US2024138A - Radio signaling system - Google Patents

Radio signaling system Download PDF

Info

Publication number
US2024138A
US2024138A US490129A US49012930A US2024138A US 2024138 A US2024138 A US 2024138A US 490129 A US490129 A US 490129A US 49012930 A US49012930 A US 49012930A US 2024138 A US2024138 A US 2024138A
Authority
US
United States
Prior art keywords
receiver
circuit
oscillations
frequency
coil
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US490129A
Inventor
Edwin H Armstrong
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US490129A priority Critical patent/US2024138A/en
Application granted granted Critical
Publication of US2024138A publication Critical patent/US2024138A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B1/00Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
    • H04B1/38Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
    • H04B1/40Circuits
    • H04B1/54Circuits using the same frequency for two directions of communication
    • H04B1/56Circuits using the same frequency for two directions of communication with provision for simultaneous communication in two directions

Definitions

  • This invention relates to a method of duplex operation in radio signaling systems.
  • Its object is to provide a simple compact system which is at once capable of acting both as transmitter and receiver.
  • the invention consists in utilizing the principle of super regeneration in the manner hereinafter described so that the same regenerative system becomes at once a transmitter and receiver.
  • FIG 1 illustrates the general arrangement of apparatus suitable for carrying out the invention
  • FIG. 2 illustrates an alternative method
  • Figure 3 illustrates an arrangement more suitable for higher powers.
  • I represents a receiving antenna, 2 a coil inserted in the antenna, 3 a tuning condenser in parallel with this coil, 4 a coil coupled to the antenna coil 2 and connected to the grid of a vacuum tube 6, in the plate circuit of which a coil 5 is arranged to produce regenerative coupling with the grid coil 4. That is, the parts designated I to 6, inclusive, represent an ordinary regenerative system. 1, 8, 9, l represents a feed back arrangement for generating the auxiliary frequency for producing super regeneration. ll, I2, l3 represents a voice modulating arrangement inserted in the grid circuit and l6, II a telephone transformer and telephone receiver. l4, I is a bypass circuit.
  • the above description represents one end of the circuit.
  • the same apparatus is employed at the other end.
  • the method of operation is as follows.
  • One of the properties of a super-regenerative receiver is that it will oscillate violently with a very small received signal, or in fact, with no received signal at all. Under these conditions the super-regenerative receiver becomes a very effective transmitter radiating, or rather reradiating a signal of the same character as that which it is receiving. It is therefore, at the same time a sensitive receiver and an effective radiator of electric waves.
  • the amplitude of the radio frequency current in a super-regenerative system will depend upon two things, one, upon the strength of the incoming signal and, two, upon the voltage applied to the plate of the tube.
  • any variation in the strength of the incoming signal such as may be imposed upon it by an amplitude modulation, as in telephony, will produce a change in the strength of the high frequency current in the system and hence a response in the telephones corresponding to the variation in the strength of the radio frequency current.
  • any variation in the plate voltage of the tube produced by local means will modulate the strength of the signal which is radiated. This is done in the present system by the microphone II which modulates through the 5 transformer l2 the grid circuit of the vacuum tube 6.
  • the auxiliary frequencies will, of course, be above audibility but unless they are synchronous or differ by an amount above audibility a continuous note will be obtained due to the beats between the two modulations. Therefore, the two auxiliary frequencies must be set approximately the same when they will automatically synchronize or so chosen that one, for example, is 30,000 and the other 50,000. In this case the beat frequency will be 20,000 which will not be disturbing.
  • the operation of the system of Figure 1 will be apparent from the foregoing.
  • the system operates as follows: When no speech is being applied to the microphone I I the regenerative system 2, 3, 4, 5, 6 is generating a radio-frequency current which is modulated at a super-audible frequency by the auxiliary or oscillating system 1, 8, 9, I0. This wave is radiated from the antenna l When the microphone I I is spoken into there is induced in the secondary of transformer l2 an 3 electro-motive force of voice frequency which is applied to the grid of tube 6. This modulates the strength of the radiated high frequency current in the manner well' understood in the art. There is thus radiated from the antenna a wave 40 which is modulated both at audible and at superaudible frequencies.
  • the operation of the system as a receiver is as follows: The wave radiated as above described from one station is received at the other station of the duplex system, the manner of its reception and amplification being described in my prior patent dated July 25, 1922, #1,424,065 for Signalingsystems.
  • the presence of the super-audi ble modulation in the received wave will' not interfere with the super-regenerative action of the receiver or create undesirable noises, provided the auxiliary frequency of the receiving station is chosen in the manner hereinabove explained, i. e., to be the same as the auxiliary frequency at the 2 transmitter or to differ therefrom by an amount above audibility, so that the beat produced by reason of the super-audible modulation will be either of substantially zero frequency or of higher than audible frequency.
  • a key l8 controlling a small condenser I! may be employed to shift the auxiliary frequency at the station which is transmitting so as to bring it within an audible range of the auxiliary frequency used at the other stations. This also furnishes a convenient method of calling when the primary object of the system is telephony.
  • 20 represents a receiving antenna, 2
  • the parts designated 20 to 25, inclusive represent an ordinary regenerative circuit tuned to the frequency of the incoming signal.
  • 26, 21, 28, 29 represents a feed back arrangement for generating the auxiliary frequency to produce a super-regeneration
  • 26 and 21 being the coils inserted, respectively, in the grid circuit and the plate circuit of the tube 6, and 28 and 29 being, respectively, the condensers connected across coils 26 and 21, respectively, for the purp se of tuning these circuits to the auxiliary frequency desired.
  • 32, 33 is a modulating system for producing plate modulation.
  • is a bypass system and 35 is the telephone receiver connected in parallel with the secondary of the transformer 32.
  • the operation of the system is substantially the same as that of Figure 1 except that the modulation is accomplished in the plate instead of in the grid circuit.
  • connected across the secondary of the transformer 32 is for the purpose of furnishing a path of low impedance for the auxiliary frequency to pass by the high impedance of the secondary.
  • the tube 46 is arranged in substantially the same super-regenerative circuit as in Figure 2.
  • a separate tube 54 is used as a detector being coupled to the antenna circuit by coil 44.
  • Modulation is accomplished by a separate tube 51 which varies the plate voltage of the tube 46 by means of the choke coil 49.
  • the condenser 41 and the inductance 48 are a convenient means of bypassing the choke 49.
  • the operation of the system is substantially the same as the operation of the arrangement of Figure 2, the only difference being the accomplishment of detection and modulation by separate tubes.
  • tube 46 the function of tube 46 and its associated circuits is wholly to produce super-regeneration. Coupled with the grid coil of this tube is a coil 44 which is connected to a secondary tube 54 which is biased to act'as a detector. This tube rectifies the radio frequency signaling currents in the coil 44 and indicates them in the telephone receivers 56. The function of tube 51 is to amplify.
  • the modulation is accomplished in what is commonly referred I to as choke coil plate modulation.
  • a duplex radio signaling system comprising at each end a super-regenerative receiver for the reception of signals transmitted from the other end, each such receiver comprising means for transmitting a wave of radio fre- 1s quency, and means associated with the transmitting means of each receiver for impressing signals on the wave transmitted thereby.
  • a duplex radio signaling system comprising at each end a super-regenerative receiver go for the reception of signals transmitted from the other end, each such receiver comprising means for generating an auxiliary frequency and means for transmitting a wave of radio frequency, and means associated with the trans- 9,5 mitting means of each receiver for impressing signals on the wave radiated thereby, the auxiliary frequency of the one receiver being approximately the same as that of the other receiver.
  • a duplex radio signaling system comprising at each end a super-regenerative receiver for the reception of signals transmitted from the other end, each such receiver comprising means for generating an auxiliary frequency and 35 means for transmitting a wave of radio frequency, and means associated with the transmitting means of each receiver for impressing signals on the wave radiated thereby, the auxiliary frequency of one receiver differing from that of the other receiver by an amount above audibility.
  • the method of simultaneously transmitting and receiving signals over the same circuit which 5 comprises generating oscillations in said circuit; periodically starting and stopping the oscillations; and maintaining a continuous transient condition of the oscillations for the simultaneous transmission and reception of signals.
  • the method of simultaneously transmitting and receiving signals over the same channel and the same circuit which comprises generating oscillations in said circuit; periodically starting and stopping the oscillations in a manner to maintain a continuous transient condition of said oscillations; varying the peak values to which the oscillations are allowed to grow in accordance with signals to be transmitted; and utilizing the transient oscillation for si- 5 multaneously receiving signals.
  • the method of simultaneously transmitting and receiving signals over the same circuit which comprises generating regenerative selfoscillations in said circuit; periodically starting and stopping the oscillations in a manner to maintain a continuous transient condition; modulating said oscillations by varying the peak values to which the oscillations are permitted to grow during the starting periods in accord- 76 ance with signals to betransmitted; and utilizing the transient oscillations for simultaneously receiving signals over the same circuit.
  • a system of duplex radio communication over the same circuit comprising a resonant circuit; means including a self-oscillating discharge device connected with said circuit for generating carrier oscillations therein; means for periodically starting and stopping saidoscill'ations in a manner to maintain a continuous transient condition of the oscillations; means for varying the peak values to which the oscillations are permitted to grow during the starting periods in accordance with signals to be transmitted; an antenna circuit coupled with said resonant circuit; and means including said oscillating discharge device for translating received signals simultaneously in said circuit.
  • the method of signaling which comprises generating carrier oscillations; periodically starting and stopping said oscillations at a. frequency above audibility and in a manner to maintain a continuous transient condition; modulating the 7 carrier oscillations in accordance with signals to be transmitted by varying the peak values I.

Description

c 1935- E. H. ARMSTRONG I RADIO SIGNALING SYSTEM 3 Sheets-Sheet 1 Filed Oct. 21, 1950 mvzmoza fdw/n {1' Armsrrong.
An'omvzrs' 1935- E. H. ARMSTRONG RADIO SIGNALING SYSTEM Filed Oct; 21, 1930 5 Sheets-Sheet 3 INVENTOR [aw/)7 A r/77.577209 M ATTORNEY Patented I7, 1935 UNITED STATES PATENT OFFICE RADIO SIGNALING SYSTEM Edwin H. Armstrong, New York, N. Y.
Application October 21, 1930, Serial No. 490,129
9 Claims. (Cl. 250-9) This invention relates to a method of duplex operation in radio signaling systems.
Its object is to provide a simple compact system which is at once capable of acting both as transmitter and receiver.
The invention consists in utilizing the principle of super regeneration in the manner hereinafter described so that the same regenerative system becomes at once a transmitter and receiver.
Figure 1 illustrates the general arrangement of apparatus suitable for carrying out the invention;
Figure 2 illustrates an alternative method; and
Figure 3 illustrates an arrangement more suitable for higher powers.
Referring now'to Figure 1, I represents a receiving antenna, 2 a coil inserted in the antenna, 3 a tuning condenser in parallel with this coil, 4 a coil coupled to the antenna coil 2 and connected to the grid of a vacuum tube 6, in the plate circuit of which a coil 5 is arranged to produce regenerative coupling with the grid coil 4. That is, the parts designated I to 6, inclusive, represent an ordinary regenerative system. 1, 8, 9, l represents a feed back arrangement for generating the auxiliary frequency for producing super regeneration. ll, I2, l3 represents a voice modulating arrangement inserted in the grid circuit and l6, II a telephone transformer and telephone receiver. l4, I is a bypass circuit.
The above description represents one end of the circuit. The same apparatus is employed at the other end. The method of operation is as follows. One of the properties of a super-regenerative receiver is that it will oscillate violently with a very small received signal, or in fact, with no received signal at all. Under these conditions the super-regenerative receiver becomes a very effective transmitter radiating, or rather reradiating a signal of the same character as that which it is receiving. It is therefore, at the same time a sensitive receiver and an effective radiator of electric waves. The amplitude of the radio frequency current in a super-regenerative system will depend upon two things, one, upon the strength of the incoming signal and, two, upon the voltage applied to the plate of the tube. Any variation in the strength of the incoming signal, such as may be imposed upon it by an amplitude modulation, as in telephony, will produce a change in the strength of the high frequency current in the system and hence a response in the telephones corresponding to the variation in the strength of the radio frequency current. Similarly, any variation in the plate voltage of the tube produced by local means will modulate the strength of the signal which is radiated. This is done in the present system by the microphone II which modulates through the 5 transformer l2 the grid circuit of the vacuum tube 6. By thus applying'a local means of modulation of theplate voltage it is possible to modulate the strength of the radiated wave in the transmitted signal. In other words, the same 0 device is at once a receiver and a transmitter.
There are two methods of operating this system with respect to the values of the intermediate fre quencies to be used. Where telephony is employed the auxiliary frequencies will, of course, be above audibility but unless they are synchronous or differ by an amount above audibility a continuous note will be obtained due to the beats between the two modulations. Therefore, the two auxiliary frequencies must be set approximately the same when they will automatically synchronize or so chosen that one, for example, is 30,000 and the other 50,000. In this case the beat frequency will be 20,000 which will not be disturbing. The operation of the system of Figure 1 will be apparent from the foregoing. In transmission the system operates as follows: When no speech is being applied to the microphone I I the regenerative system 2, 3, 4, 5, 6 is generating a radio-frequency current which is modulated at a super-audible frequency by the auxiliary or oscillating system 1, 8, 9, I0. This wave is radiated from the antenna l When the microphone I I is spoken into there is induced in the secondary of transformer l2 an 3 electro-motive force of voice frequency which is applied to the grid of tube 6. This modulates the strength of the radiated high frequency current in the manner well' understood in the art. There is thus radiated from the antenna a wave 40 which is modulated both at audible and at superaudible frequencies.
The operation of the system as a receiver is as follows: The wave radiated as above described from one station is received at the other station of the duplex system, the manner of its reception and amplification being described in my prior patent dated July 25, 1922, #1,424,065 for Signalingsystems. The presence of the super-audi ble modulation in the received wave will' not interfere with the super-regenerative action of the receiver or create undesirable noises, provided the auxiliary frequency of the receiving station is chosen in the manner hereinabove explained, i. e., to be the same as the auxiliary frequency at the 2 transmitter or to differ therefrom by an amount above audibility, so that the beat produced by reason of the super-audible modulation will be either of substantially zero frequency or of higher than audible frequency.
When it is desired to utilize the system as a duplex telegraph a key l8 controlling a small condenser I! may be employed to shift the auxiliary frequency at the station which is transmitting so as to bring it within an audible range of the auxiliary frequency used at the other stations. This also furnishes a convenient method of calling when the primary object of the system is telephony.
In Figure 2, 20 represents a receiving antenna, 2| a coil in the antenna, 22 a tuning condenser in parallel with the coil, 23 a coil coupled to the antenna coil 2| and connected to the grid of the vacuum tube 25 in the plate circuit of which a coil 24 is coupled to the grid coil 23 to produce regenerative feed back. In other words, the parts designated 20 to 25, inclusive, represent an ordinary regenerative circuit tuned to the frequency of the incoming signal.
26, 21, 28, 29 represents a feed back arrangement for generating the auxiliary frequency to produce a super-regeneration, 26 and 21 being the coils inserted, respectively, in the grid circuit and the plate circuit of the tube 6, and 28 and 29 being, respectively, the condensers connected across coils 26 and 21, respectively, for the purp se of tuning these circuits to the auxiliary frequency desired. 32, 33 is a modulating system for producing plate modulation. 30, 3| is a bypass system and 35 is the telephone receiver connected in parallel with the secondary of the transformer 32. The operation of the system is substantially the same as that of Figure 1 except that the modulation is accomplished in the plate instead of in the grid circuit. This is carried out by means of the microphone 33 which, through transformer 32, produces a variation of the voltage applied to the plate of the vacuum tube 25 and thereby modulates the strength of the radio frequency signals. The circuit Bil-3| connected across the secondary of the transformer 32 is for the purpose of furnishing a path of low impedance for the auxiliary frequency to pass by the high impedance of the secondary.
In Figure 3 the tube 46 is arranged in substantially the same super-regenerative circuit as in Figure 2. A separate tube 54 is used as a detector being coupled to the antenna circuit by coil 44.
Modulation is accomplished by a separate tube 51 which varies the plate voltage of the tube 46 by means of the choke coil 49. The condenser 41 and the inductance 48 are a convenient means of bypassing the choke 49. The operation of the system is substantially the same as the operation of the arrangement of Figure 2, the only difference being the accomplishment of detection and modulation by separate tubes.
That is, the function of tube 46 and its associated circuits is wholly to produce super-regeneration. Coupled with the grid coil of this tube is a coil 44 which is connected to a secondary tube 54 which is biased to act'as a detector. This tube rectifies the radio frequency signaling currents in the coil 44 and indicates them in the telephone receivers 56. The function of tube 51 is to amplify.
of the tubes 46 and 51. That is, the modulation is accomplished in what is commonly referred I to as choke coil plate modulation.
I have described what I'believe to be the best 5 embodiments of my invention. I do not wish, however, to be confined to the embodiments shown, but what I desire to cover by Letters Patent is set forth in the appended claims.
I claim:
1. A duplex radio signaling system'comprising at each end a super-regenerative receiver for the reception of signals transmitted from the other end, each such receiver comprising means for transmitting a wave of radio fre- 1s quency, and means associated with the transmitting means of each receiver for impressing signals on the wave transmitted thereby.
2. A duplex radio signaling system comprising at each end a super-regenerative receiver go for the reception of signals transmitted from the other end, each such receiver comprising means for generating an auxiliary frequency and means for transmitting a wave of radio frequency, and means associated with the trans- 9,5 mitting means of each receiver for impressing signals on the wave radiated thereby, the auxiliary frequency of the one receiver being approximately the same as that of the other receiver.
3. A duplex radio signaling system comprising at each end a super-regenerative receiver for the reception of signals transmitted from the other end, each such receiver comprising means for generating an auxiliary frequency and 35 means for transmitting a wave of radio frequency, and means associated with the transmitting means of each receiver for impressing signals on the wave radiated thereby, the auxiliary frequency of one receiver differing from that of the other receiver by an amount above audibility.
4. The combination with a super-regenerative receiver for incoming signals, comprising means for radiating radio frequencies, of means 45 for producing a modulating current and means for causing said current to modulate the radio frequency radiated by the receiver.
5. The method of simultaneously transmitting and receiving signals over the same circuit which 5 comprises generating oscillations in said circuit; periodically starting and stopping the oscillations; and maintaining a continuous transient condition of the oscillations for the simultaneous transmission and reception of signals. 55
6. The method of simultaneously transmitting and receiving signals over the same channel and the same circuit which comprises generating oscillations in said circuit; periodically starting and stopping the oscillations in a manner to maintain a continuous transient condition of said oscillations; varying the peak values to which the oscillations are allowed to grow in accordance with signals to be transmitted; and utilizing the transient oscillation for si- 5 multaneously receiving signals.
7. The method of simultaneously transmitting and receiving signals over the same circuit which comprises generating regenerative selfoscillations in said circuit; periodically starting and stopping the oscillations in a manner to maintain a continuous transient condition; modulating said oscillations by varying the peak values to which the oscillations are permitted to grow during the starting periods in accord- 76 ance with signals to betransmitted; and utilizing the transient oscillations for simultaneously receiving signals over the same circuit.
8. In a system of duplex radio communication over the same circuit comprising a resonant circuit; means including a self-oscillating discharge device connected with said circuit for generating carrier oscillations therein; means for periodically starting and stopping saidoscill'ations in a manner to maintain a continuous transient condition of the oscillations; means for varying the peak values to which the oscillations are permitted to grow during the starting periods in accordance with signals to be transmitted; an antenna circuit coupled with said resonant circuit; and means including said oscillating discharge device for translating received signals simultaneously in said circuit.
, 9. The method of signaling which comprises generating carrier oscillations; periodically starting and stopping said oscillations at a. frequency above audibility and in a manner to maintain a continuous transient condition; modulating the 7 carrier oscillations in accordance with signals to be transmitted by varying the peak values I.
with respect to a fixed zero reference line to: which the oscillations are permitted to grow and transmitting these modulated Signals to a remotely disposed receiving station.
EDWIN H. ARIIS'IBONG. II
US490129A 1930-10-21 1930-10-21 Radio signaling system Expired - Lifetime US2024138A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US490129A US2024138A (en) 1930-10-21 1930-10-21 Radio signaling system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US490129A US2024138A (en) 1930-10-21 1930-10-21 Radio signaling system

Publications (1)

Publication Number Publication Date
US2024138A true US2024138A (en) 1935-12-17

Family

ID=23946744

Family Applications (1)

Application Number Title Priority Date Filing Date
US490129A Expired - Lifetime US2024138A (en) 1930-10-21 1930-10-21 Radio signaling system

Country Status (1)

Country Link
US (1) US2024138A (en)

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415667A (en) * 1944-02-11 1947-02-11 Hazeltine Research Inc Receiver-transmitting arrangement
US2417834A (en) * 1943-02-19 1947-03-25 Gen Electric Self-pulsing oscillator
US2454396A (en) * 1944-03-07 1948-11-23 Hazeltine Research Inc Wave-signal receiver-transmitter system
US2465341A (en) * 1941-02-08 1949-03-29 Int Standard Electric Corp Electric wave transmission system
US2468084A (en) * 1944-01-08 1949-04-26 Standard Telephones Cables Ltd Radio communicating system
US2535061A (en) * 1944-08-19 1950-12-26 Standard Telephones Cables Ltd Electrical pulse width shaper and selector
US2596996A (en) * 1938-07-08 1952-05-20 Olive D Ross High-frequency superregenerative apparatus
US2607004A (en) * 1947-09-12 1952-08-12 Donald B Harris Radio transmission system
US2851685A (en) * 1954-05-25 1958-09-09 Radio Patents Company Duplex radio communication
US3009108A (en) * 1951-07-06 1961-11-14 Lufttechnischen Ges M B H Measurement of electric charges put on a condenser
US3038067A (en) * 1956-05-31 1962-06-05 Raytheon Co Electrical tuning systems with traveling wave tube

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2596996A (en) * 1938-07-08 1952-05-20 Olive D Ross High-frequency superregenerative apparatus
US2465341A (en) * 1941-02-08 1949-03-29 Int Standard Electric Corp Electric wave transmission system
US2417834A (en) * 1943-02-19 1947-03-25 Gen Electric Self-pulsing oscillator
US2468084A (en) * 1944-01-08 1949-04-26 Standard Telephones Cables Ltd Radio communicating system
US2415667A (en) * 1944-02-11 1947-02-11 Hazeltine Research Inc Receiver-transmitting arrangement
US2454396A (en) * 1944-03-07 1948-11-23 Hazeltine Research Inc Wave-signal receiver-transmitter system
US2535061A (en) * 1944-08-19 1950-12-26 Standard Telephones Cables Ltd Electrical pulse width shaper and selector
US2607004A (en) * 1947-09-12 1952-08-12 Donald B Harris Radio transmission system
US3009108A (en) * 1951-07-06 1961-11-14 Lufttechnischen Ges M B H Measurement of electric charges put on a condenser
US2851685A (en) * 1954-05-25 1958-09-09 Radio Patents Company Duplex radio communication
US3038067A (en) * 1956-05-31 1962-06-05 Raytheon Co Electrical tuning systems with traveling wave tube

Similar Documents

Publication Publication Date Title
GB498186A (en) Frequency stabilization systems
US2024138A (en) Radio signaling system
US1744036A (en) Process for radiotelegraphic or radiotelephonic communication
US2303493A (en) Diversity signaling system
GB551472A (en) Improvements in modulated high frequency carrier wave signalling systems
US1872398A (en) Suppressed wave radio carrier system
US2288575A (en) Frequency modulation
US2320428A (en) Oscillating amplifier and detecting system
US1734038A (en) Electrical transmission of energy
US1489158A (en) Arrangement for the audible receiving of undamped oscillations
US2299487A (en) Electric wave transmission system
US1847190A (en) Electric wave signaling system
US1984451A (en) Short wave radio signaling
US1458949A (en) Carrier radiotelephone system
US1416061A (en) Radioreceiving system having high selectivity
US1838762A (en) System and apparatus for secret radio communication
US1911091A (en) Signaling
US1590635A (en) Radio system
US2289444A (en) System of transmission and reception
US1677967A (en) Radio signaling system
US1587595A (en) Telephony
US1735053A (en) Radio signaling system
US1851174A (en) Radio system of communication
US2851685A (en) Duplex radio communication
US2013173A (en) System of radio telephony and telegraphy