US 685956 A
Description (OCR text may contain errors)
No; 685,956; Patented Nov. 5, l90l. N. TESLA.
APPARATUS FOR UTILIZING EFFECTS TRANSMITTED THROUGH NATURAL MEDIA.
(Application filed Nov. 2, 1899. Renewed May 29, 1901.)
(No NI odal.)
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NIKOLA TESLA, OF NEW YORK, N. Y.
APPARATUS FOR UTILIZING EFFECTS TRANSMITTED THROUGH NATURAL MEDIA.
SPEOIFIGATION forming part of Letters Patent No. 685,956, dated November 5, 1901 Original application filed August 1,1899, Serial No. 725,749. Divided and this application filed November 2,1899. Renewed May 29,1901. Serial No. 62,318. (No model.)
To aZZ whom it may concern:
Be it known that I, NIKOLA TESLA, a citizen of the United States, residing at New York city, in the county and State ofNew York, have invented a new and useful Improvement in Apparatus for Utilizing Effects Transmitted from a Distance to a Receiving Device Through the Natural Media, of which the following is a specification, reference being had to the accompanying drawings, which form a part of the same.
The subject of my present invention is an improvement in the art of utilizing effects transmitted from a distance to a receiving device through the natural media; and it consists in the novel apparatus hereinafter described.
This application is a division of one filed by me August 1, 1899, Serial No. 725,749, and based upon and claiming the method herein described and which maybe practiced by the use of the apparatus forming the subject of this application.
My invention is particularly useful in connection with methods and apparatus for operating distant receiving devices by means of electrical disturbances produced by proper transmitters and conveyed to such receiving devices through the natural media; but it ohviously has a wider range of applicability and may be employed, for example, in the investigation or utilization of terrestrial, solar, or other disturbances produced by natural causes.
Several ways or methods of transmitting electrical disturbances through the natural media and utilizing them to operate distant receivers are now known and have been ap-' plied with more or less success for accomplishing a variety of useful results. One of these ways consists in producing by a suitable apparatus rays -0r radiationsthat is, disturbances-which are propagated in straight lines through space, directing them upon a receiving or recording apparatus at'a distance, and thereby bringing the latter into action. This method is the oldest and best known and has been brought particularly into prominence in. recent years through the investigations of Heinrich Hertz. Another method consists in passing a cnrrentthrough a circuit, preferably one inclosing a very large area, inducing thereby in a similar circuit situated at a distance another current and affecting by the same in any convenient way a receiving device. Still another way, which has also been known for many years, is to pass in any suitable manner a current through a portion of the ground, as by counecting to two points of the same, preferably at a considerable distance from each other, the two terminals of a generator and to energize by a part of the currentdiifusedthrough the earth a distant circuit, which is similarly arranged and grounded at two points widely apart and which is made to act upon a sensitive receiver. These various methods have their limitations, one especially, which is common to all, being that the receiving circuit or instrument must be maintained in a definite position with respect to the transmitting apparatus, which often imposes great disadvantages upon the use of the apparatus.
In several applications filed by me and patents granted to me I have disclosed other methods of accomplishing results of this nature, which may be briefly described as follows: In one system the potential of a point or region of the earth is varied by imparting to it intermittent or alternating electrifications through one of the terminals of a suitable source of electrical disturbances, which, to heighten the effect, has its other terminal connected to an insulated body, preferably of large surface and at an elevation. The electrifications communicated to the earth spread in all directions through the same, reaching a distant circuit, which generally has its terminals arranged and connected similarly to those of the transmitting source and operates upon a highly-sensitive receiver. Another method is based upon the fact that the atmospheric air, which behaves as an excellent insulator to currents generated by ordinary apparatus, becomes a conductor under the influence of currents or impulses of enormously high electromotive force, which I have devised means for generating. By such means air strata, which are easily accessible, are rendered available for the production of many desired effects at distances however great. This method, furthermore, allows advantage to be taken of many of those improvements which are practicable in the ordinary systems of transmission involving the use of a metallic conductor.
Obviously whatever method be employed it is desirable that the disturbances produced by the transmitting apparatus should be as powerful as possible, and by the use of certain forms of high frequency apparatus, which I have devised and which are now well known, important practical advantages are in this respect secured. Furthermore, since in most cases the amount of energy conveyed to the distant circuit is but a minute fraction of the total energy emanating from the source it is necessary for the attainment of the best results that whatever the character of the receiver and the nature of the disturbances as much as possible of the energy conveyed should be made available for the operation of the receiver, and with this object in view I have heretofore, among other means, employed a receiving-circuit of high self-induction and Very small resistance and of a period such as to vibrate in synchronism with the disturbances, whereby a number of separate impulses from the source were made to cooperate, thus magnifying the effect exerted upon and insuring the action of the receiving device. By these means decided advantages have been secured in manyinstances; but very often the improvement is either not applicable at all, or, if so, the gain is very slight. Evidently when the source is one producing a continuous pressure or delivering impulses of long duration it is impracticable to magnify the effects in this manner, and when, on the other hand, it is one furnishing short impulses of extreme rapidity of succession the advantage obtained in this way is insignificant, owing to the radiation and the unavoidable frictional Waste in the receiving-circuit. These losses reduce greatly both the intensity and the number of the cooperative impulses, and since the initial intensity of each of these is necessarily limited only an insignificant amount of energy is thus made available for a single operation of the receiver. As this amount is consequently dependent on the energy conveyed to the receiver by one single impulse, it is evidently necessary to employ either a very large and costly, and therefore objectionable, transmitter, or else to resort to the equally objectionable use of a receiving device too delicate and too easily deranged. Furthermore, the energy obtained through the cooperation of the impulses is in the form of extremely rapid vibrations and because of this unsuitable for the operation of ordinary receivers, the more so as this form of energy imposes narrow restrictions in regard to the mode and time of its application to such devices. To overcome these and other limitations and disad vantages that have heretofore existed in such systems of transmission of signals or intelligence and to render possible an investigation of impulses or disturbances propagated through the natural media from any kind of source and their practical utilization for any purpose to which they are applicable, I have devised a novel method,which I have described in a pending application, filed June 24, 1899, Serial No. 721,790, and which, broadly stated, consists in effecting during any desired time interval a storage of energy derived from such impulses and utilizing the potential energy so obtained for operating a receiving device.
My present invention is intended for the same general purposes, and it comprises another apparatus by means of which similar results may be obtained.
The chief feature which distinguishes the method of my present from that of my former invention, just referred to, is that the energy stored is not, as in the former instance, obtained from the energy of the disturbances or effects transmitted from a distance, but from an independent source.
Expressed generally, the present method consists in charging a storage device with energy from an independent source, controlling the charging of said device by the action of the efiects or disturbances transmitted through the natural media, and coincidently using the stored energy for operating a receiving device.
A great variety of disturbances, produced either by suitably-constructed transmitters or by natural causes, are at present known to be propagated through the natural media, and there are also a variety of means or devices enabling energy to be stored, and in View of this I wish to say that I consider the utilization of any such disturbances and the employment of any of these means as within the scope of my present invention so long as the use of the general method hereinbefore stated is involved.
The best way of carrying out myinvention which I at present know is to store electrical energy obtained from a suitable electrical generator in a condenser and to control the storage or the application of this energy by means of a sensitive device acted upon by the effects or disturbances, and thereby cause the operation of the receiver.
In the practical application of this method I usually proceed as follows: At any point Where I desire to investigate or to utilize for any purpose effects or disturbances propagated through the natural media from any kind of source I provide a suitable generator of electricity-as, for example, a battery and a condenser-which I connect to the poles of the generator in series with a sensitive de vice capable of being modified in its electrical resistance or other property by the action of the disturbances emitted from the source. To the terminals of the condenser I connect the receiver which is to be operated in series with another device of suitable construction, which performs the function of periodically discharging the condenser through the receiver at and during such intervals of time as may be best suitable for the purpose contemplated. This latter device may merely consist of two stationary electrodes separated by a feeble dielectric layer of minute thickness, but suflicient to greatly reduce or practically interrupt the current in the circuit under normal conditions, or it may comprise terminals one or more of which are movable and actuated by any suitable force and are adapted to be brought into and out of contact with each other in any convenient manner. The sensitive device may be any of the many devices of this kind which are known to be affected by the disturbances, impulses, or effects propagated through the media, and it may be of such a character that normally that is, when not acted upon-it entirely prevents the passage of electricity from the generator to the condenser, or it may be such that it allows a gradual leaking through of the current and a charging of the condenser at a slow rate. In any case it will be seen that if the disturbances, of whatever nature they may be, cause an appreciable diminution in the electrical resistance of the sensitive device the current from the battery will pass more readily into the condenser, which will be charged ata more rapid rate, and consequently each of its discharges through the receiver, periodically efiected by the special device before referred to which performs this function, will be stronger than normallythat is, when the sensitive device is not acted upon by the disturbances. Evidently then if the receiver be so adjusted that it does not respond to the comparatively feeble normal discharges of the condenser, if they should occur, but only to those stronger ones which take place upon the diminution of the resistance of the sensitive device it will be operated only when this device is acted upon by the disturbances, thus making it possible to investigate and to utilize the latter for any desired purpose.
The general principle underlying my invention and the operation of the various devices used will be clearly understood by reference to the accompanying drawings, in which- Figure 1 is a diagram illustrating a typical arrangementof apparatus which may be used in carrying my method into practice, and Figs. 2, 3, 4, and 5 similar diagrams of modified arrangements of apparatus for the same purpose.
In Fig. 1, O is a condenser, to the terminals '1 and T of which is connected a chargingcircuit, including a battery 13, a sensitive device a, and a resistance r, all connected in series, as illustrated. The battery should be preferably of very constant electromotive force and of an intensity carefully determined to secure the best results. The resistance 7", which may be a frictional or an inductive one, is not absolutely necessary; but it is of advantage to use it in order to facilitate adjustment, and for this purpose it may be made variable in any convenient and preferably continuous manner. Assuming that the disturbances which are to be investigated or utilized for some practical end are rays identical with or resembling those of ordinary light, the sensitive device a may be a selenium cell properly prepared,so as to be highly susceptible to the influence of the rays, the action of which should be intensified by the use of a reflector A. (Shown in the drawings.) It is well known that when cells of this kind are exposed to such rays of greatlyvarying intensity they undergo correspondin g modifications of their electrical resistance; but in the ways they have been heretofore used they have been of very limited utility.
In addition to the circuit including the sensitive device or cell a another circuit is provided,which is likewise connected to the terminals T T of the condenser. This circuit, which may be called the receivingcircuit, includes the receiver R and in series with it a device cl, before referred to, which performs the duty of periodically discharging the condenser through the receiver. It will be noted that, as shown in Fig. 1, the receiving-circuit is in permanent connection with the battery and condenser-terminal T, and it should be stated that it is sometimes desirable to entirely insulate the receiving circuit at all times, except the moments when the device at operates to discharge the condenser, thus preventing any disturbing influence which might otherwise be caused in this circuit by the battery or the condenser during the period when the receiver should not be acted upon. In such a case two devices, as (1, may be used, one in each connection from the condenser tothe receiving-circuit, or else one sin gle device of this kind,but of a suitably-modified construction, so that it will make and break simultaneously and at proper intervals of time both of the connections of this circuit with the condenser T and T.
From the foregoing the operation of the apparatus, as illustrated in Fig. 1, will be at once understood. Normally-t-hat is, when it is not influenced by the rays at all or very slightly-the cell a, being of a comparatively high resistance, permits only a relatively feeble current to pass from the battery into the condenser, and hence, the latter is charged at too slow a rate to accumulate during the time interval between two succeeding operations of the device d sufficient energy to operate the receiver or, generally speaking, to
produce the required change in the receivingcircuit. This condition is readily secured by a proper selection and adjustment of the various devices described, so that the receiver will remain unresponsive to the feeble discharges of the condenser which may take place when the cell a is acted upon but slightly or not at all by the rays or disturbances; but if now new rays are permitted to fall upon the cell or if the intensity of those already acting n pon it be increased by any cause then its resistancewill be diminished and the condenser will be charged by the battery at a more rapid rate, enabling sufficient potential energy to be stored in the condenser during the period of inaction of the device cl to operate the receiver or to bring about any desired change in the receiving-circuit when the device 01 acts. If the rays acting upon the cell or sensitive device a are varied or intermitted in any arbitrary manner, as when transmitting intelligence in the usual way from a distant station by means of short and long signals, the apparatus may readily be made to record or to enable an operator to read the message, since the receiver-supposing it to be an ordinary magnetic relay, for example-will be operated by each signal from the sending-station a certain number of times, having some relation to the duration of each signal. It will be readily seen, however, that if the rays are varied in any other way, as by impressing upon'them changes in intensity, the succeeding condenser discharges will undergo corresponding changes in intensity, which may be indicated or recorded by a suitable receiver and distinguished irrespectively of duration.
With reference to Fig. 1 it may be useful to state that the electrical connections of the various devices illustrated may be made in many different ways. For instance, the sensitive device instead of being in-series, as shown, may be in a shunt to the condenser, this modification being illustrated inflFig. 3, in which the devices already described are indicated by siinilarletters to correspond with those of Fig. 1. In this case it will be observed that the condenser, which is being charged from the battery B through the resistance r, preferably inductive and properly related to the capacity of the condenser, will store less energy when the sensitive device a is energized by the rays, and its resistance thereby diminished. The adjustment of the various instruments may then be such that the receiver will be operated only when the rays are diminished in intensity or interrupted and entirely prevented from falling upon the sensitive cell, or the sensitive device may beplaced, as shown in Fig. 4, in a shuntto the resistance r or inserted in any suitable way in the circuit containing the receiverfor example, as illustrated in Fig. 5in both of which figures the various devices are lettered to correspond with those in Fig. 1, so that the figures become self-explanatory Again, the several instruments may be connected in the manner of aWheatstone bridge, as will be hereinafter explained with reference to Fig. 2, or otherwise connected or related; but in each case the sensitive device will have the same duty to perform-thatis, to control the energy stored and utilized in some suitable way for causing the operation of the receiver in correspondence with the intermittances 0r variations of the effects or disturbances-and in each instance by a judicious selection of the devices and careful adjustment the advantages of my method may be more or less completely secured. I find it preferable, however, to follow the plan which I have illustrated and described.
It will be observed that the condenser is an important element in the combination. I have shown that by reason of its unique properties it greatly adds to the efficacy of this method. It allows the energy accumulated in it to be discharged instantaneously, and therefore in a highly effective manner. It magnifies in a large degree the current supplied from the battery, and owing to these features it permits energy to be stored and discharged at practically any rate desired, and thereby makes it possible to obtain in the receiving-circuit very great changes of the current'strength by impressing upon the battery-current very small variations. Other means of storage possessing these characteristics to a useful degree may be employed without departing from the broad spirit of myinvention; but I prefer to usea condenser, since in these respects it excels any other storage device of which I have knowledge.
In Fig. 2 a modified arrangement of apparatus is illustrated which is particularly adapted for the investigation and utilization of very feeble impulses or disturbances, such as may be used in conveying signals or producing other desired eflfeots at very great distances. In this case the energy stored in the condenser is passed through the primary of a transformer, the secondary circuit of which contains the receiver, and in order to render the apparatus still more suitable for use in detecting feeble impulses, in addition to the sensitive device which is acted upon by the impulses, another such device is included in the secondary circuit of the transformer. The scheme of connections is in the main that of a VVheatstone bridge, the four branches of which are formed by the sensitive device a and resistances L, L, and L, all of which should be preferably inductive and also adjustable in a continuous manner, or at least by very small steps. The condenser O, which is generally made of considerable capacity, is connected to two opposite points of the bridge, while a battery B, in series with a continuous- -ly-adjustable non-inductive resistance r, is
connected to the other pair of opposite points, as usual. The four resistances included in the branches of the bridge-namely, a, L, L, and L-are of a suitable size and so proportioned that under normal conditions-that is, when the device Ct is not influenced at all or only slightly by the disturbances-there will difference effectively to the sensitive device a the terminals of the same are connected to two plates P and P, which should be of as large a surface as practicable and so located in the media that the largest possible difference of potential will be produced by the disturbances between the terminals of the sensitive device. This device is in the present case one of familiar construction, consisting of an insulating-tube, which is indicated by the heavy lines in the drawings and which has its ends closed tightly by two conductingplugs with reduced extensions, upon which bear two brushes 1) I), through which the currents are conveyed to the device. The tubular space between the plugs is partially filled with a conducting sensitive powder, as indicated, the proper amount of the same and the size of its grains being determined and adjusted beforehand by experiment. This tube I rotate by clockwork or other means at a uniform and suitable rate of speed, and under these conditions I find that this device behaves toward disturbances of the kind before assumed in a manner similar to that of a stationary cell of celenium toward rays of light. Its electrical resistance is diminished when it is acted upon by the disturbances and is automatically restored upon the cessation of their influence. It is of advantage to employ round grains of powder in the tube, and in any event it is important that they should be of as uniform size and shape as possible and that provision should be madefor maintaining an unchanging and very dry atmosphere in the tube. To the terminals T and T of the condenser G is connected a coil 2;, usually consisting of a few turns of a conductor of very small resistance,'which is the primary of the transformer before referred to, in series'with'a device d, which effects the discharge of the condenser through the coil 1) at predetermined intervals of time. In the present case this device consists of a cylinder made partly of conducting and partly of insulating material 6 and a, respectively, which is rotated at the desired rate of speed by any suitable means. The conducting part e is in good electrical connection with shaft S and is provided with tapering segments, as f, upon which slides a brush k, which should preferably be capable of longitudinal adjustment along the cylinder. Another brush b, which is connected to the condenser-terminal T, being arranged to bear upon the shaft S, it will be seen that whenever the brush it comes in contact with a conducting-segment e the circuit including the primary 19 will be completed and the condenser, if energized, discharged through the same. By an adj ustment of the speed of rotation of the cylinder and a displacement of the brush it along the axis of the same the circuit may be made to open and close in as rapid succession and remain open or closed during such intervals of time as maybe desired. In inductive relation to the primaryp is a secondary coils, usually of much thinner wire and of many more turns than the former, to which are connected in a series a receiver R, illustrated as an ordinary magnetic relay, a continuously-adjustable non-inductive resistance 1", a battery B of a properly-determined and very constant electromotive force, and finally a sensitive device a of the same or similar construction as a, which is likewise rotated at a uniform speed and which, with its brushes 1) Z)", closes the secondary circuit. The electromotive force of the battery B is so graduated by means of the adjustable resistance 7' that the dielectric layers in the sensitive device a are strained very nearly to the point of breaking down and give way upon a slight increase of the electrical pressure on the terminals of the device. It will of course be understood that the resistance 0" is used mainly because of convenience and that it may be dispensed with, in which case the adjustment may be effected in many other ways, as by determining the proper amount or coarseness of the sensitive powder or by varying the distance apart of the metallic plugs in the ends of the tube. The same may be said of the resistance 7", which is in series with the battery B and serves to graduate the force of the latter, so that the dielectric layers of the sensitive device a are subjected to a similar strain and maintained in a state of delicate poise. i
The various instruments being connected and adjusted in the manner described, it will now be readily seen from the foregoing that under normal conditions, the device a being unaffected by the disturbances, or practically so, and therebeing no or only a very insignificant amount of energy stored in the condenser, the periodical closure of the primary circuit of the transformer through the operation of the device (1 will have no appreciable effect upon the primary coil 1), and hence no currents will be generated in the secondary coil s, at least not such as would disturb the state of delicate balance existing in the secondary circuit including the receiver, and
therefore the latter will not be actuated by the battery B; but when, owing to the disturbances or impulses propagated through the media from a distant source, an additional electromotive force, however small, is created between the terminals of the device a the dielectric layers in the same, unable to support the increased strain, give way and allow the current of the battery 13 .to pass through, thus causing a difference of potential at the terminals T and T of the condenser. Asufficient amount of energy being now stored in this instrument during the time interval between each two succeeding operations of the device (1, each closure of the primary circuit by the latter results in the passage of a sudden current impulse through the coil 19, which induces a corresponding current of relatively high electromotive force in the secondary coil 8. Owing to this the dielectric in the device a gives way, and the current of the battery I3 being allowed to pass the receiver R is operated, but only for a moment, since by the rotation of the devices ct, a, and d, which may be all driven from the same shaft, the original conditions are restored, assuming, of course, that the electromotive force set up by the disturbances at the terminals of the sensitive device a is only momentary or of a duration not longer than the time of closure of the primary circuit; otherwise the receiver will be actuated a number of times and so long as the influence of the disturbances upon the device a continues. In order to render the discharged energy of the condenser more effective in causing the operation of the receiver, the resistance of the primary circuit should be very small and the secondary coil 3 should havea number of turns many times greater than that of the primary coil 1). It will be noted that since the condenser under the above assumptions is always charged in the same direction the strongest current impulse in the secondary coil, which is induced at the moment when the brush comes in contact with segment 6, is also of unchanging-direction, and for the attainment of the best re sults it is necessary to connect the secondary coil so that the electromotive force of this impulse will be added to thatof the battery and will momentarilystrengthen the same. However, under certain conditions,which are well understood by those skilled in the art, the devices will operate whichever way the secondary be connected. It is preferable to make the inductive resistances L and L relatively large, as they are in a shunt to the device a and might, if made too small, impair its sensitiveness. On the other hand, the resistance L" should not be too large and should be re- 1ated to the capacity of the condenser and the number of makes and breaks effected bythe device (Z in well-known ways. Similar considerations apply, of course, to the circuits including the primary 1) and secondary 5, respectively. r
By carefully observing well-known rules of scientific design and adjustment of the instruments the apparatus may be made extremely sensitive and capable of responding to the feeblest influences, thus makingit possible to utilize impulses or disturbances transmitted from very great distances and too feeble to be detected or utilized in any of the ways heretofore known, and on this account the method here described lends itself to many scientific. and practical uses of great value.
Obviously the character of the devices and the manner in which they are connected or related may be greatly variedwithout departing from the spirit of my invention.
What I claim as new, and desire to secure by Letters Patent, is-
1. In an apparatus for utilizing effects or disturbances transmitted through the natural media from a distant source, the combination of an electrical storage device, a chargingcircuit connected therewith and including a device sensitive to the action of the effects or disturbances and determining under their control the flow of current in the chargingcircuit, a receiving-circuit including a receiver, and means-for periodically discharging the storage device through the receiving circuit, substantially as described.
2. In an apparatus for utilizing effects or disturbances transmitted through the natural media from a distantsource, the combination of a condenser, a charging-circuit connected therewith and including a source of electricity and a devicesensitive to the action of the effects or disturbances and determining under their control the flow of current in the charging-circuit, a receiving-circuit including a receiver, and means for periodically discharging the condenser through the receiving-circuit, substantially as described.
3. In an apparatus for utilizing effects or disturbances transmitted through the natural media from a distant source, the combination of a circuit including a source of electricity, a storage device adapted to be charged thereby-and a device normally of very high resistance but adapted to have its resistance reduced when acted upon by the efiects or disturbances, with a receiving-circuit connected withthe storage device and including a receiver and a device adaptedto open and close the receiving-circuit at predetermined interval-s of time, substantially as described.
4:. In an apparatus for utilizing effects or disturbances transmitted through the natural media from a distant source, the combination of a circuit including a source of electricity, a condenser and a device normally of very high resistance but adapted to have its resistance reduced when acted upon by the effects or disturbances, with a receiving-circuit connected with the condenser and including a receiver and a device adapted to open and close the receiving-circuit at predetermined intervals of time, substantially as described.
5. In an apparatus for utilizing effects or disturbances transmitted from a distant source, the combination of a circuit including a source of electricity, a storage device adapted to be charged thereby and a device, normally of very high resistance but adapted to have its resistance reduced when acted upon by the effects or disturbances, with a receivin g-circuit connected with the storage device and including the primary of a transformer and a device adapted to open and close such second circuit at predetermined intervals of time, and a receiver included in the secondary of the transformer, substantially as described.
6. In an apparatus for utilizing effects or disturbances transmitted from a distant source, the combination of an electrical stor age device,a charging-circuit connected therewith and including a device sensitive to the action of the effects or disturbances and determining under their control the flow of the current in the charging-circuit, and a receiving-circuit supplied with energy from the storage device and including a receiver and a device sensitive to electrical variations in the rcceivingcircuit, substantially asdescribed.
7. In an apparatus for utilizing effects or disturbances transmitted through the natural media from a distant source, the combination of a condenser, a charging-circuit connected therewith and including a device sensitive to the action of the effects or disturbances and determining under their control the flow of the current in the charging-circuit, and a receiving-circuit supplied with energy from the condenser and including a receiver and a device sensitive to electrical variations in the receiving-circuit, substantially as described.
8. In an apparatus for utilizing effects or disturbances transmitted through the natu ral media from a distant source, the combination ,of a circuit, an independent local source of electricity included therein, a storage device connected with the said circuit and adapted to receive energy from the said source, a device normally of very high resistance, but
adapted to have its resistance reduced when acted upon by-the effects or disturbances, a receiving-circuit connected with the storage device, a transformer, the primary of which is included in said receiving-circuit, a device adapted to open and close the receiving-circuit at predetermined intervals of time, a receiver, and a device, normally of very high resistance, but adapted to have its resistance reduced when acted upon by the effects or disturbances, and included in the secondary circuit of the transformer, as set forth.
9. In an apparatus for utilizing effects or; disturbances transmitted from a distant source, the combination with a storage device and an independent source of energy for charging the same, of a receiving-circuit connected with the storage device, a device sensitive to the effects or disturbances and de termining under their control the flow of on 1'- rent in the receiving-circuit, substantially as set forth.
10. In an apparatus for utilizing effects or disturbances transmitted through the natural media from a distant source, the combination with a storage device and an independent source of energy for charging the same, of a receiving-circuit connected with the storage device, a device sensitive to the eifects or disturbances and adapted to have its resistance varied by the action thereon of such effects or disturbances and determining under their control the flow of current in the receiving-circuit, substantially as set forth.
11. In an apparatus for utilizing effects or disturbances transmitted from a distant source, the combination of a storage device, a battery or similar independent source of energy for charging the same, a sensitive device adapted to have its resistance varied under the influence of the effects or disturbances, a receiver adapted to be operated by the discharge of the storage device, the sensitive device being in one branchof a Wheatstoue bridge, the storage device in one of the cross connections between two opposite points of the bridge, and the battery in the other cross connection, and resistances L, L and L in the three remaining branches of the bridge, as set forth.
12. In an apparatus for utilizing effects or disturbances transmitted through the natural media from a distant source, the combination of a storage device, a battery or like independent source of energy for chargingthe same, a sensitive device adapted to have its resistance varied under the influence of the effects or disturbances, a circuit connected with the terminals of the storage device, a transformer having its primary in said circuit and a receiver in the secondary circuit of the transformer, the sensitive device being in one branch of a Wheatstone bridge, the storage .device in one ofthe cross connections between opposite points of the bridge and the battery in the other cross connection, and resist-ances L, L and L in the-three remaining branches of the bridge, as set forth.