US3725942A - Vehicle-mounted antenna and coupling circuit therefor - Google Patents

Vehicle-mounted antenna and coupling circuit therefor Download PDF

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US3725942A
US3725942A US00450027A US3725942DA US3725942A US 3725942 A US3725942 A US 3725942A US 00450027 A US00450027 A US 00450027A US 3725942D A US3725942D A US 3725942DA US 3725942 A US3725942 A US 3725942A
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antenna
signals
citizens band
cable
communications equipment
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M Ukmar
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Allen Electric and Equipment Co
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Allen Electric and Equipment Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q1/00Details of, or arrangements associated with, antennas
    • H01Q1/27Adaptation for use in or on movable bodies
    • H01Q1/32Adaptation for use in or on road or rail vehicles
    • H01Q1/325Adaptation for use in or on road or rail vehicles characterised by the location of the antenna on the vehicle
    • H01Q1/3275Adaptation for use in or on road or rail vehicles characterised by the location of the antenna on the vehicle mounted on a horizontal surface of the vehicle, e.g. on roof, hood, trunk
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q5/00Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements
    • H01Q5/50Feeding or matching arrangements for broad-band or multi-band operation
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q9/00Electrically-short antennas having dimensions not more than twice the operating wavelength and consisting of conductive active radiating elements
    • H01Q9/04Resonant antennas
    • H01Q9/06Details
    • H01Q9/14Length of element or elements adjustable
    • H01Q9/145Length of element or elements adjustable by varying the electrical length
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q9/00Electrically-short antennas having dimensions not more than twice the operating wavelength and consisting of conductive active radiating elements
    • H01Q9/04Resonant antennas
    • H01Q9/30Resonant antennas with feed to end of elongated active element, e.g. unipole

Definitions

  • ABSTRACT Vehicle-mounted antenna system having a novel coupling circuit connected between the end of anantenna lead-in cable away from the latters connection to a conventional standard broadcast antenna and a standard broadcast (A.M.) radio receiver and citizens band communications equipment.
  • This coupling circuit :
  • impedance matches the antenna lead-in cable to the citizens band communications equipment.
  • This invention relates to a vehicle-mounted antenna system and to a coupling circuit therein for enabling a standard broadcast radio receiver antenna on a vehicle, such as an automobile, to be used also for citizens band communications equipment on the vehicle.
  • the vehicle-mounted antennas for citizens band transceivers have been of two different types: (1) an antenna designed specifically for the citizens band transceiver and entirely separate from the antenna for the standard broadcast radio receiver on the vehicle; and (2) an antenna specially designed both to receive standard broadcast radio programs, within the standard broadcast frequency range from 550 to 1,600 kilocycles per second, and to transmit and/or receive messages in the citizens band, within the frequency range from 26.965 to 27.255 megacycles per second.
  • the use of the conventional standard broadcast radio receiver antenna on the vehicle for citizens band signaling was considered to be unfeasible.
  • the present invention is directed to a novel vehiclemounted antenna system and to a novel coupling circuit therein in which a conventional standard broadcast radio antenna on the vehicle, such as an automobile, may be used also for citizens band signaling when desired, as well as to perform its usual function of receiving standard broadcast radio programs, thereby avoiding the expense of providing either an additional special antenna for citizens band signaling or a specially designed dual purpose antenna.
  • Another object of this invention is to provide a novel and improved coupling circuit for connection to a conventional standard broadcast antenna on a vehicle to enable that antenna to be used for citizens band signalmg.
  • reference numeral designates a conventional vertically extending automobile antenna for receiving commercial A.M. radio programs within the standard broadcast frequency range from 550 to 1,600 kc.
  • the antenna has the usual telescopically arranged sections which enable its physical length to be selectively adjusted.
  • the antenna is mounted on the car body ll by any suitable insulation support, shown schematically at 12.
  • the antenna is connected to a conventional coaxial antenna lead-in cable 13, which has an impedance of about 125 ohms.
  • the inner conductor of this cable is connected to the antenna at its lower end, and its outer conductor or sheath is grounded to the car body 11.
  • the conventional automobile radio antenna even when extended to its maximum length, is much shorter than one-quarter wavelength of signals within the standard broadcast radio band and therefore it does not closely approach a resonant condition. Consequently, it is inherently inefficient at these signal frequencies, but the usual standard broadcast signal strength is so great that a highly efficient receiving antenna is not required, it being more important from the practical standpoint to keep the physical length of the antenna from exceeding a reasonable limit.
  • this difficulty is overcome by providing a coupling circuit for the conventional automobile radio antenna which increases the effective electrical length of the antenna to a value at or closely approaching resonance for signals in the citizens band, so that the efficiency of the antenna is increased enough to enablev the successful transmission and/or reception of relatively low power citizens band signals.
  • this coupling circuit comprises a-series L- C circuit including a condenser 17 and an inductance coil 18 connected in series with each other between the junction point 19 and an adjustable switch contact 20.
  • Junction point 19 is at the end of the antenna lead-in cable 13 remote from the antenna 10.
  • Condenser 17 in this series L-C circuit is adjustable, and to facilitate its adjustability an additional fixed condenser 2lis connected across condenser 17.
  • this series L-C circuit In this series L-C circuit,
  • condensers 17 and 21 constitute a .
  • first condenser means and coil 18 is a first first coil.
  • the adjustable switch contact 20 may be positioned selectively to engage any one of three fixed contacts 22, 23 and 24 which are connected to different points along the length of a second inductance coil 25, whose lower end in the drawing is connected to the outer conductor of a coaxial cable 30.
  • An adjustable condenser 26 is connected across coil 25, and to facilitate its adjustment another condenser 27 is connected across condenser-26.
  • Coil 25 and condensers 26 and 27 constitute a parallel L-C circuit in which coil 25 is the second coil and condensers 26, 27 are a second condenser means.
  • Coil 25 has an additional tap28, located above its lower end in the drawing and below the taps 22-24, which is connected through a blocking condenser 29 to one end of the inner conductor of cable 30.
  • the opcitizens band and which may have a push-to-talk microphone switch.
  • the outer conductor or sheath of cable 30 is connected conductively to the outer conductors of cables 13 and 15, and preferably is connected directly to the frame of transceiver 31 which is grounded to the vehicle body. Both cable 30 and transceiver 31 have a characteristic impedance of about 50 ohms which, it will be noted, is substantially lower than the impedance of the antenna lead-in cable 13.
  • the entire coupling circuit preferably is enclosed within a protective container 32, which may be of metal or a suitable non-metallic material and may be grounded to the vehicle body or not.
  • the series L-C circuit components 17, 18, 21 act as a filter to reject the incoming standard broadcast radio signals from the citizens band transceiver 31, while passing the citizens band signals to or from the transceiver 31 without substantial attenuation.
  • the inductive reactance of coil 18 adds to the effective electrical length of the antenna for citizens band signals, so that its effective electrical length is at or sufficiently close to V4 wavelength for efficient transmission or reception of citizens hand signals.
  • Coil 18 has this loading effect on the antenna even though they are separated by the antenna lead-in cable 13. Normally, this cable 13 has a low capacitive reactance and sufficient inductive reactance that it will present an inductive reactance to the citizens band signals and to this extent it will also increase the effective electrical length of the antenna slightly. However, it is coil 18 which provides the principal loading on the antenna.
  • Coil 25 in the parallel L-C circuit 25, 26, 27 matches the 50 ohm impedance of the citizens band transceiver 31 and its cable 30 to the substantially higher impedance of the antenna lead-in cable 13.
  • Coil 25 functions as a step-up transformer, themagnitude of the step-up being determined by which tap 22, 23 or 24 is engaged by the adjustable switch contact 20.
  • the movable switch contact is connected to the uppermost tap 22 on coil 25.
  • contact 20. is connected to the lower tap 24.
  • the third tap may be used when the antenna is partially retracted to a position about mid-way between these extremes.
  • the blocking capacitor 29 prevents de-tuning of this step-up transformer from the 50-ohm transceiver cable
  • the lower end of coil 18 in the series L-C circuit may have a fixed connection to the upper end of coil 25 in the parallel L-C circuit, in which case the antenna 10 should be kept fully extended at all times for the most efficient transmission and reception of citizens band signals.
  • condensers 17 and 26 may be fixed, instead of adjustable, for specific applications on a known vehicle having cables of known lengths. Except in such cases, these condensers preferably should be adjustable to permit precise tuning after the system is installed on the vehicle.
  • choke coil 14 The function of choke coil 14 is to act as a filter which rejects the incoming or outgoing citizens band signals from the standard broadcast radio receiver 16, while permitting incoming standard broadcast program signals to be received without excessive attenuation.
  • the present coupling circuit in the complete embodiment shown performs the functions of increasing the effective electrical length of the antenna for efficient transmission and reception of citizens band signals, matching the antenna lead-in cable to the citizens band communications equipment, and passing separately the citizens band signals and the incoming standard broadcast signals between the antenna and the respective receiving and/or transmitting equipment on the vehicle.
  • a coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than /4 wavelength for citizens band signals and provided with an antenna lead-in cable said coupling circuit compris- I ing filter circuit means for connection between said communications equipment and said cable and effective to reject incoming standard broadcast signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals.
  • a coupling circuit according to claim 1, wherein said filter circuit means comprises first condenser means and a first coil connected in series with each other.
  • a coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than onequarter wavelength for citizens hand signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising filter circuit means for connection at one end to the antenna lead-in cable and effective to reject incoming standard broadcast signals and to pass-signals in the citizens band, said filter circuit means having sufficient inductive reactance therein to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, and impedance matching means including a stepup transformer connected to the opposite end of said filter circuit means for matching the impedance of said communications equipment to that of the antenna leadin cable.
  • a coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than onequarter wavelength for citizens band signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising filter circuit means for connection at one end thereof to the antenna lead-in cable away from the antenna and operative to reject standard broadcast signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, impedance matching means connected at one end thereof to the opposite end of said filter circuit means and including a step-up transformer to match the impedance of said communications equipment to that of the antenna lead-in cable, and a blocking condenser connected to the opposite end of said impedance matching means.
  • series L-C circuit for connection at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals;
  • a coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to the lead-in cable of a vehiclemounted antenna having a length substantially less than /4 wavelength for citizens band signals, said coupling circuit comprising'first filter circuit means for connection between the antenna lead-in cable and the citizens band communications equipment and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, and second filter means for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connectionto said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a standard broadcast set to said first and second filter means, respectively, each set will be operational.
  • a citizen band set receiveriver, transmitter, or transceiver
  • a coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals and having a lead-in cable with an impedance substantially greater than that of said communications equipment, said coupling circuit comprising first filter circuit means for connection at one end to the antenna lead-in cable and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means connected to the opposite end of said first filter circuit means and operative to match the impedance of said communications equipment to that of the antenna lead-in cable, and second filter means for connection between the antenna leadin cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connection to said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a
  • a coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than one-quarter wavelength for citizens band signals and provided with a lead-in cable having an impedance substantially greater than that of said equipment, said coupling circuit comprising first filter circuit means for connection at one end to the antenna lead-in cable away from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means including a step-up transformer connected to the opposite end of said first filter circuit means and operative to match the impedance of said citizens band communications equipment to that of the antenna leadin cable, and second filter means for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connection to said antenna lead-in cable, whereby, upon connection of a citizen band set (re
  • a coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals and provided with a lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising:
  • series L-C circuit for connection at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals;
  • a parallel LC circuit connected at one end thereof to the opposite end of said series L-C circuit and comprising parallel connected second condenser means and a second coil, said second coil having one terminal thereon grounded and, another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to the citizens band communications equipment, said second coil providing a step-up transformer for matching the impedance of said communications equipment to that of the antenna lead-in cable;
  • a blocking condenser connected to said intermediate tap and adapted to be connected to said communications equipment
  • a choke coil for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals.
  • An antenna system comprising a vehiclemounted antenna having a length substantially less than /4 wavelength for citizens band signals, an antenna lead-in cable connected to said antenna, and a coupling circuit comprising filter circuit means for connection to said cable away fromthe antenna and effective to reject incoming standard broadcast signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effectiveelectrical length of the antenna for efficient transmission or reception of citizens band signals.
  • An antenna system for citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band Signals, an antenna lead-in cable having an impedance substantially different from that of said communications equipment, and a coupling circuit comprising filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, and impedance matching means connected to the opposite end of said filter circuitmeans to match the impedance of said communications equipment to that of the antenna lead-in cable.
  • An antenna system for both a standard broadcast radio receiver and citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than V4 wavelength for citizens band signals, an antenna lead-in cable connected to the antenna, and a coupling circuit comprising first filter circuit means connected to the antenna lead-in cable away from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, and second filter means connected to the antenna lead-in cable away from the antenna and effective to reject citizens band signals and to pass standard broadcast radio signals.
  • An antenna system for both a standard broadcast radio receiver and citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals, an antenna lead-in cable connected to said antenna and having an impedance substantially greater than that of said communications equipment, and a coupling circuit comprising first filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means connected to the opposite end of said first filter circuit means to match the impedance of said communications equipment to that of the antenna lead-in cable, and second filter means connected to the antenna lead-in cable remote from the antenna and effective to reject citizens band signals and to pass standard broadcast radio signals.
  • a vehicle-mounted antenna having a length substantially less than V4 wavelength for citizens band signals
  • an antenna lead-in cable connected to the antenna and having an impedance substantially greater than that of said communications equipment
  • first filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals;
  • impedance matching means connected between the opposite end of said first filter circuit means and said communications equipment to match the latters impedance to that of the antenna lead-in cable;
  • second filter means connected between the antenna lead-in cable and said standard broadcast receiver and effective to reject citizens band signals and to pass standard broadcast radio signals.
  • a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals
  • an antenna lead-in cable connected to the antenna and having an impedance substantially greater than that of said communications equipment
  • aseries L'C circuit connected at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals;
  • a parallel L-C circuit connected at one end thereof to the opposite end of said series L-C circuit and comprising parallel connected second condenser means and a second coil, said second coil having one terminal thereon grounded and another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to the citizens band communications equipment, said second coil providing a step-up transformer for matching the impedance of said communications equipment to that of the antenna lead-in cable;
  • a choke coil connected between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens hand signals and to pass standard broadcast radio signals.

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Abstract

Vehicle-mounted antenna system having a novel coupling circuit connected between the end of an antenna lead-in cable away from the latter''s connection to a conventional standard broadcast antenna and a standard broadcast (A.M.) radio receiver and citizens band communications equipment. This coupling circuit: 1. PASSES STANDARD BROADCAST SIGNALS TO THE STANDARD BROADCAST RECEIVER AND BLOCKS INCOMING CITIZENS BAND SIGNALS FROM THIS RECEIVER; 2. PASSES CITIZENS BAND SIGNALS AND BLOCKS STANDARD BROADCAST SIGNALS BETWEEN THE ANTENNA AND THE CITIZENS BAND COMMUNICATIONS EQUIPMENT; 3. INCREASES THE EFFECTIVE ELECTRICAL LENGTH OF THE ANTENNA FOR EFFICIENT TRANSMISSION AND RECEPTION OF CITIZENS BAND SIGNALS; AND 4. IMPEDANCE MATCHES THE ANTENNA LEAD-IN CABLE TO THE CITIZENS BAND COMMUNICATIONS EQUIPMENT.

Description

[75] Inventor:
United States Patent "[191 Ukmar 51 Apr. 3, 1973 [541 VEHICLE-MOUNTED ANTENNA AND COUPLING CIRCUIT THEREFOR Milosh L. Ukmar, Euclid, Ohio [73] Assignee: Allen Electric and Equipment Company, Chicago, Ill.
22 Filed: Apr. 22, 1965 21 Appl. Na; 450,027
[52] U.S. Cl. ..343/715, 343/745, 343/749,
[51] Int. Cl. ..H01q 1/34, HOlq 5/00, H01q 9/00 [58] Field of Search ..343/7l5, 858, 866, 741, 852, 343/749, 750; 325/21,25, 172-180 [5 6] References Cited UNITED STATES PATENTS 2,002,844 5/1935 Aceres et al ..343/850 X 2,884,632 4/1959 Dewitz et a1... ..343/850 2,910,655 10/1959 Ludvigson ..333/l7 3,129,386 4/1964 Daly ..343/749 X OTHER PUBLICATIONS Radio Physics Course Ghirardi Radio and Technical Publishing Co., New York, 1937 TX 6550 G5; pages 268-269 relied upon The A.R.R.L. Antenna Book The American Radio Relay League Inc. West Hartford, Conn., 1956 TK 6565 A6A6; pages 279-283 CB Antenna Duplexer Herb Friedman in Electronics Illustrated, Fawcett Publications, Inc, Greenwich, Conn. March, 1962, Vol 5, No. 2, TK 7800 E63, pages 66-67, 108, and 110.
Primary ExamirterHerman Karl Saalbach Assistant Examiner- Marvin Nussbaum Attorney-Ely, Golrick & Flynn [57] ABSTRACT Vehicle-mounted antenna system having a novel coupling circuit connected between the end of anantenna lead-in cable away from the latters connection to a conventional standard broadcast antenna and a standard broadcast (A.M.) radio receiver and citizens band communications equipment. This coupling circuit:
1. passes standard broadcast signals to the standard broadcast receiver and blocks incoming citizens band signals from this receiver;
2. passes citizens band signals and blocks standard broadcast signals between the antenna and the citizens band communications equipment;
3. increases the effective electrical length of the antenna for efficient transmission and reception of citizens band signals; and
4. impedance matches the antenna lead-in cable to the citizens band communications equipment.
15 Claims, 1 Drawing Figure c. 6. rem/scans? VEHICLE-MOUNTED ANTENNA AND COUPLING CIRCUIT THEREFOR This invention relates to a vehicle-mounted antenna system and to a coupling circuit therein for enabling a standard broadcast radio receiver antenna on a vehicle, such as an automobile, to be used also for citizens band communications equipment on the vehicle.
Citizens band transceivers have come into use for emergency signaling by vehicle drivers, particularly drivers of automobiles who may want to use the citizens band transmitter to call for assistance on the highway in case of an accident or breakdown of the automobile.
Previously, the vehicle-mounted antennas for citizens band transceivers have been of two different types: (1) an antenna designed specifically for the citizens band transceiver and entirely separate from the antenna for the standard broadcast radio receiver on the vehicle; and (2) an antenna specially designed both to receive standard broadcast radio programs, within the standard broadcast frequency range from 550 to 1,600 kilocycles per second, and to transmit and/or receive messages in the citizens band, within the frequency range from 26.965 to 27.255 megacycles per second. In either case, the use of the conventional standard broadcast radio receiver antenna on the vehicle for citizens band signaling was considered to be unfeasible.
The present invention is directed to a novel vehiclemounted antenna system and to a novel coupling circuit therein in which a conventional standard broadcast radio antenna on the vehicle, such as an automobile, may be used also for citizens band signaling when desired, as well as to perform its usual function of receiving standard broadcast radio programs, thereby avoiding the expense of providing either an additional special antenna for citizens band signaling or a specially designed dual purpose antenna.
Accordingly, it is an object of this invention to provide 'a novel and improved vehicle-mounted antenna system in which a conventional standard broadcast radio receiver antenna may be used for citizens band signaling.
Another object of this invention is to provide a novel and improved coupling circuit for connection to a conventional standard broadcast antenna on a vehicle to enable that antenna to be used for citizens band signalmg.
Further objects and advantages of this invention will be apparent from the following detailed description of certain presently-preferred embodiments which are described with'reference to the single FIGURE of the accompanying drawing, which illustrates the invention schematically.
Referring to the drawing, reference numeral designates a conventional vertically extending automobile antenna for receiving commercial A.M. radio programs within the standard broadcast frequency range from 550 to 1,600 kc. The antenna has the usual telescopically arranged sections which enable its physical length to be selectively adjusted. The antenna is mounted on the car body ll by any suitable insulation support, shown schematically at 12. For standard broadcast radio reception the antenna is connected to a conventional coaxial antenna lead-in cable 13, which has an impedance of about 125 ohms. The inner conductor of this cable is connected to the antenna at its lower end, and its outer conductor or sheath is grounded to the car body 11.
The conventional automobile radio antenna, even when extended to its maximum length, is much shorter than one-quarter wavelength of signals within the standard broadcast radio band and therefore it does not closely approach a resonant condition. Consequently, it is inherently inefficient at these signal frequencies, but the usual standard broadcast signal strength is so great that a highly efficient receiving antenna is not required, it being more important from the practical standpoint to keep the physical length of the antenna from exceeding a reasonable limit.
However, for broadcasting or receiving signals in the citizens band between 26.965 and 27.255 me the conventional automobile antennafor receiving standard broadcast programs is so inefficient that it was considered impractical heretofore for transmitting and/or receiving such signals at the much lower power levels of citizens band transmission. i
In accordance with a principal aspect of the present invention, this difficulty is overcome by providing a coupling circuit for the conventional automobile radio antenna which increases the effective electrical length of the antenna to a value at or closely approaching resonance for signals in the citizens band, so that the efficiency of the antenna is increased enough to enablev the successful transmission and/or reception of relatively low power citizens band signals.
Referring to the drawing, in the particular embodiment shown, this coupling circuit comprises a-series L- C circuit including a condenser 17 and an inductance coil 18 connected in series with each other between the junction point 19 and an adjustable switch contact 20. Junction point 19 is at the end of the antenna lead-in cable 13 remote from the antenna 10. Condenser 17 in this series L-C circuit is adjustable, and to facilitate its adjustability an additional fixed condenser 2lis connected across condenser 17. In this series L-C circuit,
condensers 17 and 21 constitute a .first condenser means and coil 18 is a first first coil. i 1
The adjustable switch contact 20 may be positioned selectively to engage any one of three fixed contacts 22, 23 and 24 which are connected to different points along the length of a second inductance coil 25, whose lower end in the drawing is connected to the outer conductor of a coaxial cable 30. An adjustable condenser 26 is connected across coil 25, and to facilitate its adjustment another condenser 27 is connected across condenser-26. Coil 25 and condensers 26 and 27 constitute a parallel L-C circuit in which coil 25 is the second coil and condensers 26, 27 are a second condenser means.
Coil 25 has an additional tap28, located above its lower end in the drawing and below the taps 22-24, which is connected through a blocking condenser 29 to one end of the inner conductor of cable 30. The opcitizens band and which may have a push-to-talk microphone switch. The outer conductor or sheath of cable 30 is connected conductively to the outer conductors of cables 13 and 15, and preferably is connected directly to the frame of transceiver 31 which is grounded to the vehicle body. Both cable 30 and transceiver 31 have a characteristic impedance of about 50 ohms which, it will be noted, is substantially lower than the impedance of the antenna lead-in cable 13.
The entire coupling circuit preferably is enclosed within a protective container 32, which may be of metal or a suitable non-metallic material and may be grounded to the vehicle body or not.
In the operation of this circuit, the series L-C circuit components 17, 18, 21 act as a filter to reject the incoming standard broadcast radio signals from the citizens band transceiver 31, while passing the citizens band signals to or from the transceiver 31 without substantial attenuation. In addition, however, the inductive reactance of coil 18 adds to the effective electrical length of the antenna for citizens band signals, so that its effective electrical length is at or sufficiently close to V4 wavelength for efficient transmission or reception of citizens hand signals. Coil 18 has this loading effect on the antenna even though they are separated by the antenna lead-in cable 13. Normally, this cable 13 has a low capacitive reactance and sufficient inductive reactance that it will present an inductive reactance to the citizens band signals and to this extent it will also increase the effective electrical length of the antenna slightly. However, it is coil 18 which provides the principal loading on the antenna.
Coil 25 in the parallel L-C circuit 25, 26, 27 matches the 50 ohm impedance of the citizens band transceiver 31 and its cable 30 to the substantially higher impedance of the antenna lead-in cable 13. Coil 25 functions as a step-up transformer, themagnitude of the step-up being determined by which tap 22, 23 or 24 is engaged by the adjustable switch contact 20. When the antenna 10 is extended to its full height (for example, about 56 inches), the movable switch contact is connected to the uppermost tap 22 on coil 25. When the antenna is retracted to its minimum length (for example, about 22 inches), contact 20. is connected to the lower tap 24. The third tap may be used when the antenna is partially retracted to a position about mid-way between these extremes.
The blocking capacitor 29 prevents de-tuning of this step-up transformer from the 50-ohm transceiver cable If desired, the lower end of coil 18 in the series L-C circuit may have a fixed connection to the upper end of coil 25 in the parallel L-C circuit, in which case the antenna 10 should be kept fully extended at all times for the most efficient transmission and reception of citizens band signals.
Further simplification may be achieved by making the condensers 17 and 26 fixed, instead of adjustable, for specific applications on a known vehicle having cables of known lengths. Except in such cases, these condensers preferably should be adjustable to permit precise tuning after the system is installed on the vehicle.
The function of choke coil 14 is to act as a filter which rejects the incoming or outgoing citizens band signals from the standard broadcast radio receiver 16, while permitting incoming standard broadcast program signals to be received without excessive attenuation.
From the foregoing description it will be apparent that the present coupling circuit in the complete embodiment shown performs the functions of increasing the effective electrical length of the antenna for efficient transmission and reception of citizens band signals, matching the antenna lead-in cable to the citizens band communications equipment, and passing separately the citizens band signals and the incoming standard broadcast signals between the antenna and the respective receiving and/or transmitting equipment on the vehicle.
While a presently-preferred embodiment of this invention has been described in detail and illustrated schematically in the accompanying drawing, and certain simplifications of the present coupling circuit have been referred to, it is to be understood that this invention is susceptible of other embodiments which differ in detail from the disclosed embodiments and that various refinements and omissions differing from the disclosed embodiments may be adopted without, however, departing from the spirit and scope of the present invention.
I claim:
1. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than /4 wavelength for citizens band signals and provided with an antenna lead-in cable, said coupling circuit compris- I ing filter circuit means for connection between said communications equipment and said cable and effective to reject incoming standard broadcast signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals.
2. A coupling circuit according to claim 1, wherein said filter circuit means comprises first condenser means and a first coil connected in series with each other. 1
3. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than onequarter wavelength for citizens hand signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising filter circuit means for connection at one end to the antenna lead-in cable and effective to reject incoming standard broadcast signals and to pass-signals in the citizens band, said filter circuit means having sufficient inductive reactance therein to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, and impedance matching means including a stepup transformer connected to the opposite end of said filter circuit means for matching the impedance of said communications equipment to that of the antenna leadin cable.
4. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than onequarter wavelength for citizens band signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising filter circuit means for connection at one end thereof to the antenna lead-in cable away from the antenna and operative to reject standard broadcast signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, impedance matching means connected at one end thereof to the opposite end of said filter circuit means and including a step-up transformer to match the impedance of said communications equipment to that of the antenna lead-in cable, and a blocking condenser connected to the opposite end of said impedance matching means.
5. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than onequarter wavelength for citizens band signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising:
a series L-C circuit for connection at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals;
and a parallel L-C circuit connected to the opposite end of said series L-C circuit and comprising parallel-connected second condenser means and a second coil, said second coil having one terminal thereon grounded and another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to said communications equipment, said second coil providing a step-up transformerfor matching the impedance of the communications equipment to that of the antenna lead-in cable.
6. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to the lead-in cable of a vehiclemounted antenna having a length substantially less than /4 wavelength for citizens band signals, said coupling circuit comprising'first filter circuit means for connection between the antenna lead-in cable and the citizens band communications equipment and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band,, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, and second filter means for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connectionto said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a standard broadcast set to said first and second filter means, respectively, each set will be operational.
7. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals and having a lead-in cable with an impedance substantially greater than that of said communications equipment, said coupling circuit comprising first filter circuit means for connection at one end to the antenna lead-in cable and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means connected to the opposite end of said first filter circuit means and operative to match the impedance of said communications equipment to that of the antenna lead-in cable, and second filter means for connection between the antenna leadin cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connection to said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a standard broadcast set to said first and second filter means, respectively, each set will be operational.
8. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than one-quarter wavelength for citizens band signals and provided with a lead-in cable having an impedance substantially greater than that of said equipment, said coupling circuit comprising first filter circuit means for connection at one end to the antenna lead-in cable away from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means including a step-up transformer connected to the opposite end of said first filter circuit means and operative to match the impedance of said citizens band communications equipment to that of the antenna leadin cable, and second filter means for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connection to said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a standard broadcast set to said first and second filter means, respectively, each set will be operational.
9. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals and provided with a lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising:
a series L-C circuit for connection at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals;
a parallel LC circuit connected at one end thereof to the opposite end of said series L-C circuit and comprising parallel connected second condenser means and a second coil, said second coil having one terminal thereon grounded and, another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to the citizens band communications equipment, said second coil providing a step-up transformer for matching the impedance of said communications equipment to that of the antenna lead-in cable;
a blocking condenser connected to said intermediate tap and adapted to be connected to said communications equipment;
and a choke coil for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals.
10. An antenna system comprising a vehiclemounted antenna having a length substantially less than /4 wavelength for citizens band signals, an antenna lead-in cable connected to said antenna, and a coupling circuit comprising filter circuit means for connection to said cable away fromthe antenna and effective to reject incoming standard broadcast signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effectiveelectrical length of the antenna for efficient transmission or reception of citizens band signals.
1 1. An antenna system for citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band Signals, an antenna lead-in cable having an impedance substantially different from that of said communications equipment, and a coupling circuit comprising filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, and impedance matching means connected to the opposite end of said filter circuitmeans to match the impedance of said communications equipment to that of the antenna lead-in cable.
12. An antenna system for both a standard broadcast radio receiver and citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than V4 wavelength for citizens band signals, an antenna lead-in cable connected to the antenna, and a coupling circuit comprising first filter circuit means connected to the antenna lead-in cable away from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, and second filter means connected to the antenna lead-in cable away from the antenna and effective to reject citizens band signals and to pass standard broadcast radio signals.
13. An antenna system for both a standard broadcast radio receiver and citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals, an antenna lead-in cable connected to said antenna and having an impedance substantially greater than that of said communications equipment, and a coupling circuit comprising first filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means connected to the opposite end of said first filter circuit means to match the impedance of said communications equipment to that of the antenna lead-in cable, and second filter means connected to the antenna lead-in cable remote from the antenna and effective to reject citizens band signals and to pass standard broadcast radio signals.
14. In combination on a vehicle,
a standard broadcast radio receiver;
citizens band communications equipment;
a vehicle-mounted antenna having a length substantially less than V4 wavelength for citizens band signals;
an antenna lead-in cable connected to the antenna and having an impedance substantially greater than that of said communications equipment;
first filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals;
impedance matching means connected between the opposite end of said first filter circuit means and said communications equipment to match the latters impedance to that of the antenna lead-in cable;
and second filter means connected between the antenna lead-in cable and said standard broadcast receiver and effective to reject citizens band signals and to pass standard broadcast radio signals.
15. in combination on a vehicle,
l a standard broadcast radio receiver;
citizens band communications equipment;
a vehicle-mounted antenna having a length substantially less than A wavelength for citizens band signals;
an antenna lead-in cable connected to the antenna and having an impedance substantially greater than that of said communications equipment;
aseries L'C circuit connected at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals;
a parallel L-C circuit connected at one end thereof to the opposite end of said series L-C circuit and comprising parallel connected second condenser means and a second coil, said second coil having one terminal thereon grounded and another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to the citizens band communications equipment, said second coil providing a step-up transformer for matching the impedance of said communications equipment to that of the antenna lead-in cable;
a blocking condenser connected between said intermediate tap and said communications equipment;
and a choke coil connected between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens hand signals and to pass standard broadcast radio signals.

Claims (15)

1. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals and provided with an antenna lead-in cable, said coupling circuit comprising filter circuit means for connection between said communications equipment and said cable and effective to reject incoming standard broadcast signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals.
2. A coupling circuit according to claim 1, wherein said filter circuit means comprises first condenser means and a first coil connected in series with each other.
3. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than one-quarter wavelength for citizens band signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising filter circuit means for connection at one end to the antenna lead-in cable and effective to reject incoming standard broadcast signals and to pass signals in the citizens band, said filter circuit means having sufficient inductive reactance therein to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, and impedance matching means including a step-up transformer connected to the opposite end of said filter circuit means for matching the impedance of said communications equipment to that of the antenna lead-in cable.
4. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than one-quarter wavelength for citizens band signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising filter circuit means for connection at one end thereof to the antenna lead-in cable away from the antenna and operative to reject standard broadcast signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, impedance matching means connected at one end thereof to the oppositE end of said filter circuit means and including a step-up transformer to match the impedance of said communications equipment to that of the antenna lead-in cable, and a blocking condenser connected to the opposite end of said impedance matching means.
5. A coupling circuit for connecting citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than one-quarter wavelength for citizens band signals and provided with an antenna lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising: a series L-C circuit for connection at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals; and a parallel L-C circuit connected to the opposite end of said series L-C circuit and comprising parallel-connected second condenser means and a second coil, said second coil having one terminal thereon grounded and another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to said communications equipment, said second coil providing a step-up transformer for matching the impedance of the communications equipment to that of the antenna lead-in cable.
6. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to the lead-in cable of a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals, said coupling circuit comprising first filter circuit means for connection between the antenna lead-in cable and the citizens band communications equipment and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, and second filter means for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connection to said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a standard broadcast set to said first and second filter means, respectively, each set will be operational.
7. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals and having a lead-in cable with an impedance substantially greater than that of said communications equipment, said coupling circuit comprising first filter circuit means for connection at one end to the antenna lead-in cable and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means connected to the opposite end of said first filter circuit means and operative to match the impedance of said communications equipment to that of the antenna lead-in cable, and second filter means for connection between the antenna lead-in cable and the standard broadcast radio receiver and effectIve to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connection to said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a standard broadcast set to said first and second filter means, respectively, each set will be operational.
8. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than one-quarter wavelength for citizens band signals and provided with a lead-in cable having an impedance substantially greater than that of said equipment, said coupling circuit comprising first filter circuit means for connection at one end to the antenna lead-in cable away from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means including a step-up transformer connected to the opposite end of said first filter circuit means and operative to match the impedance of said citizens band communications equipment to that of the antenna lead-in cable, and second filter means for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals, said first and second filter means being in parallel to each other for connection to said antenna lead-in cable, whereby, upon connection of a citizen band set (receiver, transmitter, or transceiver) and a standard broadcast set to said first and second filter means, respectively, each set will be operational.
9. A coupling circuit for connecting both a standard broadcast radio receiver and citizens band communications equipment to a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals and provided with a lead-in cable having an impedance substantially greater than that of said communications equipment, said coupling circuit comprising: a series L-C circuit for connection at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals; a parallel L-C circuit connected at one end thereof to the opposite end of said series L-C circuit and comprising parallel connected second condenser means and a second coil, said second coil having one terminal thereon grounded and, another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to the citizens band communications equipment, said second coil providing a step-up transformer for matching the impedance of said communications equipment to that of the antenna lead-in cable; a blocking condenser connected to said intermediate tap and adapted to be connected to said communications equipment; and a choke coil for connection between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals.
10. An antenna system comprising a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals, an antenna lead-in cable connected to said antenna, and a coupling circuit comprising filter circuit means For connection to said cable away from the antenna and effective to reject incoming standard broadcast signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals.
11. An antenna system for citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals, an antenna lead-in cable having an impedance substantially different from that of said communications equipment, and a coupling circuit comprising filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass citizens band signals, said filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, and impedance matching means connected to the opposite end of said filter circuit means to match the impedance of said communications equipment to that of the antenna lead-in cable.
12. An antenna system for both a standard broadcast radio receiver and citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals, an antenna lead-in cable connected to the antenna, and a coupling circuit comprising first filter circuit means connected to the antenna lead-in cable away from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, and second filter means connected to the antenna lead-in cable away from the antenna and effective to reject citizens band signals and to pass standard broadcast radio signals.
13. An antenna system for both a standard broadcast radio receiver and citizens band communications equipment comprising a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals, an antenna lead-in cable connected to said antenna and having an impedance substantially greater than that of said communications equipment, and a coupling circuit comprising first filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increase substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals, impedance matching means connected to the opposite end of said first filter circuit means to match the impedance of said communications equipment to that of the antenna lead-in cable, and second filter means connected to the antenna lead-in cable remote from the antenna and effective to reject citizens band signals and to pass standard broadcast radio signals.
14. In combination on a vehicle, a standard broadcast radio receiver; citizens band communications equipment; a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals; an antenna lead-in cable connected to the antenna and having an impedance substantially greater than that of said communications equipment; first filter circuit means connected at one end to the antenna lead-in cable remote from the antenna and effective to reject incoming standard broadcast radio signals and to pass signals in the citizens band, said first filter circuit means having sufficient inductive reactance to increasE substantially the effective electrical length of the antenna for efficient transmission or reception of citizens band signals; impedance matching means connected between the opposite end of said first filter circuit means and said communications equipment to match the latter''s impedance to that of the antenna lead-in cable; and second filter means connected between the antenna lead-in cable and said standard broadcast receiver and effective to reject citizens band signals and to pass standard broadcast radio signals.
15. In combination on a vehicle, a standard broadcast radio receiver; citizens band communications equipment; a vehicle-mounted antenna having a length substantially less than 1/4 wavelength for citizens band signals; an antenna lead-in cable connected to the antenna and having an impedance substantially greater than that of said communications equipment; a series L-C circuit connected at one end thereof to the antenna lead-in cable remote from the antenna, said series L-C circuit having series-connected first condenser means and a first coil, said first coil having an inductive reactance sufficient to increase substantially the effective electrical length of the antenna for efficient transmission or reception of signals in the citizens band, said series L-C circuit constituting a rejection filter for rejecting incoming standard broadcast radio signals and for passing citizens band signals; a parallel L-C circuit connected at one end thereof to the opposite end of said series L-C circuit and comprising parallel connected second condenser means and a second coil, said second coil having one terminal thereon grounded and another terminal thereon connected to said series L-C circuit and a tap intermediate said terminals for connection to the citizens band communications equipment, said second coil providing a step-up transformer for matching the impedance of said communications equipment to that of the antenna lead-in cable; a blocking condenser connected between said intermediate tap and said communications equipment; and a choke coil connected between the antenna lead-in cable and the standard broadcast radio receiver and effective to reject citizens band signals and to pass standard broadcast radio signals.
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US4106025A (en) * 1976-10-22 1978-08-08 Sidney Katz Coupling converter for vehicle antennas
US4208663A (en) * 1976-11-04 1980-06-17 Nippon Gakki Seizo Kabushiki Kaisha Antenna input circuit for AM/FM radio receiver
US4085405A (en) * 1976-11-09 1978-04-18 Mhz Enterprises, Inc. Antenna matching network
US4196394A (en) * 1977-02-14 1980-04-01 Solitron Devices, Inc. Antenna/like impedance matcher
US4157547A (en) * 1977-03-10 1979-06-05 Tenna Corporation Splitter for antenna for AM-FM, CB and method of conversion
US4141016A (en) * 1977-04-25 1979-02-20 Antenna, Incorporated AM-FM-CB Disguised antenna system
US4072900A (en) * 1977-05-23 1978-02-07 Ray Carl L CB Radio accessory unit
US4228544A (en) * 1978-01-19 1980-10-14 Guyton James H Antenna system using antenna base impedance transforming means
US4229743A (en) * 1978-09-22 1980-10-21 Shakespeare Company Multiple band, multiple resonant frequency antenna
US4352111A (en) * 1981-01-26 1982-09-28 Rca Corporation Multi-band antenna coupling network
US4654669A (en) * 1983-12-20 1987-03-31 Bsh Electronics, Ltd. Electrical signal separating device for window antenna having isolating and matching circuitry
US4903035A (en) * 1983-12-20 1990-02-20 Bsh Electronics, Ltd. Electrical signal separating device having isolating and matching circuitry
US4850034A (en) * 1987-08-27 1989-07-18 Campbell Mark E Method and apparatus for installing a cellular telephone in a vehicle
US5258728A (en) * 1987-09-30 1993-11-02 Fujitsu Ten Limited Antenna circuit for a multi-band antenna
US5530453A (en) * 1988-03-23 1996-06-25 Seiko Epson Corporation Wrist carried wireless instrument
US5170493A (en) * 1988-07-25 1992-12-08 Iimorrow, Inc. Combined low frequency receive and high frequency transceive antenna system and method
US5017935A (en) * 1989-03-23 1991-05-21 Nippondenso Co., Ltd. Multiband antenna system for use in motor vehicles
US5089829A (en) * 1989-12-22 1992-02-18 Yokowo Mfg. Co., Ltd Antenna device shared by three kinds of waves
DE4032013A1 (en) * 1989-12-22 1991-06-27 Yokowo Seisakusho Kk ANTENNA DEVICE FOR SHARED USE FOR THREE FREQUENCY RANGES
US5212813A (en) * 1990-02-28 1993-05-18 Dassault Aviation Device for the coupling to a common antenna of at least two transmitting and/or receiving devices
US6107972A (en) * 1992-08-07 2000-08-22 R.A. Millier Industries, Inc. Multiband antenna system
US6297711B1 (en) 1992-08-07 2001-10-02 R. A. Miller Industries, Inc. Radio frequency multiplexer for coupling antennas to AM/FM/WB, CB/WB, and cellular telephone apparatus
US5734352A (en) * 1992-08-07 1998-03-31 R. A. Miller Industries, Inc. Multiband antenna system
US6384696B1 (en) 1992-08-07 2002-05-07 R.A. Miller Industries, Inc. Multiplexer for sorting multiple signals from an antenna
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US5668564A (en) * 1996-02-20 1997-09-16 R.A. Miller Industries, Inc. Combined AM/FM/cellular telephone antenna system
US5771026A (en) * 1996-03-28 1998-06-23 Sti-Co Industries, Inc. Disguised broadband antenna system for vehicles
US6256480B1 (en) * 1998-01-23 2001-07-03 Sti-Co Industries, Inc. Broadcast coupler
US6549091B1 (en) * 1999-09-09 2003-04-15 Communications Systems International, Inc. Antenna coupler
US6400336B1 (en) * 2001-05-23 2002-06-04 Sierra Wireless, Inc. Tunable dual band antenna system
US20060049996A1 (en) * 2004-09-03 2006-03-09 Comprod Communications Ltd. Broadband mobile antenna with integrated matching circuits
US7202829B2 (en) * 2004-09-03 2007-04-10 Comprod Communications Ltd. Broadband mobile antenna with integrated matching circuits
WO2012090721A1 (en) * 2010-12-28 2012-07-05 株式会社村田製作所 Frequency-variable circuit and multiband antenna device
US20160140777A1 (en) * 2014-11-17 2016-05-19 Hyundai Motor Company Broadcasting unit, apparatus for broadcasting and communication, and vehicle having the same

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