US2054645A - Antenna system - Google Patents

Antenna system Download PDF

Info

Publication number
US2054645A
US2054645A US595644A US59564432A US2054645A US 2054645 A US2054645 A US 2054645A US 595644 A US595644 A US 595644A US 59564432 A US59564432 A US 59564432A US 2054645 A US2054645 A US 2054645A
Authority
US
United States
Prior art keywords
aerials
coupling
coils
receiver
length
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
US595644A
Inventor
Alexander Johan Willem
Rinia Herre
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.)
RCA Corp
Original Assignee
RCA Corp
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 RCA Corp filed Critical RCA Corp
Application granted granted Critical
Publication of US2054645A publication Critical patent/US2054645A/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
    • H04B1/06Receivers
    • H04B1/10Means associated with receiver for limiting or suppressing noise or interference
    • H04B1/1009Placing the antenna at a place where the noise level is low and using a noise-free transmission line between the antenna and the receivers
    • 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
    • H04B1/06Receivers
    • H04B1/10Means associated with receiver for limiting or suppressing noise or interference
    • H04B1/12Neutralising, balancing, or compensation arrangements

Definitions

  • the invention relates to a device for the reception of wireless signals in which the influence of sources of interference located in the neighborhood of the receiver is suppressed.
  • a device comprising an aerial system consisting of two or more aerials of different length which are inductively coupled with one or more receiving sets, the length of at least one of the aerials being 10 so chosen that a considerable portion of this aerial is located outside the region of the sources of interference.
  • the working of said device is based thereon that the aerialsare' inductively coupled with the input circuit of a receiver in such manner that the interfering oscillations received by the aerials neutralize each other whereas the difference of the wireless signals received by the aerials is made operative in the receiver.
  • This invention is not a static eliminator to eliminate atmospheric disturbances. Furthermore, this invention is not to be confused with inventions which are intended to eliminate or reduce atmospheric disturbances, but relates more particularly to antenna systems in which the effects of local disturbing oscillations are neutralized or balanced out by virtue of the signal impulses being received on two collecting devices differently located with respect to the source of the interfering or disturbing oscillations.
  • an inductive coupling device the primary side of which comprises one or more vcoils which are connected in series between the aerials and whose earthed electrical mid-point can be adjusted with the aid of one or more variable condensers.
  • the primary side of the inductive coupling may, for example, comprise a coil which is connected between the aerials and both ends of which are earthed via condensers of which at least one is variable, or again use is made of a circuit arrangement in.which the primary side of the inductive coupling comprises two coils which are connected in series between the aerials and whose point of connection is earthed while at least the longest of the aerials includes a variable condenser.
  • the coupling of the aerials with the input circuit of the receiver is preferably mounted within an earthed metallic screening box for it has been found that the presence of such a box considerably improves the working of the device, and that the adjustment is made more stable, that is, less dependent on the state of the weather in the surroundings.
  • the cause thereof principally resides in that between the two aerials and the receiver there 5 exists a different capacitive coupling which transfers the interfering oscillations received by the aerials to the input circuit of the receiver.
  • Fig. 1 shows an aerial system inductively coupled to a receiving set
  • Fig. 2 shows a second embodiment of my im- 15 proved inductively coupled aerial receiving system
  • Fig. 3 shows another embodiment of my improved inductively coupled aerial receiving system.
  • Figure 1 represents an aerial system consisting of two aerials I and 2 which are supported by two masts M and insulated therefrom by suitable insulators A.
  • the aerials I and 2 are inductively coupled by a coupling device C with a 25 receiving set 3.
  • the length of the aerial I is so chosen that the portion I is substantially located outside the region of the sources of interference.
  • the primary side of the inductive coupling comprises two coils 4 and 5 which are connected in 30 series between the aerials I and 2 and whose connecting point 6 is earthed.
  • the aerial I is
  • variable condenser 1 which is adjusted in such manner that for the received interfering oscillations the aerials l and 2 have 35 the same electrical length or in other words that the interfering electro-motive forces induced by the coils 4 and 5 in the secondary side 8 of the inductive coupling neutralize each other whereas the difference of the wireless signals received in 40 the aerials I and 2 is made operative'in the receiver 3.
  • the coils 4, 5 and 8 are arranged within an earthed metallic screening box 9 and between the coils 4 and 8 and 5 and 8 respectively, is preferably arranged a screen I! (shown by the dotted lines) for avoiding a capacitive coupling, said screen being electrically connectedto the screening box 9.
  • the supply wires leading from the secondary side 8 of the inductive coupling to the receiver 3 are preferably made as short as possible-and in order to avoid a capacitive coupling between the aerials and these wires they are preferably capacitively screened by means of an earthed lead sheath ll.
  • Figure 2 represents a second embodiment of a device according to the invention, in which the primary side of the inductive coupling comprises between the aerials 'I andEZ a coil l3 the ends of which are connected to earth through a differential condenser l4 owing to the fact that the variable electrode l5 of this condenser is connected to the screening box 9.
  • a screen which prevents a capacitive coupling, said screen being also elec trically connected to the screening box 9.
  • Figure 3 represents a device according to Figure 1, in which in parallel with the coils 4 and 5 are arranged tuning condensers l6 and I! with the aid of which the aerials l and 2 can be tuned to the wave-lengths to be received.
  • a radio signalling system having means for the reduction of local interference, said means comprising two aerials each of different length, the length of atleast one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, one of said aerials vconnected to a variable condenser within said screened box, the other aerial being connected to a first coupling coil, a second coupling coil connected to said variable condenser, and a third coupling coil connected'to said receiver and inductively coupled to the first and second coupling coils, the other ends of said first, second and third coupling coils being grounded.
  • a radio signalling system having means for the reduction of local interference, said means comprising two aerials .each of different length, the length of at least one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, one of said aerials connected to a variable condenser within said screened box which adjusts the aerial to have the same electrical length as the other aerial so that the local interference is neutralized, the other aerial being connected to a first coupling coil, a second coupling coil connected to said variable condenser, and a third coupling coil connected to said receiver and inductively coupled to the first and second coupling coils, the other ends of said first, second and third coupling coils being grounded.
  • a radio signalling system having means for the reduction of local interference, said means comprising a long and short aerial, the length of at least one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, the long aerial being connected to a variable condenser, and a plurality of inductance coils located within said metallic screened box, two of said coils serving as primary coils and being connected together at their ends and grounded to said box, the other end of one of said primary coils being connected to said variable condenser which is in series with said primary coils, the other end of the other primary coil being connected to the other aerial, a third coil coupled to the first mentioned coils, one side being connected to the receiver, the
  • a radio signalling system having means for the reduction of local interference, said means comprising two aerials each of different length, the length of at least one of said aerials being so chosen that a considerable portion of its length '-is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, each one of said aerials being connected to the primary of an inductive coupler having a primary and secondary contained within said screened metallic box, a variable condenser having two fixed electrodes and a single variable electrode, the fixed electrodes of said variable condenser connected to'each sideof said aerials, said variable electrode of the variable condenser being connected to said screened boxand a separate screen between the primary and secondary coils, one side of the secondary coil being grounded to the screened box, the other side of said secondary 'coil being connected to said receiver, the variable electrode of said condenser being arranged to adjust the electrical length of one of said aerials so that the interfering electro-motive
  • a radio signalling system having means for the reduction of local interference, said means comprising two aerials of different length, the length of at least one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, three variable condensers within said screened box, the first one of which is connected in series with one of said aerials and a first coupling coil, the other aerial being connected to a second coupling coil, each second and third condenser being connected in parallel with each of said first and second coils so as to tune each of said aerials, a third coil coupled with the other coils, one side of which is connected to ground by means of said metallic box for screening the said condensers and said coils, the other side of the last-mentioned coil being connected to said receiver.
  • a radio signalling system having means for the reduction of local interference, said means comprising two aerials each of different length, the length of one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, each one of said aerials being connected to reactive elements within said box, one of said aerials being connected to one side of a variable condenser and the other aerial being directly connected to one side of the primary of a coupling coil, the secondary of said coupling coil being connected to one side of said receiver, and the other side of said secondary coil being grounded to said screen box.

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Near-Field Transmission Systems (AREA)
  • Shielding Devices Or Components To Electric Or Magnetic Fields (AREA)
  • Filters And Equalizers (AREA)
  • Noise Elimination (AREA)

Description

Sept. 15, 1936. ;w ALEXANDER ET AL 2,054,645
' ANTENNA SYSTEM Filed Feb. 27, 1932 ATTORNEY Patented Sept. 15, 1936 UNITED STATES ANTENNA SYSTEM Johan Willem Alexander and Herre Rinia, Eindhoven, Netherlands, assignors to Radio Corporation of America, a corporation of Delaware Application February 27, 1932, Serial No. 595,644
In Germany February 18, 1931 6 Claims.
The invention relates to a device for the reception of wireless signals in which the influence of sources of interference located in the neighborhood of the receiver is suppressed. As is well known use is made for this purpose of a device comprising an aerial system consisting of two or more aerials of different length which are inductively coupled with one or more receiving sets, the length of at least one of the aerials being 10 so chosen that a considerable portion of this aerial is located outside the region of the sources of interference. V
Obviously, the working of said device is based thereon that the aerialsare' inductively coupled with the input circuit of a receiver in such manner that the interfering oscillations received by the aerials neutralize each other whereas the difference of the wireless signals received by the aerials is made operative in the receiver.
This invention is not a static eliminator to eliminate atmospheric disturbances. Furthermore, this invention is not to be confused with inventions which are intended to eliminate or reduce atmospheric disturbances, but relates more particularly to antenna systems in which the effects of local disturbing oscillations are neutralized or balanced out by virtue of the signal impulses being received on two collecting devices differently located with respect to the source of the interfering or disturbing oscillations.
According to the invention, use is made of an inductive coupling device the primary side of which comprises one or more vcoils which are connected in series between the aerials and whose earthed electrical mid-point can be adjusted with the aid of one or more variable condensers.
If use is made of a device comprising an aerial system consisting of two aerials of different 40 length, the primary side of the inductive coupling may, for example, comprise a coil which is connected between the aerials and both ends of which are earthed via condensers of which at least one is variable, or again use is made of a circuit arrangement in.which the primary side of the inductive coupling comprises two coils which are connected in series between the aerials and whose point of connection is earthed while at least the longest of the aerials includes a variable condenser. I
According to the invention, the coupling of the aerials with the input circuit of the receiver is preferably mounted within an earthed metallic screening box for it has been found that the presence of such a box considerably improves the working of the device, and that the adjustment is made more stable, that is, less dependent on the state of the weather in the surroundings. The cause thereof principally resides in that between the two aerials and the receiver there 5 exists a different capacitive coupling which transfers the interfering oscillations received by the aerials to the input circuit of the receiver.
The invention will be more clearly understood by referring to the accompanying drawing which represents schematically some embodiments thereof.
Fig. 1 shows an aerial system inductively coupled to a receiving set;
Fig. 2 shows a second embodiment of my im- 15 proved inductively coupled aerial receiving system, and
Fig. 3 shows another embodiment of my improved inductively coupled aerial receiving system. 20
Figure 1 represents an aerial system consisting of two aerials I and 2 which are supported by two masts M and insulated therefrom by suitable insulators A. The aerials I and 2 are inductively coupled by a coupling device C with a 25 receiving set 3. The length of the aerial I is so chosen that the portion I is substantially located outside the region of the sources of interference.- The primary side of the inductive coupling comprises two coils 4 and 5 which are connected in 30 series between the aerials I and 2 and whose connecting point 6 is earthed. The aerial I. comprises furthermore a variable condenser 1 which is adjusted in such manner that for the received interfering oscillations the aerials l and 2 have 35 the same electrical length or in other words that the interfering electro-motive forces induced by the coils 4 and 5 in the secondary side 8 of the inductive coupling neutralize each other whereas the difference of the wireless signals received in 40 the aerials I and 2 is made operative'in the receiver 3. The coils 4, 5 and 8 are arranged within an earthed metallic screening box 9 and between the coils 4 and 8 and 5 and 8 respectively, is preferably arranged a screen I!) (shown by the dotted lines) for avoiding a capacitive coupling, said screen being electrically connectedto the screening box 9.
The supply wires leading from the secondary side 8 of the inductive coupling to the receiver 3 are preferably made as short as possible-and in order to avoid a capacitive coupling between the aerials and these wires they are preferably capacitively screened by means of an earthed lead sheath ll.
Figure 2 represents a second embodiment of a device according to the invention, in which the primary side of the inductive coupling comprises between the aerials 'I andEZ a coil l3 the ends of which are connected to earth through a differential condenser l4 owing to the fact that the variable electrode l5 of this condenser is connected to the screening box 9. Between the primary and the secondary sides of the inductive coupling is arranged again a screen which prevents a capacitive coupling, said screen being also elec trically connected to the screening box 9.
Figure 3 represents a device according to Figure 1, in which in parallel with the coils 4 and 5 are arranged tuning condensers l6 and I! with the aid of which the aerials l and 2 can be tuned to the wave-lengths to be received.
We claim:
1. A radio signalling system having means for the reduction of local interference, said means comprising two aerials each of different length, the length of atleast one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, one of said aerials vconnected to a variable condenser within said screened box, the other aerial being connected to a first coupling coil, a second coupling coil connected to said variable condenser, and a third coupling coil connected'to said receiver and inductively coupled to the first and second coupling coils, the other ends of said first, second and third coupling coils being grounded.
2. A radio signalling system having means for the reduction of local interference, said means comprising two aerials .each of different length, the length of at least one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, one of said aerials connected to a variable condenser within said screened box which adjusts the aerial to have the same electrical length as the other aerial so that the local interference is neutralized, the other aerial being connected to a first coupling coil, a second coupling coil connected to said variable condenser, and a third coupling coil connected to said receiver and inductively coupled to the first and second coupling coils, the other ends of said first, second and third coupling coils being grounded.
3. A radio signalling system having means for the reduction of local interference, said means comprising a long and short aerial, the length of at least one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, the long aerial being connected to a variable condenser, and a plurality of inductance coils located within said metallic screened box, two of said coils serving as primary coils and being connected together at their ends and grounded to said box, the other end of one of said primary coils being connected to said variable condenser which is in series with said primary coils, the other end of the other primary coil being connected to the other aerial, a third coil coupled to the first mentioned coils, one side being connected to the receiver, the
other end grounded to said screened box and a metallic screen around said third coil to avoid capacitive coupling between said first and second coils, said last mentioned screen grounded to said screened box.
4. A radio signalling system having means for the reduction of local interference, said means comprising two aerials each of different length, the length of at least one of said aerials being so chosen that a considerable portion of its length '-is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, each one of said aerials being connected to the primary of an inductive coupler having a primary and secondary contained within said screened metallic box, a variable condenser having two fixed electrodes and a single variable electrode, the fixed electrodes of said variable condenser connected to'each sideof said aerials, said variable electrode of the variable condenser being connected to said screened boxand a separate screen between the primary and secondary coils, one side of the secondary coil being grounded to the screened box, the other side of said secondary 'coil being connected to said receiver, the variable electrode of said condenser being arranged to adjust the electrical length of one of said aerials so that the interfering electro-motive forces induced by the said primary coils are neutralized in the said secondary coil and the difference of the desired signals received by said aerials are operative in the receiver.
5. A radio signalling system having means for the reduction of local interference, said means comprising two aerials of different length, the length of at least one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, three variable condensers within said screened box, the first one of which is connected in series with one of said aerials and a first coupling coil, the other aerial being connected to a second coupling coil, each second and third condenser being connected in parallel with each of said first and second coils so as to tune each of said aerials, a third coil coupled with the other coils, one side of which is connected to ground by means of said metallic box for screening the said condensers and said coils, the other side of the last-mentioned coil being connected to said receiver.
6. A radio signalling system having means for the reduction of local interference, said means comprising two aerials each of different length, the length of one of said aerials being so chosen that a considerable portion of its length is located outside the region of the sources of interference, means for coupling said aerials with the input of a receiver, said means comprising an earthed metallic screened box, each one of said aerials being connected to reactive elements within said box, one of said aerials being connected to one side of a variable condenser and the other aerial being directly connected to one side of the primary of a coupling coil, the secondary of said coupling coil being connected to one side of said receiver, and the other side of said secondary coil being grounded to said screen box.
JOHAN WILLEM ALEXANDER. HERRE RINIA.
US595644A 1931-02-18 1932-02-27 Antenna system Expired - Lifetime US2054645A (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE376670X 1931-02-18
DE377116X 1931-04-25

Publications (1)

Publication Number Publication Date
US2054645A true US2054645A (en) 1936-09-15

Family

ID=31888942

Family Applications (2)

Application Number Title Priority Date Filing Date
US595644A Expired - Lifetime US2054645A (en) 1931-02-18 1932-02-27 Antenna system
US603927A Expired - Lifetime US1978661A (en) 1931-02-18 1932-04-08 Wireless receiving device

Family Applications After (1)

Application Number Title Priority Date Filing Date
US603927A Expired - Lifetime US1978661A (en) 1931-02-18 1932-04-08 Wireless receiving device

Country Status (4)

Country Link
US (2) US2054645A (en)
BE (1) BE386144A (en)
FR (1) FR730830A (en)
GB (2) GB376670A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2617926A (en) * 1948-07-29 1952-11-11 Sissman Louise Interference reducing radio receiving system
EP2572363B1 (en) * 2010-05-19 2024-03-20 Auckland UniServices Limited Inductive power transfer system primary track topologies

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2617926A (en) * 1948-07-29 1952-11-11 Sissman Louise Interference reducing radio receiving system
EP2572363B1 (en) * 2010-05-19 2024-03-20 Auckland UniServices Limited Inductive power transfer system primary track topologies

Also Published As

Publication number Publication date
GB377116A (en) 1932-07-21
FR730830A (en) 1932-08-24
GB376670A (en) 1932-07-14
BE386144A (en)
US1978661A (en) 1934-10-30

Similar Documents

Publication Publication Date Title
US2334189A (en) Relay system and associated circuits therefor
US2054645A (en) Antenna system
US1962227A (en) Coupling for high frequency circuits
US2174963A (en) Electrical wave resonant line filter
US1968610A (en) Thermionic amplifying system
US3290601A (en) Line cord and monopole antenna system
US1896065A (en) Selective circuit for superheterodyne radioreceivers
USRE21157E (en) Antenna system
US2097491A (en) Transmission line for electrical signaling systems
US2124212A (en) Radio receiver
US2075526A (en) Radio signal receiving system
US2151814A (en) Superheterodyne receiving circuits
US2096031A (en) Aerial system
US1957519A (en) Multiple radio receiving system
USRE19784E (en) Aerial system
US3130370A (en) Circuit system for preventing interfering radiation from transistor superheterodyne receivers
US2282968A (en) Coupling apparatus
US2373458A (en) Transmission line coupling system
US2159546A (en) Antenna coupling device for radio receivers
US2258283A (en) Disturbance suppression arrangement
US2031103A (en) Ultra short wave receiver
US2103079A (en) Wave signaling system
US2558339A (en) Interference reducing radio receiving system
US2415810A (en) Radio receiving system
US2109536A (en) Method of stray compensation in tuned antennae