US1336378A - Antenna with distributed positive resistance - Google Patents
Antenna with distributed positive resistance Download PDFInfo
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- US1336378A US1336378A US53493A US5349315A US1336378A US 1336378 A US1336378 A US 1336378A US 53493 A US53493 A US 53493A US 5349315 A US5349315 A US 5349315A US 1336378 A US1336378 A US 1336378A
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- resistance
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q9/00—Electrically-short antennas having dimensions not more than twice the operating wavelength and consisting of conductive active radiating elements
- H01Q9/04—Resonant antennas
- H01Q9/30—Resonant antennas with feed to end of elongated active element, e.g. unipole
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- MICHAEL I. 1 UPI -I a citizen of the United States, residin in necticut, and EDWIN H. ARMs'rRoNc, a citizen of the United States, residing in Yonkers county of Westchester, State of New York, have invented certain new and useful Improvements in Antennae with DlS- tributed Positive Resistance, and-we"d6 hereby declare the following to be a full,
- the invention relates to receiving wave conductors which are loaded with resistance in order to screen them againstthe disturbing effects of electrical waves, and particularly those waves which have the character of electrical pulses of short duration, known in the'art as atmospherics or strays.
- receiving antenna in wireless transmissions will diminish the effects of disturbing waves and pulses, but it will also diminish to the same degree the effect of the waves which are to be received, unless the introduced resistance is properly placed.
- This invention gives definite rules which enable one skilled in the art to distribute the introduced resistance so that it will diminish the effect of disturbing waves more than of the waves which are to be received.
- Figure 1 represents a wireless antenna in which the introduced resistance is uniformly distributed over linear part 3 of the antenna
- Fig. 2 represents a wireless antenna in which the added high resistance is divided into a number of parts, 5, 6, 7,. 18 which are placed at approximately equal intervals over the antenna.
- Fig. 1 which represents an antenna in which the resistance is uniformly distributed over its linear part 3, the transformer 1, 2 transmits the electromotive force impressed upon the antenna to the receiving translating devices.
- the primary 1 of this transformer connects the antenna to ground at 4.
- the effective resistance for waves to be received is a fractional part only of the total resistance, whereas for electrical pulses of short duration the effective resistance is substantially equal to the total resistance of the antenna.
- the effective resistance is also greater than for vaves which are to be received.
- This adcontaining a hot cathode 43 and a cold anode 39, between which a direct current flows, and a third electrode or grid 44 between them modifying the normal direct current between the hot cathode and the cold anode.
- the received oscillations acting in the exciting circuit 2, 36, 38, excite the valve, and release energy in the output circuit 39, 40, 41, 21, and under proper conditions a portion of this released energy is transferred through the transformer 21, 22 into the antenna.
- This produces in the antenna a negative resistance reaction capable of reducing the resistance of 4, 22, 1, 5, 3, to any predetermined limit for waves of selected frequency.
- the resistance compensator will have to neutralize less than one tenth of the total resistance of the antenna.
- the usual detecting arrangement is diagrammatically illustrated by the transformer winding 45 and a detector 46.
- Fig. 2 of the drawings the linear antenna 4, 1, 19 carries resistances 5, 6, 7, 8, 9, etc., placed at substantially equidistant intervals, and the length of these intervals is small in comparison with the wave length of the highest frequency, the waves against which the introduced resistance is to act as a screen.
- a wire will act with respect to these waves like a perfectly uniform wire represented in Ihe introduction'of high resistance into a wave conductor will act as an efiicient screen if it not only reduces the amount of electromagnetic energy which a wave can deposit upon the conductor but also diminishes the transmission of the deposited energy from the antenna to the translating devices.
- This last function is best accomplished by taking a large part, say'a quarter, of the total introduced resistance and placing it at the lower terminal of the linear antenna. This upon the conductor by the received signals.
- a receiving conductor for wireless wave transmission having a resistance load sufficiently high to screen the system effectively against disturbing electromagnetic waves impressed upon the conductor, the said resistance load being distributed along the conductor with substantial uniformity with respect to the wave lengths developed upon the conductor by the received signals, and a resistance compensator connecte to the conductor and adapted to reduce its effective resistance to any predetermined limit for the received signals.
- a receiving conductor for wireless wave transmission having a resistance load sufficiently high to screen the system effectively against disturbin electromagnetic waves impressed upon the conductor, the said resistance load being distributed along the conductor with substantial uniformity with respect to the wave lengths developed upon the conductor by the received signals, and a resistance compensator connected to the conductor and adapted to reduce its effective resistance to any predetermined limit for the received signals, and a conductor of high resistance interposed between is indicated in Fig. 1 and Fig. 2 by"'tiEe1ehe receiving conductor and the resistance ment 5. This represents a large resistance.
- a receiving conductor for wireless wa've transmission having a resistance load sufficiently high to screen the.system effectively against disturbing electromagnetic waves impressed upon the conductor, the said resistance load being distributed along the conductor with substantial uniformity compensator.
- a receiving conductor for wireless wave transmission having a resistance load sufiiciently high to screen the system effectively against disturbing electromagnetic waves impressed upon the conductor, the said resistance load being distributed in separate units along the conductor at intervals which are small in comparison with the wave units developed upon the loaded conductor by the received signals.
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Description
M. I. PUPIN AND E. H. ARMSTRONG.
ANTENNA WITH DISTRIBUTED POSITIVE RESISTANCE. APPLICATION FILED OCT; 1, I915. RENEWED .IUNI: 20,1919.
Patented Apr. 6, 1920.
. VENT 0f? ATTORNEYS Norfolk, county of Litchfield, State of UNITED STATES PATENT OFFICE.
MICHAEL I. PUPIN, 0F NORFOLK, CONNECTICUT, AND EDWIN I-I. ARMSTRONG, OF
' YONKERS, NEW YORK.
ANTENNA WITH DISTRIBUTED POSITIVE RESISTANCE.
Specification of Letters Patent.
Application filed October 1, 1915, Serial No. 53,493. Renewed June 20, 1919. Serial No. 305,706.
To all whom it may concern:
Be it known that we, MICHAEL I. 1 UPI -I, a citizen of the United States, residin in necticut, and EDWIN H. ARMs'rRoNc, a citizen of the United States, residing in Yonkers county of Westchester, State of New York, have invented certain new and useful Improvements in Antennae with DlS- tributed Positive Resistance, and-we"d6 hereby declare the following to be a full,
clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same.
The invention relates to receiving wave conductors which are loaded with resistance in order to screen them againstthe disturbing effects of electrical waves, and particularly those waves which have the character of electrical pulses of short duration, known in the'art as atmospherics or strays. A
resistance introduced into the receiving conductor, called receiving antenna in wireless transmissions, will diminish the effects of disturbing waves and pulses, but it will also diminish to the same degree the effect of the waves which are to be received, unless the introduced resistance is properly placed.
This invention gives definite rules which enable one skilled in the art to distribute the introduced resistance so that it will diminish the effect of disturbing waves more than of the waves which are to be received.
Referring to diagrams of the drawings which form part of this specification,
Figure 1 represents a wireless antenna in which the introduced resistance is uniformly distributed over linear part 3 of the antenna,
Fig. 2 represents a wireless antenna in which the added high resistance is divided into a number of parts, 5, 6, 7,. 18 which are placed at approximately equal intervals over the antenna.
Referring to Fig. 1, which represents an antenna in which the resistance is uniformly distributed over its linear part 3, the transformer 1, 2 transmits the electromotive force impressed upon the antenna to the receiving translating devices. The primary 1 of this transformer connects the antenna to ground at 4. We find that in such an antenna the effective resistance for waves to be received is a fractional part only of the total resistance, whereas for electrical pulses of short duration the effective resistance is substantially equal to the total resistance of the antenna. For harmonically varying waves which are not to be received and for which the antenna is not tuned, the effective resistance is also greater than for vaves which are to be received. This adcontaining a hot cathode 43 and a cold anode 39, between which a direct current flows, and a third electrode or grid 44 between them modifying the normal direct current between the hot cathode and the cold anode. The received oscillations acting in the exciting circuit 2, 36, 38, excite the valve, and release energy in the output circuit 39, 40, 41, 21, and under proper conditions a portion of this released energy is transferred through the transformer 21, 22 into the antenna. This produces in the antenna a negative resistance reaction capable of reducing the resistance of 4, 22, 1, 5, 3, to any predetermined limit for waves of selected frequency. As 'an illustration, consider a vertical antenna 500 feet high. Let its capacity be 10 farads. By introducing 3X10 ohms into the antenna, and preferably uniformly distributed over it, its effective resistance for an electromotive force of 3X10 P. I. S. will be only 28 10 ohms. The resistance compensator will have to neutralize less than one tenth of the total resistance of the antenna. The usual detecting arrangement is diagrammatically illustrated by the transformer winding 45 and a detector 46.
In practice it is more convenient to introduce the high resistance in lumps, since a uniform wire of the length of an antenna and having several hundred thousand ohms resistance is difficult to obtain. A wire-hav with respect to the wave lengths developed ing a resistance distributed over it in lumps will act like a perfectly uniform wire of the same total resistance, if the lumps are so I spaced that there are several per wave 7 to be considered.
length of the waves, the action of which is This construction is illustrated in Fig. 2 of the drawings. In this figurethe linear antenna 4, 1, 19 carries resistances 5, 6, 7, 8, 9, etc., placed at substantially equidistant intervals, and the length of these intervals is small in comparison with the wave length of the highest frequency, the waves against which the introduced resistance is to act as a screen. Such a wire will act with respect to these waves like a perfectly uniform wire represented in Ihe introduction'of high resistance into a wave conductor will act as an efiicient screen if it not only reduces the amount of electromagnetic energy which a wave can deposit upon the conductor but also diminishes the transmission of the deposited energy from the antenna to the translating devices. This last function is best accomplished by taking a large part, say'a quarter, of the total introduced resistance and placing it at the lower terminal of the linear antenna. This upon the conductor by the received signals.
2. A receiving conductor for wireless wave transmission having a resistance load sufficiently high to screen the system effectively against disturbing electromagnetic waves impressed upon the conductor, the said resistance load being distributed along the conductor with substantial uniformity with respect to the wave lengths developed upon the conductor by the received signals, and a resistance compensator connecte to the conductor and adapted to reduce its effective resistance to any predetermined limit for the received signals.
3. A receiving conductor for wireless wave transmission having a resistance load sufficiently high to screen the system effectively against disturbin electromagnetic waves impressed upon the conductor, the said resistance load being distributed along the conductor with substantial uniformity with respect to the wave lengths developed upon the conductor by the received signals, and a resistance compensator connected to the conductor and adapted to reduce its effective resistance to any predetermined limit for the received signals, and a conductor of high resistance interposed between is indicated in Fig. 1 and Fig. 2 by"'tiEe1ehe receiving conductor and the resistance ment 5. This represents a large resistance.
- introduced in a single lump at the point where the antenna is connected to the local receiving transformer 1, 2. Its functionis to dissipate the electromagnetic energy during its passage from the antenna to the re-' ceiving apparatus.
What we claim is:
1. A receiving conductor for wireless wa've transmission having a resistance load sufficiently high to screen the.system effectively against disturbing electromagnetic waves impressed upon the conductor, the said resistance load being distributed along the conductor with substantial uniformity compensator.
4.. A receiving conductor for wireless wave transmission having a resistance load sufiiciently high to screen the system effectively against disturbing electromagnetic waves impressed upon the conductor, the said resistance load being distributed in separate units along the conductor at intervals which are small in comparison with the wave units developed upon the loaded conductor by the received signals.
In testimony whereof we aflix our signatures.
MICHAEL I. PUPIN. EDWIN H. ARMSTRONG.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US53493A US1336378A (en) | 1915-10-01 | 1915-10-01 | Antenna with distributed positive resistance |
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US53493A US1336378A (en) | 1915-10-01 | 1915-10-01 | Antenna with distributed positive resistance |
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US1336378A true US1336378A (en) | 1920-04-06 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11588421B1 (en) | 2019-08-15 | 2023-02-21 | Robert M. Lyden | Receiver device of energy from the earth and its atmosphere |
US12136824B2 (en) | 2023-02-09 | 2024-11-05 | Robert M. Lyden | Device for receiving and harvesting energy from the earth and its atmosphere |
-
1915
- 1915-10-01 US US53493A patent/US1336378A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11588421B1 (en) | 2019-08-15 | 2023-02-21 | Robert M. Lyden | Receiver device of energy from the earth and its atmosphere |
US12136824B2 (en) | 2023-02-09 | 2024-11-05 | Robert M. Lyden | Device for receiving and harvesting energy from the earth and its atmosphere |
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