US1916358A - Radio direction finder - Google Patents

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US1916358A
US1916358A US489286A US48928630A US1916358A US 1916358 A US1916358 A US 1916358A US 489286 A US489286 A US 489286A US 48928630 A US48928630 A US 48928630A US 1916358 A US1916358 A US 1916358A
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waves
antenna
amplitude
tube
grid
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US489286A
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Bruce Edmond
Harald T Friis
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AT&T Corp
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Bell Telephone Laboratories Inc
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S1/00Beacons or beacon systems transmitting signals having a characteristic or characteristics capable of being detected by non-directional receivers and defining directions, positions, or position lines fixed relatively to the beacon transmitters; Receivers co-operating therewith
    • G01S1/02Beacons or beacon systems transmitting signals having a characteristic or characteristics capable of being detected by non-directional receivers and defining directions, positions, or position lines fixed relatively to the beacon transmitters; Receivers co-operating therewith using radio waves

Definitions

  • This invention relates to radio receiving systems and particularly to radio direction finders.
  • An object of the invention is to reduce the deleterious effects of fading on the operation of radio direction finders.
  • a very marked disturbance encountered in the reception of radio Waves is fading, that is, variations in the strength of thereceived signals. This type of disturbance is particularly severe when short waves are being received.
  • One method widely used forovercoming the efl'ects of fading is to employ an automatic gain regulator or control.
  • the gain control responds to variations in the signal strength which are produced by adjustments of the antenna in the same way as it responds to variations produced'by fading. The result is that the gain control will operate to mar the effects of an adjustment of the antenna and make observations of signal minima and maxima difiicult if not impossible.
  • anon-directive receiver having an automatic gain control which is also used to control the gain of the receiver of the direction finder proper.
  • both receivers are operated on the double detection principle and one heterodyning oscillator is used to supply the beating wave to the two receivers.
  • This control of the oscillator output may be accomplished, for example, by controlling the grid bias or by using a control amplifier to provide a variable impedance in shunt to the oscillator pick-up coil, as best suits the particular condition for which the system. is designed.
  • ⁇ Vhen a system of this type is operated by adjusting the two receivers to receive the same radio waves, the gain control of the non-directive receiver will respond to variations in the strength of the received wave and maintain the output of the directive receiver substantially constant independent of such variations. Therefore, the output of the directive receiver will depend only on the adjustment of the antenna and will be substantially independent of any fading effects.
  • Fig. 1 shows diagrammatically one embodiment of the invention in which the gain is controlled by means of a variable grid bias
  • Fig. 2 shows diagrammatically a second embodiment of the invention in which a control tube is used
  • Fig. 3 shows graphically the grid voltageplate current characteristic of the control tube of the modification of Fig. 2.
  • a directional antenna system 5 arranged so that it may be oriented to give a characteristic effectin the receiver associated therewith to indicate the direction of the station from which the waves received are being transmitted.
  • the antenna system comprising a double balanced arrangement in which currents caused by horizontal fields are balanced out makingthe antenna system de ector 10 where the signal waves are de- 100.
  • a telephone receiver 11 and a milliammeter 12 are connected in the plate circuit of the detector tube 10 to permit observation of the detected signals.
  • Condenser 13 is provided for preventing unbalance of the capacities connected to the antenna system with respect to ground.
  • the system is a con ventional type radio direction finding system.
  • the condenser 14' of the antenna system and the condenser 15 of the beating oscillator are adjusted so that the circuit is tuned to receive the Wave, the direction of which it is desired to determine;
  • the antenna system 5 is oriented until the amplitude of the signal received is a minimum as indicated byeither or' both the telephone receivers 11 and the milliammeter 12.
  • the direction from which the wave is being received is indicated by the position of the antenna system.5 at which such an indication is obtained.
  • the main object of this invention is to overcome such difiiculties and facilitate the adjustmentof the antenna system 5 independent of any fading.
  • a vertical antenna 16 the reception characteristic antenna is connected to the grid circuit of a vacuum tube 17 through a tuned circuit 18.
  • the pick-up coil 8 of the beating oscillator 7 is connected in series with the tuned circuit 18 in the grid circuit of the tube 17.
  • Condenser 19 is provided for "neutralizing the ground capacities of the antenna system in a similar manner to the condenser 13 in .the directional antenna system 5.
  • Tube 17 operates as a high frequency detector in a similar manner to tube 6, the waves received in the antenna 16 being modulated by the waves from the oscillator 7 to produce waves in an intermediate frequency range which are selected and amplified by the intermediate amplifier 20.
  • the output of this amplifier is connected to the grid circuit'of a low frequency detector tube 21.
  • the low frequency detector tube 21 operated as a plate current detector so that signal current in the plate circuit is directly proportional to the amplitude of the received wave.
  • a telephone head t 22 There are connected in series in the plate circuit of tube 21 a telephone head t 22, a milliammeter 23 and a resistance The telephone receiver 22 and the milliammetel ing the tuning of the circuit.
  • the terminal of resistance 24 remote from the cathode of the tube 21 is connected through a wire 25 and the grid inductance of the oscillator circuit 7 to the grid of the oscillator tube 26. Consequently, since the cathodes of the tubes 21 and 26 are connected together to gr0und,-the potential difference across the resistance 24 produced by the signal current flowing in the plate circuit of the tube 21 will be impressed on the grid of the oscillator tube 26. This potential difference will be effective to control the amplitude of the; oscillations generated in the oscillator circuit 7.
  • any increase in the potential drop across resistance 24 will tend to decrease the amplitude of the oscillations generated, and any decrease in the potential drop across the resistance 24 caused by a decrease in the signal sponding increase in the amplitude of the oscillations generated in the oscillator cirand consequently the gain of the auxiliary receiver system comprising the high fre quency detector 17, the intermediate frequency amplifier 20 and the low frequency detector 21.
  • the action is therefore to maintain the signal output of the detector 21 substantially constant, independent of variations in the amplitude of the received wave caused by fading and the like.
  • the effect is to also control the gain of the main or directional receiver comprising high frequency detector 6, intermediate amplifier 9 and low frequency detector 10. Theref0re, the signal output of the detector 10 will also be maintained constant irrespective of changes in the amplitude of the wave the direction of propagation of which "is being determined.
  • the gain control of the main receiver being responsive to the v tions in field strength of the received waves rather than on the directional characteristic of the antenna system 5.
  • the circuit of Fig. 2 shows a modification of that portion of the circuit of Fig. 1 to the right of the dash-dot line A, the remainder of the circuit beingthe same as that of Fig. 1.
  • the detector tube 21 is provided in its grid circuit with a condenser grid leak circuit 30.
  • the tube 21 therefore operates as a grid current detector, the amplitude of the plate current being inversely proportional to the amplitude of the wave supplied to the grid circuit.
  • the grid of the oscillator tube 26 is maintained at a constant direct current p0-, tential with respect to the cathode.
  • To provide for the gain control there is employed a control tube 31 having its plate circuit connected in shunt to the pick-up coil 8. By controlling the plate impedance of the tube it is possible to control the amplitude of the heterodyning waves supplied from the srlllator 7 to the detector tubes 6 and 17.
  • the grid voltage-plate impedance characteristic of the control tube 31 is shown in Fig. 3. It will be noted that for a considerable range of negative grid voltages the plate impedance of the tube varies directly with the value of the negative grid voltage. When the tube is operated in this range, the amplitude of the heterodyning wave supplied to the detector tubes 7 and 11 will be inversely proportional to the value ofv the negative poten-' tial appiz l to the grid of tube 31. Thus, if the amplitude of the wave received from the antenna 16 tends to decrease there will be a consequent increase in the plate current of the detector tube 21 and a proportional increase in the voltage drop across resistance 24.
  • a substantially non-directive antenna In combination, a substantially non-directive antenna, an antenna of adjustably directive characteristics, a radio receiver associated with each of said antennae and both adapted to receive the same radio waves, a source of oscillations supplying waves to both of said receivers for combining with the waves impressed thereon by the respective antennae, and means responsive to the output of the receiver associated with the non-directive antenna for controlling the amplitude of the output of said source to maintain the output of the other receiver substantially independent of variations in the field strength of the received waves.
  • an antenna of adjustably directive characteristics a substantially non-directive antenna, a radio receiver associated with each of said antennae, both of said receivers being adapted to receive the same radio wave, a source of oscillations supplying Waves to both of said receivers for combining with the received waves, said source of oscillations including an electric discharge device having an anode, a cathode and a control electrode, means for producing an electromotive force of value proportional to the output of the receiver associated with the non-directive antenna, and means for impressing said electromotive force upon the control electrode of said electric discharge device for controlling the amplitude of the waves supplied to said receivers from said source.
  • an antenna of adjustably directive characteristics a substantially non-directive antenna, a radio receiver associated with each of said antennae, both of said receivers being adapted to receive the same radio wave, an electric discharge device having a cathode, an anode and a control element and arranged to produce electrical oscillations for combining with the waves pressed on said receivers by the respective antennae, and means responsive to the output of the receiver associated with the nondirective antenna for producing a unidirectional electromotive force of amplitude dependent in value upon the amplitude of the waves received by such non-directive antenna, and means for impressing said unidirectional electromotive force upon the control element of said electric discharge device to .control the amplitude of the oscillations supdirective characteristics, a radio receiver associated with each of said antennae, both' of said receivers being adapted to receive the same radio wave, an electric discharge device having an anode, a cathode and a control element and arranged to produce electrical oscillations, means for supplying the
  • an antenna of adjustably directive characteristics, substantially non-directive antenna a radio receiver associated with each of said antennae, both of said receivers being adapted to receive the same radio waves, a source of oscillatioii, an electrical path for supplying waves from said-source to both of said receivers for combining with the waves impressed thereon by the respective antennae, an electrical discharge device having a cathode, an anode and a control element,'the cathode and anode being connected in said electrical path to con trol the impedance-thereof, and means for impressing between the control element and cathode a unidirectional potential propor- :tional to the amplitude of the signal output ceived waves to said detector being independent of said electrical path, and means responsive to the amplitude of the output of said detector for controlling the transmission characteristic of said path.
  • a source of waves means for combining the waves being received with the waves from said source, and means responsive to the amplitude of the wavesbeing received for controlling the amplitude of the waves supplied from said source to the combining means without afiecting the amplitude of the received waves supplied to the combining means.
  • a radio receiver a source of waves, a detector for combining the waves being received with the waves from said source, and means responsive to the amplitude of the output of said detector for controlling the amplitude of waves supplied from said source to said detector without aiiecting the amplitude of the received waves supplied to the detector.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Radar, Positioning & Navigation (AREA)
  • Remote Sensing (AREA)
  • Variable-Direction Aerials And Aerial Arrays (AREA)

Description

July 4, 1933.
E. BRUCE ETAL RADIO DIRECTION FINDER Filed Oct. 17. 1930 w u Rm UC C a E n m A 0 R .M A T v I 4 8 m LI v .E'. BRUCE m vz/gzifis FRI/6 Patented July 4, 1933 UNITED STATES PATENT OFFICE EDMOND BRUCE, OF RED BANK, AND HARALD T. FRIIS, OF RUMSON, NEW JERSEY, ASSIGNORS TO BELL TELEPHONE LABORATORIES, INCORPORATED, OF NEW YORK,
N. Y., A CORPORATION OF NEW YORK RADIO DIRECTION FINDER Application filed October 17, 1930. Serial No. 489,286.
This invention relates to radio receiving systems and particularly to radio direction finders.
An object of the invention is to reduce the deleterious effects of fading on the operation of radio direction finders.
A very marked disturbance encountered in the reception of radio Waves is fading, that is, variations in the strength of thereceived signals. This type of disturbance is particularly severe when short waves are being received. One method widely used forovercoming the efl'ects of fading is to employ an automatic gain regulator or control.
However, when such regulators are employed with direction finders which depend for their operationon the orientation of a directive antenna until a minimum or maximum response is obtained from the receiver, the gain control responds to variations in the signal strength which are produced by adjustments of the antenna in the same way as it responds to variations produced'by fading. The result is that the gain control will operate to mar the effects of an adjustment of the antenna and make observations of signal minima and maxima difiicult if not impossible.
In accordance with a specific preferred embodiment of this invention there is .employed with a radio direction finder of the a conventional type, anon-directive receiver having an automatic gain control which is also used to control the gain of the receiver of the direction finder proper. To simplify the adjustment and operation of this gain control system, both receivers are operated on the double detection principle and one heterodyning oscillator is used to supply the beating wave to the two receivers. By using such an arrangement the amplitude of the common heterodyne wave can be caused to vary in an inverse manner to the field strength of the received waves and thereby offset the effects of fading in the direction finding receiver. This control of the oscillator output may be accomplished, for example, by controlling the grid bias or by using a control amplifier to provide a variable impedance in shunt to the oscillator pick-up coil, as best suits the particular condition for which the system. is designed.
\Vhen a system of this type is operated by adjusting the two receivers to receive the same radio waves, the gain control of the non-directive receiver will respond to variations in the strength of the received wave and maintain the output of the directive receiver substantially constant independent of such variations. Therefore, the output of the directive receiver will depend only on the adjustment of the antenna and will be substantially independent of any fading effects.
The invention can be more readily understood by reference to the following detailed description in connection with the drawing in which:
Fig. 1 shows diagrammatically one embodiment of the invention in which the gain is controlled by means of a variable grid bias;
Fig. 2 shows diagrammatically a second embodiment of the invention in which a control tube is used; and
Fig. 3 shows graphically the grid voltageplate current characteristic of the control tube of the modification of Fig. 2. I
Referring to the circuit of Fig. 1, there is shown a directional antenna system 5 arranged so that it may be oriented to give a characteristic effectin the receiver associated therewith to indicate the direction of the station from which the waves received are being transmitted. The antenna system comprising a double balanced arrangement in which currents caused by horizontal fields are balanced out makingthe antenna system de ector 10 where the signal waves are de- 100.
. of which is practically non-directional. This may be observed due to the fading tected. A telephone receiver 11 and a milliammeter 12 are connected in the plate circuit of the detector tube 10 to permit observation of the detected signals.
Condenser 13 is provided for preventing unbalance of the capacities connected to the antenna system with respect to ground.
As so far described the system is a con ventional type radio direction finding system. In operation, the condenser 14' of the antenna system and the condenser 15 of the beating oscillator are adjusted so that the circuit is tuned to receive the Wave, the direction of which it is desired to determine;
After tuning the circuit in this manner the antenna system 5 is oriented until the amplitude of the signal received is a minimum as indicated byeither or' both the telephone receivers 11 and the milliammeter 12. The direction from which the wave is being received is indicated by the position of the antenna system.5 at which such an indication is obtained.
In using systems of this type, particularly when operating on-short waves, fading may affect the accuracy of the measurements. For example, if the signal fades during the measurement a false minimum signal value Y rather than due to the proper adjustment 0 the antenna system. The main object of this invention is to overcome such difiiculties and facilitate the adjustmentof the antenna system 5 independent of any fading.
For this purpose there is provided a vertical antenna 16 the reception characteristic antenna is connected to the grid circuit of a vacuum tube 17 through a tuned circuit 18. The pick-up coil 8 of the beating oscillator 7 is connected in series with the tuned circuit 18 in the grid circuit of the tube 17. Condenser 19 is provided for "neutralizing the ground capacities of the antenna system in a similar manner to the condenser 13 in .the directional antenna system 5. Tube 17 operates as a high frequency detector in a similar manner to tube 6, the waves received in the antenna 16 being modulated by the waves from the oscillator 7 to produce waves in an intermediate frequency range which are selected and amplified by the intermediate amplifier 20. The output of this amplifier is connected to the grid circuit'of a low frequency detector tube 21.
The low frequency detector tube 21 operated as a plate current detector so that signal current in the plate circuit is directly proportional to the amplitude of the received wave.
.There are connected in series in the plate circuit of tube 21 a telephone head t 22, a milliammeter 23 and a resistance The telephone receiver 22 and the milliammetel ing the tuning of the circuit.
The terminal of resistance 24 remote from the cathode of the tube 21 is connected through a wire 25 and the grid inductance of the oscillator circuit 7 to the grid of the oscillator tube 26. Consequently, since the cathodes of the tubes 21 and 26 are connected together to gr0und,-the potential difference across the resistance 24 produced by the signal current flowing in the plate circuit of the tube 21 will be impressed on the grid of the oscillator tube 26. This potential difference will be effective to control the amplitude of the; oscillations generated in the oscillator circuit 7. Since the direction of connection of the resistance 24 in the grid circuit of the tube 26 is such that the grid is maintained at a negative potential with respect to the cathode any increase in the potential drop across resistance 24 will tend to decrease the amplitude of the oscillations generated, and any decrease in the potential drop across the resistance 24 caused by a decrease in the signal sponding increase in the amplitude of the oscillations generated in the oscillator cirand consequently the gain of the auxiliary receiver system comprising the high fre quency detector 17, the intermediate frequency amplifier 20 and the low frequency detector 21. The action is therefore to maintain the signal output of the detector 21 substantially constant, independent of variations in the amplitude of the received wave caused by fading and the like. Since the same heterodyning wave is supplied to the detector tube 6, the effect is to also control the gain of the main or directional receiver comprising high frequency detector 6, intermediate amplifier 9 and low frequency detector 10. Theref0re, the signal output of the detector 10 will also be maintained constant irrespective of changes in the amplitude of the wave the direction of propagation of which "is being determined. The gain control of the main receiver being responsive to the v tions in field strength of the received waves rather than on the directional characteristic of the antenna system 5.
7 While the system of Fig. 1 is generally effective and satisfactory it possesses certain inherent limitations in that the frequency of the waves generated by an oscillator are to some extent dependent upon the value of the biasingfpotential applied to the grid. Constrength, for example, will produce a correthe range through which the biasing potential of the grid of the oscillator can be varied without varying the frequency of the Wave generated. Further, even to maintain the frequency stability of the oscillator constant with a comparatively narrow range ofvariation in the grid biasing potential, it is necessary to take certain precautions in the circuit designed not otherwise necessary. These diificulties are obviated by use-of the modification of the invention shown in Fig. 2.
The circuit of Fig. 2 shows a modification of that portion of the circuit of Fig. 1 to the right of the dash-dot line A, the remainder of the circuit beingthe same as that of Fig. 1. In this case the detector tube 21 is provided in its grid circuit with a condenser grid leak circuit 30. The tube 21therefore operates as a grid current detector, the amplitude of the plate current being inversely proportional to the amplitude of the wave supplied to the grid circuit. The grid of the oscillator tube 26 is maintained at a constant direct current p0-, tential with respect to the cathode. To provide for the gain control there is employed a control tube 31 having its plate circuit connected in shunt to the pick-up coil 8. By controlling the plate impedance of the tube it is possible to control the amplitude of the heterodyning waves supplied from the srlllator 7 to the detector tubes 6 and 17.
The grid voltage-plate impedance characteristic of the control tube 31 is shown in Fig. 3. It will be noted that for a considerable range of negative grid voltages the plate impedance of the tube varies directly with the value of the negative grid voltage. When the tube is operated in this range, the amplitude of the heterodyning wave supplied to the detector tubes 7 and 11 will be inversely proportional to the value ofv the negative poten-' tial appiz l to the grid of tube 31. Thus, if the amplitude of the wave received from the antenna 16 tends to decrease there will be a consequent increase in the plate current of the detector tube 21 and a proportional increase in the voltage drop across resistance 24. Since this voltage drop is impressed on the grid of tube 31 there will be produced an increase in the plate impedance of that tube. The resulting decrease in the shunting eifect on the pick-up co l 8 will cause an increase of the amplitude of the heterodyne wave applied to the high frequency detector. The effect is to compensate for the decrease in field strength of the received wave and maintain the signal output constant irrespective of changes therein.
What is claimed is: .1. In combination, an antenna of adjustably directive characteristics,a substantially non-directive antenna, a radio receiver associated with each of said antennae and both adapted to receive the same waves, and means responsive to the output of the receiver associated with the non-directive antenna for mamtaming the output of the other receiver substantially constant irrespective of variations in the field strength of the received waves. e 2. In combination, a substantially non-directive antenna, an antenna of adjustably directive characteristics, a radio receiver associated with each of said antennae and both adapted to receive the same radio waves, a source of oscillations supplying waves to both of said receivers for combining with the waves impressed thereon by the respective antennae, and means responsive to the output of the receiver associated with the non-directive antenna for controlling the amplitude of the output of said source to maintain the output of the other receiver substantially independent of variations in the field strength of the received waves.
3. In combination, an antenna of adjustably directive characteristics, a substantially non-directive antenna, a radio receiver associated with each of said antennae, both of said receivers being adapted to receive the same radio wave, a source of oscillations supplying Waves to both of said receivers for combining with the received waves, said source of oscillations including an electric discharge device having an anode, a cathode and a control electrode, means for producing an electromotive force of value proportional to the output of the receiver associated with the non-directive antenna, and means for impressing said electromotive force upon the control electrode of said electric discharge device for controlling the amplitude of the waves supplied to said receivers from said source.
4. Incombination, an antenna of adjustably directive characteristics, a substantially non-directive antenna, a radio receiver associated with each of said antennae, both of said receivers being adapted to receive the same radio wave, an electric discharge device having a cathode, an anode and a control element and arranged to produce electrical oscillations for combining with the waves pressed on said receivers by the respective antennae, and means responsive to the output of the receiver associated with the nondirective antenna for producing a unidirectional electromotive force of amplitude dependent in value upon the amplitude of the waves received by such non-directive antenna, and means for impressing said unidirectional electromotive force upon the control element of said electric discharge device to .control the amplitude of the oscillations supdirective characteristics, a radio receiver associated with each of said antennae, both' of said receivers being adapted to receive the same radio wave, an electric discharge device having an anode, a cathode and a control element and arranged to produce electrical oscillations, means for supplying the oscillations produced by said device to both of said receivers for combining with the waves impressed thereon by the respective antennae, an electric discharge detector associated with the receiver receiving waves from said nondirective antenna and arranged to operate as a plate current detector, a resistance element in the plate circuit of said electric discharge detector, and connections from said resistance to the grid and cathode of the oscillating electric discharge device for controlling the amplitude of the oscillations generated thereby to maintain the output of said receivers substantially constant independent of variations in amplitudes of the waves received by said non-directive antenna.
6. In combination, an antenna of adjustably directive characteristics, substantially non-directive antenna, a radio receiver associated with each of said antennae, both of said receivers being adapted to receive the same radio waves, a source of oscillatioii, an electrical path for supplying waves from said-source to both of said receivers for combining with the waves impressed thereon by the respective antennae, an electrical discharge device having a cathode, an anode and a control element,'the cathode and anode being connected in said electrical path to con trol the impedance-thereof, and means for impressing between the control element and cathode a unidirectional potential propor- :tional to the amplitude of the signal output ceived waves to said detector being independent of said electrical path, and means responsive to the amplitude of the output of said detector for controlling the transmission characteristic of said path.
8. In a radio receiver, a source of waves, means for combining the waves being received with the waves from said source, and means responsive to the amplitude of the wavesbeing received for controlling the amplitude of the waves supplied from said source to the combining means without afiecting the amplitude of the received waves supplied to the combining means.
9. Ina radio receiver, a source of waves, a detector for combining the waves being received with the waves from said source, and means responsive to the amplitude of the output of said detector for controlling the amplitude of waves supplied from said source to said detector without aiiecting the amplitude of the received waves supplied to the detector.
In witness whereof, we hereunto subscribe our names this tenth day of October, 1930.
EDMOND BRUCE. HARALD T. FRIIS,
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2423437A (en) * 1934-08-25 1947-07-08 Bell Telephone Labor Inc Direction finder
US2495766A (en) * 1946-01-03 1950-01-31 Standard Telephones Cables Ltd Beacon system
US2757367A (en) * 1951-04-10 1956-07-31 Gasaccumulator Svenska Ab Arrangement for automatic volume control in receivers for radio direction finding
US2798947A (en) * 1954-06-04 1957-07-09 Itt Automatic level control of local oscillation in superheterodyne receiver
US2917741A (en) * 1952-09-12 1959-12-15 Marconi Wireless Telegraph Co Radio direction finders
US2938206A (en) * 1956-07-02 1960-05-24 Gilfillan Bros Inc Radiant energy receiver system
US2959674A (en) * 1957-07-02 1960-11-08 Thomas R O'meara Gain control for phase and gain matched multi-channel radio receivers
US3164831A (en) * 1956-05-09 1965-01-05 Bell Telephone Labor Inc Automatic gain control circuits for directive receiving systems
US3181066A (en) * 1960-05-07 1965-04-27 Philips Corp Transistor superheterodyne receiver
US3296619A (en) * 1956-06-29 1967-01-03 Frederick C Alpers Simple form of probe antenna noise cancellation system

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2423437A (en) * 1934-08-25 1947-07-08 Bell Telephone Labor Inc Direction finder
US2495766A (en) * 1946-01-03 1950-01-31 Standard Telephones Cables Ltd Beacon system
US2757367A (en) * 1951-04-10 1956-07-31 Gasaccumulator Svenska Ab Arrangement for automatic volume control in receivers for radio direction finding
US2917741A (en) * 1952-09-12 1959-12-15 Marconi Wireless Telegraph Co Radio direction finders
US2798947A (en) * 1954-06-04 1957-07-09 Itt Automatic level control of local oscillation in superheterodyne receiver
US3164831A (en) * 1956-05-09 1965-01-05 Bell Telephone Labor Inc Automatic gain control circuits for directive receiving systems
US3296619A (en) * 1956-06-29 1967-01-03 Frederick C Alpers Simple form of probe antenna noise cancellation system
US2938206A (en) * 1956-07-02 1960-05-24 Gilfillan Bros Inc Radiant energy receiver system
US2959674A (en) * 1957-07-02 1960-11-08 Thomas R O'meara Gain control for phase and gain matched multi-channel radio receivers
US3181066A (en) * 1960-05-07 1965-04-27 Philips Corp Transistor superheterodyne receiver

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