US1907653A - Short wave receiver - Google Patents
Short wave receiver Download PDFInfo
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- US1907653A US1907653A US430154A US43015430A US1907653A US 1907653 A US1907653 A US 1907653A US 430154 A US430154 A US 430154A US 43015430 A US43015430 A US 43015430A US 1907653 A US1907653 A US 1907653A
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- Prior art keywords
- antenna
- circuit
- receiver
- short wave
- wave receiver
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- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03H—IMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS; RESONATORS
- H03H2/00—Networks using elements or techniques not provided for in groups H03H3/00 - H03H21/00
- H03H2/005—Coupling circuits between transmission lines or antennas and transmitters, receivers or amplifiers
- H03H2/008—Receiver or amplifier input circuits
Definitions
- My present invention relates to radio receivers, and more particularly to circuit arrangements for the reception of radio frequency signals, especially adapted for short wave work.
- the efiects of the swaying of theantenna upon the reception may be mlnim zed to any desired degree by loose coupllng of the
- the influences due to resonance points of the antenna upon the readiness or ability to oscillate of the receiver and the operation of the set are thus not sufficiently reduced.
- the antenna is coupled so loosely that its resonance points will no longer affect the oscillating ability of the receiver set, this would result in a considerable reduction in volume of the receiver set.
- This difliculty is obviated by inserting between the antenna and the receiver a system or connection comprising ohmic resistances having a characteristic impedance which is so chosen that it-will be as closely adapted as possible to the average antenna impedances arising at the different incoming wave lengths, on
- Fig. 1 shows a receiver embodying my invention, a 7
- Figs. 2a and 2?) show receivers embodying modified forms of the invention.
- Fig. 1 illustrates the fundamental principle of the invention.
- a grounded antenna A is connected through ohmic recuit of the tube including a utilization device 8, as a speaker or phones.
- the anode circuit includes a feed back coil 7 coupled to the secondary 5 for regeneration, the input circuit being tuned by the variable capacity 9.
- the remainder of the circuit is conventional, and well known to those skilled inthe art.v
- the invention is particularly adapted to short wave recep,
- the value which has been found to be most suited for thecharacteristic impedance was, for instance, around 1000 ohms, and the damping about 1 Neper. Reactions of the antenna through this system are not noticeable at all, while the reduction in volume amounts to around 1:3.
- damping means comprising ohmic resistances constitutes the cheapest way of carrying the'idea into effect, the same effects, fundamentally speaking, are attainable with systems consisting wholly or partially of reactances.
- Figs. 2a and 2b are shown modified circuits embodying such reactances.
- a resistance 13 is connected directly in the antenna, a capacity 10 being shunted across the resistance.
- a pair of capacities 11, 12 are disposed on either side of the capacity 10.
- a common inductance T coupled to the feed back coil 7, is employed for coupling the antenna circuit and the tuned tube input circuit.
- the antenna circuit A in Fig. 26, includes an inductance 20, in place of the resistance 13, in shunt with a resistance 22, the coupling coil T still being utilized.
- a resistance 21 is connected in series with coil 20 and resistance 22, while a capacity 23 is connected in series between the resistance 22 and the coil T.
- What I claim is 1.
- an antenna circuit in a radio receiving system, an antenna circuit, an electron discharge tube having a tunable input circuit and an output circuit, means for aperiodically coupling said antenna circuit and said tunable input circuit, said means consisting of a plurality of resistors arranged in a predetermined manner to render the tuning of said input circuit independent of antenna capacity changes due to swaying of the antenna, the impedance of said resistors being substantially 1000 ohms.
- an aperiodic coupling network connected between the antenna and said input circuit, said network including at least a resistor in shunt with said input circuit, and the characteristic impedance of said network being substantially 1000 ohms whereby said an tenna capacity Variations due to swaying circuit.
Description
May 9, 1933. H. MUTH SHORT WAVE RECEIVER Filed Feb. 21, 1930 g l l l l l l lg l l l l l l l INVENTOR HERWH BY ATTORNEY Patented May 9, 1933 UNITED STATES PATENT OFFICE HERBERT MUTH, 0F BERLIN, GERMANY, .ASSIGNOR TO TELEFUNKEN GESELLSCHAFT Ftl'R DRAI-ITLOSE TELEGRAPHIE M. B. 11., 0F BERLIN, GERMANY, A CORPORATION or GERMANY SHORT WAVE RECEIVER Application filed February 21, 1930, Serial No. 430,154, and in Germany March 4, 1929.
My present invention relates to radio receivers, and more particularly to circuit arrangements for the reception of radio frequency signals, especially adapted for short wave work.
The use of short wave receiver apparatus in which the antenna is coupled directly with a regeneratively connected audion tube 1s frequently handicapped by the fact that small swaying of the antenna, for 1nstance caused by wind, results in appreciable detuning of the receiver set, fluctuations 1n the audible beat note and noises. WVhen the receiver is tuned to a wave at which the anantenna.
tenna is in resonance, this results in a marked absorption of energy in the audion tube oscillatory circuit, and as a consequence the initiation of the regenerative action therein is either made rather difficult or entirely impossible. Indeed, these dlfiiculties are so serious that, with a view to ellminating them, tubes have been provided between the antenna and the regenerative audion tube circuit with the sole aim to preclude disturbances in the receiver set occasioned by swaying and by resonance points of the antenna, and complications in operating the apparatus.
Now, the efiects of the swaying of theantenna upon the reception may be mlnim zed to any desired degree by loose coupllng of the However, the influences due to resonance points of the antenna upon the readiness or ability to oscillate of the receiver and the operation of the set are thus not sufficiently reduced. For, if the antenna is coupled so loosely that its resonance points will no longer affect the oscillating ability of the receiver set, this would result in a considerable reduction in volume of the receiver set.
This difliculty, according to the present invention, is obviated by inserting between the antenna and the receiver a system or connection comprising ohmic resistances having a characteristic impedance which is so chosen that it-will be as closely adapted as possible to the average antenna impedances arising at the different incoming wave lengths, on
invention itself, however, as to both its OI-- ganization and method of operation will best be understood by reference to the following description taken in connection vwith the drawing in which I have indicated diagrammatically several circuit organizations whereby my invention may be carried into effect.
In the drawing, Y
Fig. 1 shows a receiver embodying my invention, a 7
Figs. 2a and 2?) show receivers embodying modified forms of the invention.
Referring to the accompanying drawing in which like reference characters in the different figures designate the same'je'lein'ents, Fig. 1 illustrates the fundamental principle of the invention. In'this figure, a grounded antenna A is connected through ohmic recuit of the tube including a utilization device 8, as a speaker or phones. The anode circuit includes a feed back coil 7 coupled to the secondary 5 for regeneration, the input circuit being tuned by the variable capacity 9. The remainder of the circuit is conventional, and well known to those skilled inthe art.v As already explained, the invention is particularly adapted to short wave recep,,
tion.
With such a system between antenna and audion, independently of the antenna dimensions and the tuned wave length present in any given instance, the load of the audion is nearly constant. Antenna swaying and resonance points of the antenna are scarcely noticeable in the receiver even when the resistances are so proportioned thatthe' reduction in signal strength is still inside acceptable limits. r v
The value which has been found to be most suited for thecharacteristic impedance was, for instance, around 1000 ohms, and the damping about 1 Neper. Reactions of the antenna through this system are not noticeable at all, while the reduction in volume amounts to around 1:3.
While damping means comprising ohmic resistances constitutes the cheapest way of carrying the'idea into effect, the same effects, fundamentally speaking, are attainable with systems consisting wholly or partially of reactances. In Figs. 2a and 2b are shown modified circuits embodying such reactances.
In Fig. 2a, a resistance 13 is connected directly in the antenna, a capacity 10 being shunted across the resistance. A pair of capacities 11, 12 are disposed on either side of the capacity 10. Instead of using the transformer T, a common inductance T, coupled to the feed back coil 7, is employed for coupling the antenna circuit and the tuned tube input circuit.
The antenna circuit A, in Fig. 26, includes an inductance 20, in place of the resistance 13, in shunt with a resistance 22, the coupling coil T still being utilized. A resistance 21 is connected in series with coil 20 and resistance 22, while a capacity 23 is connected in series between the resistance 22 and the coil T.
While I have indicated and described several systems for carrying my invention into effect, it will be apparent to one skilled in the art that my invention is by no means limited to the particular organizations shown and described, but that many modifications in the circuit arrangements, as well as in the apparatus employed, may be made without departing from the scope of my invention as set forth in the appended claims.
What I claim is 1. In combination, in a radio receiving system, an antenna circuit, an electron discharge tube having a tunable input circuit and an output circuit, means for aperiodically coupling said antenna circuit and said tunable input circuit, said means consisting of a plurality of resistors arranged in a predetermined manner to render the tuning of said input circuit independent of antenna capacity changes due to swaying of the antenna, the impedance of said resistors being substantially 1000 ohms.
2. In combination with a short wave regenerative receiver having a tunable input circuit and an antenna having sufficient capacity variations when swaying to affect the tuning of the receiver inputcircuit, an aperiodic coupling network connected between the antenna and said input circuit, said network including at least a resistor in shunt with said input circuit, and the characteristic impedance of said network being substantially 1000 ohms whereby said an tenna capacity Variations due to swaying circuit.
HERBERT MUTI-I.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE1907653X | 1929-03-04 |
Publications (1)
Publication Number | Publication Date |
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US1907653A true US1907653A (en) | 1933-05-09 |
Family
ID=7748736
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US430154A Expired - Lifetime US1907653A (en) | 1929-03-04 | 1930-02-21 | Short wave receiver |
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US (1) | US1907653A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3234466A (en) * | 1962-08-31 | 1966-02-08 | Motorola Inc | Wave signal receiver |
US4314378A (en) * | 1979-05-25 | 1982-02-02 | Tractor, Inc. | Antenna low-noise Q spoiling circuit |
-
1930
- 1930-02-21 US US430154A patent/US1907653A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3234466A (en) * | 1962-08-31 | 1966-02-08 | Motorola Inc | Wave signal receiver |
US4314378A (en) * | 1979-05-25 | 1982-02-02 | Tractor, Inc. | Antenna low-noise Q spoiling circuit |
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