US727331A - Receiver for electromagnetic waves. - Google Patents

Description

No. 727,331. PATENTED MAY 5, 1903. R. A. FESSENDEN. RECEIVER FOR ELEGTROMAGNETIG WAVES.

APPLICATION FILED APR. 9, 1903.

2 SHEETS-SHEET 1.

1:0 MODEL.

Fill]- INVENTOI mu F N0. 727,331. PATENTED MAY 5, 1903.

R. A. PEssmmEN. RECEIVER FOR ELECTROMAGNETIC WAVES.

APPLIUATION FILED APR. 9, 1903. NO MODEL. 2 SHEETS-SHEET 2 FIG] WITNESSES: INVENTOI Patented May 5,. 190:

i ll arnrvr @i ricn;

itEGlNrllillA. rnssnuonu, on rir'rsnuno, PENNSYLVANIA.

.HWER FOG ELECTROMAGNETiC WAVES.

ISPLECIFICZMEIOD! forming part of Letters Patent 0. 727,331, dated May 5, 1903.

Application filed April 9, 1903.

To all client 7'23 'nmy col/11'2".- r v Be it known that l, REGINALD A. l'nssnv DEN, a citizen o the United States, residing at- Pittsburg, in the county of Allegheny and btato of'Pcnnsyl-vania, have invented or 'discovered certain new and useful 1m provemcnis in Receivers for l T ch-omaguetic haves, of which improvements the following is a speci' lication.

The invention described herein relates to certain improvements in currcntactuated wave-responsive devices of the class or kind described and claimed in Letters Patent No. "idllfi il, granted to me August 12, 1902, and adapted to be so affected by currents generated byelectromagnetic waves as to produce a change in or variation of the conductivity of thereceiving-circuit, of'which said device forms a part.

The invention is hereinafter scribed and claimed.

intheaccompanying drawings, forming a part of this specification, Figure 1 isa sectional view of a form of receiver embodying my improvement. 2, 3, 4, and 5 are similar views of modified forms of receiver, and Fig. (i is a d agrammatic view illustrating the mode of operation Figs. 7 and 8 illustrate further modifications in the construction of the receiver.

It is char cteristic ot' the hot-Wire receiver described in the above patentreferred to, and which has been termed a I the energy of the electromagnetic waves is utilized to heata body of small mass, and hence requires a small amount of energy to be heated to such an extent as to change its electrical conductivity. Heretofore metals, especially platinum and silver, have been used, as described in the patent referred to; but it has been found that substances other than metals are available 'for this purpose, more especially liquids, and of the latter class preferably electrolytes have given even bettor commercial results following reasons:

more fully deiirst, for the reason that liquids are not by reason of their nature injured by excessive dischargcs;-secoud, because the specific resistance higher, in some cases as much as a million times greater, than that of metals, and con-' eloquently to obtain the same resistance a act even more of the receiver.'

barretter, that" than metals, for the,

of liquids is much Serial No. 151,867 on) model.)

very much smaller mass, which is capable .of

being heated to a much larger extent, maybe u used; third, because the amount of of resistance per degree of centigrade is very much greater-for example, the resistance of sulfuric acid when not quite concentrated changes approximatclytwelve percent. per

change degree centigrade, while the chance in plati-'- 6o b com is only about one-third of one per cent.

described in the patent be broken while it is immersed in nitric acid itwill nevertheless efficiently than before, and hence a barretter may be formed consisting of two thin platinum wiresf? and 3, as shown in Fig. 1, having their liquid contained in asuitable vessel 4 and forming, together with such liquid, a part of a receiving-circuit, including an indicating device 5. This barretter may be connected ends immersed in a either directlyor indirectly with a receivingvertical 1. A second method is to moisten a minute fiber-for example, a cottonthread+- and to use it as the loop of a barretter. A desirable construction for this form of barretter is shown in Fig. 2 and consists ofa fiber loop 6, having one end immersed in a liquid, which will be caused to travel along the fiber by capillary action and maintain the fiber in a saturated condition. A third method consists in forming a minute'holc through a diaphragm 7, conveniently done by drawing down a very thin capillary tube'to about three one-t-liousandths (.003) of an inch internal diameter, cementing it into a hole in the center of a thick grinding off the ends of the glass tube until they are flush with the surface of the dia phragm. The diaphragm is so arranged in a suitable vessel 4 as to form a partition between two portions of the solution in the cup 100 or holder shown in Fig. 3, said portions be iug thus separated except by the thiucolumn of the liquid contained iii-the capillary tube,

said column forming the barretter. A terglass disk, and then o sphere is indicated in Fig.

minal 9, preferably of platinum, connected to the vertical, is immersed in one portion of the liquid, and a second terminal 10, preferably of platinum also, is connected to ground 5 and has one end immersed in the other portion of the liquid.v These platinum wires, with the liquid, are to be connected either di rectly in series with the vertical or in the secondary of a transformer, and the barret- 1o ter thus formed is adapted to be used in the manner described in prior patents granted to me. A fourth method is to connect two platinum wires by a thin film or small body of conducting liquid, as indicated in Fig. 4.

x5 This can be done conveniently by inserting the wires into a bubble 11, formed of such liquid. A fifth method is'to insert a small piece 12, of platinum orsimilar material,

into a liquid, such as nitric acid, so that only its point is immersed. Fig. 5 shows such an arrangement, the platinum wire being covered with silver. They-silver wire has a diameter of about .003 of an inch, and the platinum core inclosed therein has a diameterof about .00004 of an inch. The silver is removed or eaten off from thelower extremity, and the platinum core projects into the solution of nitric acid. This solution of nitric acid, which preferably contains nitrous acid, is 39 covered by a layer of kerosene-oil, so as to prevent evaporation of the acid and to prevent the platinum from being fused. A second platinum wire 13is also immersed in the liquid, preferably byinsertingit through the bottom of the vessel 4, and these wires are connected to thovertical and to ground and also included in the indicating-circuit.

It follows-from the well-known electrical formula giving the resistance of a cylindrical 40 body in a conducting medium that practically all the resistance is concentrated within a short distance of the point Where the platinum wire 12 projects into the acid. For example, if the platinum has a diameter of .00004' of an'inch, and it is immersed in the acid to a depth of .00002 of an inch, practicallyIall the temperature effected will take place inside ofa hemisphere of liquid whose radius is .00004 of an inch. Such a hemi- 6, where 2 represents the tip of the platinum, and 14 represents the hemisphere referred to.

is true will be seen by considering a second hemispheric shell 14, having the thickness of $5 .00004of an inch outside of the hemisphere 15, The quantity of liquid in this shell 14 will be more than eight times that in the shell 15, ,and consequently it will take eight times the amount of heat to raise it to this same extent.

At the same time the resistance of the shell 14 will be roughly the same as that of 15. Hence it follows that the effect of the shell 14 will .be'only one-eighth that of 15, and consequently that although the effect of the different parts of the liquid within the boundary of 15 does not vary much and allparts.

are almost equally efficient, as soon as we .If, however,

That this pass the boundary of 15 theelfectof the variations of liquid beyond the, boundary begins almost entirely by the size of the disk, and by the conductivity of the copper sheet; while it is not affected except to an unappreciable extent by the distance between them. As shown in Fig. 7, the terminal 12 may be insorted through the bottom of the vessel 4, in which case an indicating liquid, such as bisulfid of carbon, having a greater specific gravity than the nitric acid is used in connection with the latter. As indicated in Fig. 8, the wire 12 may be surrounded with glass, so as to prevent any gas given 0E from adhering to the wire, and thereby decreasing its effective area.

The arrangement of circuits used with the liquid barretter is practically the same as that with the metal barretter described in the patentreferred to.

It is found. that certain liquids act better than othersas, for example, though carbonate of soda, caustic soda, nitrate of potash, and other substances give good results, it is preferred to use nitric acid,f or the reason that the effects are stronger with it than with most other liquids, and in the case of aburnout it is sufficient to screw down the platinum wire until it is again immersed. The' burn-out is not liable to occur, on account of the cooling effect of the liquid on the wire. When using silver-coated platinum wire, the screwing down of the wire into the nitric acid will subject the silver to the action of ,the acid, which will remove it from the platinum. a high voltage-e. g., seven er eight-be used in the local circuit, carbonate of soda will give larger effect than nitric acid.

It is to be noted that-in the case of the liquid barretter the action of the e'lectromag netic waves is to cause a greater current to pass in the local curcuit, owing to the fact that the conductivity of electrolytes increases instead of decreases with heat.- With a liquid barretter having a resistance of between six hundred and two thousand ohms the increase of conductivity when the liquid is heated is so marked as to permit of the operation of a siphonrecorder or relay, though a telephone'may he used.

-' It is tobe noted that there are several distinct methodshnwhich metaland liquid can be used in conjunction to form a receiver for electromagnetic waves. First, the caseofa conductor,such as oxidized silver, in contact with aliquid like mercury,where the action is apparently a true coherer action caused by the voltage produced by the electromagnetic waves brcakingdown the insulatin -oxid 'and making a good electrical contact between the silver and mercury. This effect does not oc- IIO our and is not utilized in my form of liquid barretter, for, in the first place, the resistance of the apparatus, if constant and definite, does not alter by shock or jar, returns to the same value no matter what the strength of the wave, and an entirely new piece of wire immersed to the same depth when a burnout has occurred allows the same current to pass as any other similar piece of wire. Again, the increase of conductivity is always the same in amount under the same conditions and is exactly what calculations show should be produced by the heating of the liquid. Secondly, the change of resistance is exactly proportional to the energy of the electromaguetic waves, thus differing from the operacausing the bubble of due to the change in resistance.

tion' of the coherer. Third, if the size of the platinum wire be increased, the efiect falls off very rapidly, as it should do according to theory, while in the case of coherer this is not true.

A second method of sing liquid and metal is illustrated in Fig. 3 of Letters Patent No. 706,738, dated August 12, 1902, for rectifying the alternating currents produced by the electromagnetic waves. This effect does not occur when using my improved form of receiver, as may be readily shown by substituting such receiver for the electrolytic cell shown in the patent, in which case no such rectification will be found to occur. The evident reason for this is the fact that the resistance of the liquid barretter is so arranged as to absorb the energy and not to allow any of it to pass through. The energy by being absorbed none of it can be rectified. A second reason is that the polarization capacity of the barretter I of such rectification. A third proof of this consists in the fact that the signals are obtained almost as well when both terminals consist of similar pieces of platinum, in which case, according to theory, no rectification.

:A third method consists in utilizing the'de polarization of the electrode caused by the heating of the liquid. While there is'no doubt that such an effect is probably produced, itis masked, and when in actual working practically the entire effect seems to be An effect which appears when the voltage of the local circuit is raised to such a point as to cause the gases to bubble off from the point gives rise to a fourth method. \Vhcn this is the case, the waves effect an increase in resistance instead of diminution, possibly by first gas to be deposited, which decreases the area of contact between the liquid and the platinum wire; This action is, however, irregular and occurs only is too small to permit" there should be at a certain critical point, and as it does not always occur and regularly it is not available for actuating anindicating mechanism.

While the liquid receiver will work well no matter which pole is, connected to' the platinum, it is found in practice that better results are obtained when the platinum point is made negative, probably because bubbles of gas which may come ofi. are dissolved in the liquid and tend to maintain the conductivity.

I claim herein as my invention- 1. A receiver for electromagnetic waves having a small heat capacity and consisting of a small quantity of liquid, substantially as set forth.

2. A receiver for electromagnetic waves consisting of a small quantity of liquid, the conductivity of which isaffeeted by the action of electromagnetic Waves, substantially as set forth. 7

3. A receiver for electromagnetic waves consisting of asmall quantity of'liquid adapted to have its resistance decreased by the action of electromagnetic waves, substantially as set forth.

4. A receiver for electromagnetic waves consisting of a material increasable in conductivity by currents produced by electromagnetic waves, substantially as set forth.

5. A receiver for electromagnetic waves consisting of a liquid and rapidly responsive as regards temperature to effects produced by electromagnetic waves, substantially as set forth.

6. A receiver for electromagnetic waves consisting of a small quantity of nitric acid, substantinlly as set forth.

7. A receiver for electromagnetic waves, having in combination asmall quantity of nitric acid, and terminals formedofplatinum lOO immersed in said liquid, substantially as set forth.

8. A receiver for electromagnetic waves having all its contacts perfect contacts and formed of a material increasable in conductivity by currents produced by electromagnetic waves, substantially as set forth.

9. A receiver for electromagnetic waves, having in combination a small quantity of nitric acid, and terminals formed of platinum immersed in said liquid, the positive terminal having an external covering, substantially as set forth.

In testimony whereof I have hereunto set my hand.

REGINALD A. rssssnonu.

'Witnesses:

JESSIE E. BENT, T. L. ScLA'l'En.

Images