge of this character allowed to escape into the atmosphere from a terminal maintained at a great height will gradually leak through and establish a good conducting-path to more elevated and better conducting air strata, a process which possibly takes place in silent lightning discharges frequently witnessed on hot and sultry days. It will be apparent to what an extent the conductivity imparted to the air is enhanced by the increase ofthe electromotive force of the impulses when it is stated that insome instances the area covered by the flame discharge mentioned was enlarged 'more than sixfold by an augmentation of the electrical pressure, amounting scarcely to more than fifty per cent. As to the influence of -rarefaction upon the electric conductivity imparted to the gases it is noteworthy that, whereas the atmospheric,
or other gases begin ordinarily to manifest this quality at something like seventy-five millimeters barometric pressure with theimpulses of excessive electromotive force to which I- have referred, the conductivity, as already pointed out, begins even at normal pressure and continuously increases with the degree of tenuity of the gas, so that at, say, one hundred and thirty millimeters pressure, when the gases are known to be still nearly perfect insulators for ordinary clectromotive forces, they behave toward electromotive impulses of several millions of volts like excellent conductors, as though they were rarefied to a much higher degree. By the discovery of these facts and the perfection of means for producing in a safe, economical, and thoroughly-practicable manner current impulses of the character described it becomes possible to transmit through easily-accessible andonly moderately-rarefied strata of the atmosphere electrical energy not merely in insignificant quantities, such as are suitable for theoperv ation of delicate instruments and like purin its theoretical aspect and in its practical poses, but also in quantities suitable for industrial uses on alarge scale up'to practically any amount and, according to all the experimental evidence I have obtained, to any terrestrial distance. To conduceto a better understanding of this method of transmission of energy and to distinguish it clearly, both hearing, from other known modes of transmission, it is useful to state that all previous eiforts made by myself and others for transmitting electrical energy to a distance without the use of metallic conductors, chiefly with the object of actuating sensitive receivers, have been based, in so far as the atmosphere is concerned,upon those qualities which it possesses by virtue of its being an excellent insulator, and all these attempts would have been obviously recognized as ineffective if not entirely futile in the presence of a conducting atmosphere or medium. The utilization of any conducting properties of the air for purposes of transmission of energy,
has been hitherto out of the question in the absence of apparatus suitable for meeting the many and difficnlt requirements, although it has long been known or surmised that atmospheric strata at great altitudes-say fifteen or more miles above sca-level-are, or should be, ina measure, conducting; but assuming even that the indispensable means should have been produced then still a difficulty, which in the present state of the mechanical arts must be considered as iusuperable, would remain-namely, that of 'maintaining terminals at elevations of fifteen miles or more above the level of the sea. Through my discoveries before mentioned and the production of adequate means the necessity of maintaining terminals at such inaccessible altitudes is obviated and a practical method and system of transmission of energy through the natural media is aiforded essentially different from all those available up to the present time and possessing, moreover, this important practical advantage, that whereas in all such methods or systems heretofore used or proposed but a minute fraction of the total energy expended by the generator or transmitter was recoverable in a distant receiving apparatus by my method and appliances it is possible to utilize by far the greater portion of the energy of the source and in any localityhowever remote from the same.
Expressed briefly, my present invention, based upon these discoveries, consists then in producing at one point an electrical pressure of such character and magnitude as to,
cause thereby a current to traverse elevated strata of the air between the point of genera tion and a distant point at which the energy is to be received and utilized.
. In the accompanying drawing a general arrangement of apparatus is diagrammatically illustrated such as I contemplate employing in the carrying out of my invention on an industrial scale-as, for instance, for lighting distant cities or districts from places where cheap power is obtainable.
Referring to the drawing, A is a coil, generally of many turns and of 'a very large diameter, wound in spiral form either about a magnetic core or not, as may be found necessary. C is a second coil, formed of a conductor of. much larger section and smaller IIO transformer.
length,wound around and in proximity to the coil A. In the transmitting apparatus the coilA constitutes the high-tension secondary and the coil 0 the primary of much lower tension of a transformer. In the circuit of the primary 0 is included a suitable source of current G. One terminal of the secondary A is at the center of the spiral coil, and from this terminal the current is led bya conductor B to a terminal D, preferably of large surface, formed or maintained by such means as a balloon at an elevation suitable for the purposes of transmission, as before described. The other terminal of the secondary A is connected to earth and, if desired, also to the primary in order that the latter may be at substantially the same potential as the adjacent portions of the secondary,.thus insuring safety. At the receiving-station a transformer of similar construction is employed; but in this case the coil A, of relatively-thin wire, constitutes the primary and the coil 0', of thick wire or cable, the secondary of the In the circuit of the latter are included lamps L, motors M, or other devices for utilizing the current. The elevated terminal D is connected with the center. of the coil A, and the other terminal of said coil is connected to earth and preferably, also, to the coil 0 for the reasons above stated.
It will be observed that in coils of the character described the potential gradually increases with the number of turns toward the center, and the difference of potential between the adjacent turns being comparatively small a very high potential, impracticable with ordinary coils, may be successfully obtained. It will be, furthermore, noted that no matter to what an extent the coils may be modified in design and construction, owing to their general arrangement and manner of connection, as illustrated, those portions of the wire or apparatus which are highly charged will be out of reach, while those parts of the saine which are liable to be approached, touched, or handled will be at or nearly the same potential as the adjacent portions of the ground, this insuring, both in the transmitting and receiving apparatus and regardless of the magnitude of the electrical pressure used, perfect personal safety, which is best evidenced by the fact that although such extreme pressures of many millions of volts have been for a number of years continuous-1y experimented with no injury has been sustained neither by myself or any of my assistants.
The length of the'thin-wire coil in each transformer should be approximately onequarter of the wave length of the electric disturbance in the circuit, this estimate being based ,on the velocity of propagation of the disturbaiice through the coil itself and the circuit with which it is designed to be used. By Way of illustration if the rate at which the current traverses the circuit, including the coil, be one hundred and eighty-five thousand miles per second then a frequency of nine hundred and twenty five per second would maintain nine hundred and twenty-five stationary waves in a circuit one hundred and eighty-five thousand miles long-and each wave would be two hundred miles in length. For such a low frequency, to which I shall resort only when itds indispensable to operate motors of the ordinary kind under the conditions above assumed, I would use a secondary of fifty miles in length. By such an adjustment or porportioning of the length of wire in the secondary coil or coils the points of highest potential are made to coincide with the elevated terminalsD D, and it should be understood that whatever length be given to the wires this condition should be complied with in order to attain the best results.
I As the main requirement in carrying out my invention is to produce currents of an exeessively-high potential, this object will be facilitated by usinga primary current oi. very considerable frequency, since the electromo: tive force obtainable with a given length of conductor is proportionate to the frequency; but the frequency of the current is in a large measure arbitrary, for if the potential be sufiiciently high and if the terminals of the coils be maintained at the proper altitudes the action described will take place, and a current will be transmitted through the elevated air strata, which will encounter little and possibly even less resistance than ifconveyed through a copper wire of a practicable size. Accordingly the construction of the apparatus may be in many details greatly varied; butin order to enable any person skilled in the mechanical andelectrical arts to utilize to advantage in the practical applications" of my system the experience I have so far gained the following particulars of a model plant which has been long in use and which was constructed for the purpose of obtaining further data to be used in the carrying out of my invention on a large scale are given. The transmitting apparatus was in this case one of my electrical oscillators, which are transformers of a special type,now well known and characterized by the passage of oscillatory discharges of a condenser through the primary. The source G, forming one of the elements of the transmitter, was a condenser of a capacity of about four one-h undredths of a microfarad and was charged from a generator of alternating currentsof fifty thousand volts pressure and discharged by means of a mechanically-operated break five thousand times per second through the primary O. The latter consisted of a single turn of stout stranded cable of inappreciable resistance andof an inductance of about eight thousand centimeters, the diameter of the loop being very nearly two hundred and forty-four centimcters. The total inductance of the primary circuit was approximately ten thousand centimeters, so that the primary circuit vibrated generally. according to adjustment,
IIO
from two hundred and thirty thousand to two hundred and fifty thousand times per second. The high-tension coil Ain the form of a flat spiral was composed of fifty turns of heavilyinsulated cable No. 8 wound in one single layer, the turns beginning close to the primary loop and ending near its center. The outer end of the secondary or high-tension coil A was connected to the ground, as illustrated, while the free end was led to a terminal placed in the rarefied airstratum through which the energy was to be transmitted, which was contained in an insulating-tube of alength of fifty feet or more, within which a barometric pressure varying from about one hundred and twenty to one hundred and fifty millimeters was maintained by means of a mechanical suction-pump. The receivingtransformer was similarly proportioned, the ratio of conversion being the reciprocal of that of the transmitter, and the primary hightension coil A was connected, as illustrated, with the end near the low-tension coil to the ground and with the free end to a wire or plate likewise placed in the rarefied air stratum and at the distance named from the transmitting-terminal. The primary and secondary circuits in the transmitting apparatus being carefully synchronized,an electromotive force from two to four million volts and more was obtainable at the terminals of the secondary coilA, the discharge passing freely through the attenuated air stratum maintained at the above barometric pressures, and it was easy under these conditions to transmit with faireconomy considerable amounts of energy, such as are of industrial moment, to the receiving apparatus for supplying from i the secondary coil 0' lamps L or kindred devices. The results were particularly satisfactory when the primary coil or system A, with its secondary O, was carefully adjusted, so as to vibrate in synchronism with the transmitting coilor system A C. I have, however, found no difiiiculty in producing with apparatus of substantially the same design and construction electromotive forces exceedstance, not so much due to a large ratio of transformation as to the joint elfect of the capacities. and inductances in the synchronized circuits, which effect is enhanced bya high frequency, and it'will be obviously up- The high electromotive force ob- ,tained at the terminals of coil or conductor A was, as will be seen, in the preceding inderstood that if thelatter be reduced a greater ratio of transformation should be resorted to, especially in cases in which it may be deemed of advantage to suppress as much as possible, and particularly in the transmitting-coil A, the rise of pressure due to the above effect and to obtain the necessary electromotive force solely by a large transformation ratio.
While electromotive forces such as are produced by the apparatus just described may be suflicient for many purposes to which my system will or may be applied, I wish to state that I contemplate using in an industrial undertaking of this kind forces greatly inexcess of these, and with mypresent knowledge and experience in this novel field I would estimate them to range from twenty to fifty million volts and possibly more. By the use of these much greater forces larger amounts of energy may be conveyed through the atmosphere to remote places or regions, and the distance of transmission may be thus extended practically without limit.
As to the elevation of the terminals D D it is obvious that it will be determined by a number of things, as by the amount and quality of the work to be performed, by the local I density and other conditions of the atmosphere, by the character of the surrounding country, and such considerations as may present themselves in individual instances. Thus if' there be high mountains in the vicinity the terminals should be at a greater height, and generally they should always be, if practicable, at altitudes much greaterthan those of the highest objects near them in order to avoid as much as possible the loss by leakage. In some cases when small amounts of energy are required the high elevation of the terminals, and more particularly of the receivingterminal D, may not be necessary, since, especially when the frequency of the currents is very high, a sufficient amount of energy may be collected at that terminal by electrostatic induction from the upper air strata, which are rendered conducting by the active terminal of the transmitter or through which the currents from the same are conveyed.
With reference to the facts which have been pointed out above it will be seen that the altitudes required for the transmission of considerable amounts of electrical energy in accordance with this method are such as are easily accessible and at which terminals can be safely maintained, as by the aid of captive balloons supplied continuously with gas from reservoirs and held-in position securely by steel wires or by any other means, devices, or expedients, such as may be contrived and perfected byingenious and skilled engineers. From my experiments and observg tions I conclude that with electromotive impulses not greatly exceeding fifteen or twenty million volts the energy of many thousands of horse-power may be transmitted over vast distances, measured by many hundreds and even thousands of miles, with terminals not more than thirty to thirty-five thousand feet above the level of the sea, and even this comparatively-small elevation will be required chiefly for reasons of economy, and, if desired, it may be considerably reduced, since by such means as have been described practically any potential that is desired may be obtained, the currents through the air strata may be rendered very small, whereby the loss in the transmission may be reduced.
It will be understood that the transmitting as well as the receiving coils, transformers, or other apparatus may be in some cases movable-as, for example, when they are carried by vessels floating in the air or by ships at sea. In such a case, or generally, the connection of one of the terminals of the hightension coil 01' coils to the ground may not be permanent, but may be intermittently or inductively established, and any such or similar modifications I shall consider as within the scope of my invention.
While the description here given contemplates chiefly a method and system of energy transmission to a distance through the natural media for industrial purposes, the principles which I have herein disclosed and the apparatus which I have shown will obviously have many othervaluable uses-as, for instance, when it is desired to transmit intelligible messages to great distances, or to illuminate upper strata of the air, or to produce, designedly, any useful changes in the condition of the atmosphere, or to manufacture from the gases of the same products, as nitric acid, fertilizing compounds, orthe like, by the action of such current impulses, for all of which and for many other valuable purposes they are eminently suitable, and I do not wish to limit myself in this respect. Obviously, also, certain features of my invention here disclosed will be useful as disconnected from the method itself-as,-for example, in
other systems of energy transmission, for
whatever purpose they may be intended, the
transmitting and receiving transformers arranged and. connected as illustrated, the feature of a transmitting and receiving coil or conductor, both connected to the ground and to an elevated terminal and adjusted so as to vibrate in synchronism, the proportioning of such conductors or coils; as abovespecified', the feature of. a receiving-transformer with its primary connected to earth and to an elevated terminal and having the operative devices inits secondary, and other. features or particulars, such as have been deseribed in this specification or will readily 1. The method hereinbefore described of transmitting electrical energy through the,
natural media, which consists in producing at a generating-station a very high electrical pressure, causing thereby a propagation or flow of electrical energy, by conduction, through the earth and the air strata, and collecting or receiving at a distant point the electrical energy so propagated or caused to flow.
2. The method hereinbefore described of transmitting electrical energy, which consists in producing at a-generating-station a very high eleclrical'prcssm'e, conducting the current caused thereby to earth and to a terminal at an elevation at which the atmosphere serves as a conductor therefor, and collecting the current by a second elevated terminal at a distance from the first.
3. The method hereinbefore described of transmitting electrical energy through the natural media,-which consists in producing between the earth and a generator-terminal elevated above the same, at a generating-station, a sufficiently-high electromotive force to render elevated air strata conducting, causing thereby a propagation or flow of electrical energy, by'conduction, through the air strata,
' and collecting or receiving at a point distant from the generating station the electrical energy so propagated or caused to flow.
4. The method hereinbefore described of transmitting electrical energy through the natural media, which consists in producing between the earth and a generator-terminal elevated above the-same, at a gen crating-station, a sufficiently-high electromotive force to render the air strata at or near the elevated terminal conduct'ing,causin g thereby a propagation or How of electrical energy, by conduction, through the air strata, and collecting or receiving at a point distant from the generating-station the electrical energy so propa gated or caused to flow.
ICC
5. The method hereinbefore described of transmitting electrical energy through the natural media, which consists in producing between-the earth and a. generator-terminal elevated above the same, at a generating-station, electrical impulses of a sui'liciently-high point distant from the generating-station, the energy of the current impulses by means of a circuit synchronized with the impulses.
G. The method hercinbetorc described of transmitting electrical energy through the natural media, which consists in producing between the earth and a generator-terminal elevated above the same, at a generating-station, electrical impulses of a sufliciently-high electromotive force to'render the air strata at or near the elevated terminal conducting, causing thereby current impulses to pass through the air strata, and collecting or receiving at a point distant from the generating-station the energy of the current impulses by means of a circuit synchronized with the impulses.
'7. The method hereinbefore described of transmitting electrical energy through the natural media, which consists in producing between the earth and a generator-terminal elevated above the same, at a generatingstation, electrical impulses of a wave length so related to the length of the generating circuit or conductor as to produce the maximum potential at'the elevated terminal, and of sufficiently-high electromotive force to render elevated air strata conducting, causing thereby a propagation of electrical impulses through the air strata, and collecting or receiving at a point distant from the generating-station the energy of such impulses by means of a receiving-circuit having a-length of conductor similarly related to the wave length of the impulses.
8. The method hereinbefore' described of transmitting electrical energy through the natural media, which consists in producing between the earth and agenerator-terminal elevated above the same, at a generating-station, a sufiiciently-high electromotive force to render elevated air strata conducting, causin g thereby a propagation or flow of electrical energy through the air strata, by conduction, collecting or receiving the energy so transmitted by means of a receiving-circuit at a point distant from the generating station, us ing the receiving-circuit to energize a secondary circuit, and operating translating devices by means of the energy so obtained in the secon'dary circuit.
9. The method hereinbefore described of transmitting electrical energy through the natural media, which consists in generating current impulses of relatively-low electromotive force at a generating-station, utilizing such impulses to energize the primary of a transformer, generating by means of such primary circuit impulses in a secondary surrounding by the primary and connected to the earth and to an elevated terminal, of sufficientlyyhigh electromotive force to render elevated air strata conducting, causing thereby impulses to be propagated through the air strata, collecting or receiving the energy of such impulses, at .a point distant from the generating-station, by means of a receivingcircuit connected to the earthand to an elevated terminal, and utilizing the 'energy so received to energizeasecondary circuitof low potential surrounding the receiving-circuit.
' NIKOLA TESL'A.
Witnesses: M. LAWsoN DYER, G. W. MARTLING.
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GB189724421A (en)1898-03-26
CH15542A (en)1898-06-15

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