US3665318A - Radio receiver - Google Patents

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Publication number
US3665318A
US3665318A US20669A US3665318DA US3665318A US 3665318 A US3665318 A US 3665318A US 20669 A US20669 A US 20669A US 3665318D A US3665318D A US 3665318DA US 3665318 A US3665318 A US 3665318A
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Prior art keywords
receiver
signal
connecting elements
stepping
mixers
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US20669A
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Stephen J Hoffman
Louis E Schonegg
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UNIDEN Corp AN IN CORP
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REGENCY ELECTRONICS
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03JTUNING RESONANT CIRCUITS; SELECTING RESONANT CIRCUITS
    • H03J7/00Automatic frequency control; Automatic scanning over a band of frequencies
    • H03J7/18Automatic scanning over a band of frequencies
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03JTUNING RESONANT CIRCUITS; SELECTING RESONANT CIRCUITS
    • H03J3/00Continuous tuning
    • H03J3/02Details
    • H03J3/12Electrically-operated arrangements for indicating correct tuning
    • H03J3/14Visual indication, e.g. magic eye
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03JTUNING RESONANT CIRCUITS; SELECTING RESONANT CIRCUITS
    • H03J5/00Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner
    • H03J5/24Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner with a number of separate pretuned tuning circuits or separate tuning elements selectively brought into circuit, e.g. for waveband selection or for television channel selection
    • H03J5/246Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner with a number of separate pretuned tuning circuits or separate tuning elements selectively brought into circuit, e.g. for waveband selection or for television channel selection using electronic means

Definitions

  • Fie'ld 305 315 is switchable from a free running state to a state in which it is 325/460 465 actuated to drive the counter one position by means of a I] 334 15 manual selector switch.
  • the number of channels to which the 1 radio tunes can be controlled by opening or closing one or more of a plurality of switches each of which is provided for a [56] References Cited respective one of the channels.
  • Each of the channels of the UNTED PATENTS receiver is capable of being pretuned to a desired frequency in 325/470 one or the other of two separate frequency bands.
  • ATTORNEYS RADIO RECEIVER BACKGROUND OF THE INVENTION others are used, for example, by volunteer firemen, by aircraft pilots, by watercraft operators and by professional newsmen to mention only a few of the many applications. Some of these radios step around from frequency to frequency locking on a frequency only if there is a transmission being received on that frequency. It is desirable that a radio of this type be capable of being preset or pretuned to frequencies which are in widely separate bands, such as, for example, the 30 to 50 Mc band allocated for police, fire, forestry, highway and railroad service purposes and the I22 to I74 Mc band allocated to amateur and other purposes.
  • One embodiment of the invention might include a radio receiver apparatus comprising an antenna, a pair of RF amplifiers coupled to said antenna, said RF amplifiers being arranged for receiving separate frequency hands; a pair of mixers each coupled to a respective one of said RF amplifiers, an IF and audio section coupled to said RF amplifiers and mixers, tuning apparatus tunable to a given plurality of channels, means for stepping said tuning apparatus through said given plurality of channels in a regular order, means for locking said tuning apparatus on a given channel as long as a signal is received on that channel, and means for presetting said channels of said tuning apparatus to couple either one or the other of said RF amplifiers and respective mixer to said IF and audio section whereby the frequency received by each channel is pre-selected from one or the other of said bands.
  • Objects of this invention are to provide an improved radio receiver and to provide a radio receiver which cycles through a predetermined number of frequencies which are preselected in separate frequency bands.
  • FIG. 1 is a schematic electrical block diagram of a radio receiver embodying this invention
  • FIG. 2 is a perspective view of the radio receiver of this invention.
  • FIGS. 3 and 4 are schematic electrical diagrams of some of the circuitry of the radio receiver.
  • an FM monitor type radio which has on its front face an on-off switch 11 and a squelch knob 12.
  • the radio is capable of receiving eight different frequencies each of which is associated with a respective one of the lights 1-8, inclusive, and switches 1-8' inclusive.
  • the radio has a two position switch a 15 which permits selection of automatic operation or manual operation and also has a manual channel selector switch 16.
  • the purpose of the radio is to monitor various radio frequencies. This is accomplished by the stepping at a constant rate through the various frequencies. When a frequency has a transmission on it, the radio locks on that frequency until the transmission stops.
  • the IF and audio portion 17 of the receiver is connected to an electronic switch 20 which places a 8+ or DC voltage on the terminal 21 when the receiver is tuned to a frequency on which there is no transmission.
  • the switch 15 When the switch 15 is in the illustrated position with the contact 22 in engagement with the contact 21, the 8+ is conducted to the to be tuned in order to the various desired frequencies.
  • the electronic sensing switch 20 is connected to the'IF and audio portion 17 of the receiver through the squelch circuit of the receiver.
  • the electronic sensing switch 20 is operated and no 8+ is provided to the tenninal 21. Consequently, the multivibrator does not run. Only when the transmission stops does the terminal 21 again receive the B+ so that the multivibrator is again caused to run.
  • the switch 15 may be operated so that the contact 22 engages and remains in engagement with the terminal 26.
  • the manual selector switch 16 is used to tune the receiver to the various frequencies.
  • the switch 16 is a push button type spring return switch. When the switch 16 is closed, a pulse of voltage is transmitted from B+ to the terminal 26 causing the multivibrator to move the counter 27 one position.
  • the capacitor 30 causes the voltage at the terminal 26 to quickly'drop back so that further running of the multivibrator does not occur until 8+ is again provided to the multivibrator.
  • the crystals l"'-8"' are located between the diode switching circuit 35 and the oscillator 36.
  • Each of the crystals is associated with a respective one of the lines 1"-8", a respective one of the lights 1-8 and a respective one of the switches 1'-8'.
  • the counterv energizes each of the lights in order and places each of the crystals in the circuit of the oscillator so that the receiver is tuned to the frequency determined by each crystal.
  • FIG. 3 may be considered a description of the pre-IF section of the receiver.
  • the oscillator 36 has the respective crystals 1"'-8"' connected in its circuit through the line 40, diodes 41, lines 42 and line 45.
  • the lines 42-have a sufficiently high voltage thereon to back bias the diodes 41 no current flows through the crystals.
  • the voltage, for example, at the line 40 in one specific embodiment of the invention is +8.5 volts.
  • the voltage supplied at point 46 is +13 volts.
  • FIG. 3 connects to FIG. 4 at the points 1"-8.
  • the voltage at the lines 42 is also 13 volts because there is no voltage drop through resistor 47 (330 k watts), or through the light bulbs 1-8 or through the resistors 50.
  • resistor 47 330 k watts
  • the switches l'-8' are closed, there is a voltage on the respective line 42 of approximately 10 volts because of voltage drop through the resistor 47 and the respective bulb 1-8. Still the voltage of 10 volts is not low enough to forward bias the respective diode 41.
  • the counter steps along it turns on the respective transistors lA-8A and transistors 55' and 56' which drops the voltage on the terminal 51' of the respective lights 1-8 to a voltage close to ground so that the respective light is turned on.
  • the turning on of the respective transistor drops the voltage on the respective terminal 51' to approximately 0.3 volts which turns on the respective diode 41 because it is now forward biased.
  • the respective crystal is placed in the oscillator circuit.
  • the transistors 1A and 2A are turned on at the same time through the line 60'; however, the transistors 55 and 56 are alternated in being turned on. It can be appreciated therefore that the voltage at the terminals 51 cycles in order through the lights 1-8.
  • FIG. 3 also connects or, in other words, the circuit of FIG. 3 can be connected to the circuit of FIG.'4 by the band selector matrix 49 which includes the jacks 1V-8V.
  • the jacks are connected to the collectors of each of the respective transistors lA-8A through the lines 48 and diodes 49'.
  • Each of the jacks can be inserted in either of two terminal receptacles lW-8W or lX-8X. All of the receptacles 1W-8W are connected to the line 50 while all of the receptacles 1X-8X are connected to the line 51.
  • the lines'50 and 51 each are coupled through respective current limiting resistors 52 to first and second band switches 54 and 55 each of which is a PNP transistor with its base 56 connected'to the resistor 52.
  • Each of the switch, transistors has its emitter 57 connected to a'positive constant DC voltage source 58'and has its collector 60 connected to respective lines 61 and 62.
  • the line 61 of switch 54 connects through line 66 to the biasing resistors 67 and 70.
  • the biasing resistor 67 is a part of the first band RF amplifier 71 while the biasing resistor 70 is a part of the first band mixer 72.
  • the second hand switch 55 is connected through biasing resistors 75 and 76 of the second band RF amplifier 77 and second band mixer 80.
  • Each of the RF amplifiers 71 and 77 is coupled to an antenna 81 through lines 82 and 85.
  • the mixers 72 and 80 include common components 86, 87, 90, 91 and 92 and are coupled through inductance 91 to inductance 95 representing the IF and audio portion of the receiver.
  • each of the jacks 1V-8V can be in serted into a receptacle which is connected to either the line 50 or the line 51.
  • the first band RF amplifier may be tuned, for example, to the lower frequency band while the second band RF amplifier may be tuned to the higher frequency band.
  • the radio may be preset by proper selection of the crystals l'8 and insertion of each jack in an appropriate receptacle so that the radio repeatedly cycles through a predetermined series of frequencies, some or all of which are high band and some or all of which are low band.
  • the counter has turned on transistors 1A and 55' so that the voltage at the terminal 51 light 1 is 0.3 volts.
  • the radio has been preset by the plugging in of the jack 1V in the receptacle 1W.
  • the first band switch 54 is turned on causing biasing current to be supplied through the transistor thereof from the constant DC voltage source 58 to the biasing resistors 67 and 70.
  • the first band RF amplifier and the first band mixer are thereby conditioned for operation. If a signal of appropriate frequency is being received through the antenna 81, the mixer 72 beats it against the output of the oscillator 36 to provide a signal input to the IF and audio portion 17 of the receiver.
  • a stepping radio receiver for production of audio signals from radio frequencysignals and capable of tuning to a plurality of separate channels on a plurality of bands and which comprises:
  • a pre-lF section having an RF signal receiving means
  • said RF signal receiving means being for providing suffcient RF signal level for said plurality of mixers
  • said plurality of mixers being coupled to the RF signal receiving means, there being one mixer for each of said plurality of bands;
  • an audio detection means coupled to said mixers for producing an audio signal when an.RF signal is being received, said audio detection means including squelch means for preventing the production of an audio signal when an RF signal is not being received;
  • said oscillator means being coupled to said mixers and operable at a given plurality of frequencies, there being one frequency for each channel to which the receiver cantune;
  • stepping means which is defeatable and which has a plurality of outputs which are coupled to said oscillator means for stepping said oscillator means through said given plurality of frequencies;
  • locking means which is connected to the stepping means for defeating said stepping means as long as an RF signal is being received and allowing resumption of operation of said stepping means when no signal is being received;
  • a programmable band-selecting means connected to the pre-IF'section of the receiver and to the steppingmeans for determining which mixer can have an output feeding the audio detection means whereby each channel received can be in any one of the plurality of bands
  • said programmable band-selecting means including a band selector matrix having 1. a plurality of first connecting elements, each of said first connecting elements coupling to one of said outputs of said stepping means, and
  • i. visual indicators connected to the stepping means to indicate the channel to which the receiver is being tuned.
  • the RF signal receiving means includes an antenna and an RF amplifier.
  • a stepping radio receiver for production of audio signals from radio frequency signals and capable of tuning to a plurality of separate channels on a plurality of bands and which comprises:
  • a pre-lF section having an RF signal receiving means
  • said RF signal receiving means being for providing sufficient RF signal level for said plurality of mixers
  • said plurality of mixers being coupled to the RF signal receiving means, there being one mixer for each of said plurality of bands;
  • a audio detection means coupled to said mixers for producing an audio signal when an RF signal is being received, said audio detection means including squelch means for preventing the production of an audio signal when an RF signal is not being received;
  • said oscillator means being coupled to said mixers and operable at a given plurality of frequencies, there being one frequency for each channel to which the receiver can tune;
  • stepping means which is defeatable and which has a plurality of outputs which are coupled to said oscillator means for stepping said oscillator means through said given plurality of frequencies;
  • locking means which is connected to the stepping means for defeating said stepping means as long as an RF signal is being received and allowing resumption of operation of said stepping means when no signal is being received;
  • a programmable band-selecting means connected to the pre-lF section of the receiver and to the stepping means for determining which mixer can have an output feeding the audio detection means whereby each channel received can be in any one of the plurality of bands, said programmable band-selecting means including a band selector matrix having I. a plurality of first connecting elements, each of said first connecting elements coupling to an output of said stepping means, and

Abstract

An FM monitor type radio having indicator lights on its front face to indicate the particular channel to which the receiver is tuned. A digital counter driven by a multivibrator cycles the radio in order, through its various channels. The multivibrator is switchable from a free running state to a state in which it is actuated to drive the counter one position by means of a manual selector switch. The number of channels to which the radio tunes can be controlled by opening or closing one or more of a plurality of switches each of which is provided for a respective one of the channels. Each of the channels of the receiver is capable of being pretuned to a desired frequency in one or the other of two separate frequency bands.

Description

Umted States Patent [151 3,665,318 Hoffman et a]. [4 1 May 23, 1972 [54] RADIO RECEIVER 2,487,857 11/1949 Davis ..33l/l6l 721 Inventors: Stephen J. Hoffman, Indianapolis; Louis E. gggglg 35:32; a 'g g Schon Brownsburg both of Ind. yers 3,045,114 7/1967 Mmdes ...325/305 [73] Assignee: Regency Electronics, Inc., Indianapolis, 3,596,183 7/ 1971 Spies ..325/465 Ind. Primary Examiner-Robert L. Griffin Flled: 1970 Assistant Examiner-Albert J. Mayer [2!] Appl No; 20,669 Attorney-Woodard,Weikart,Emhardt&Naughton [57] Y ABSTRACT .CI .325 470 325 307,325 334, A [52] U 5 325/335 325/432 324459 3255460 An FM momtor type rad1o havmg Indicator lights on its front 325/464 325/465 334/14 334/15 334mg 334/86 face to indicate the particular channel to which the receiver is 334/87 tuned. A digital counter driven by a multivibrator cycles the [51 1 m Cl 04b 1/32 radio in order, through its various channels. The multivibrator 58] Fie'ld 305 315 is switchable from a free running state to a state in which it is 325/460 465 actuated to drive the counter one position by means of a I] 334 15 manual selector switch. The number of channels to which the 1 radio tunes can be controlled by opening or closing one or more of a plurality of switches each of which is provided for a [56] References Cited respective one of the channels. Each of the channels of the UNTED PATENTS receiver is capable of being pretuned to a desired frequency in 325/470 one or the other of two separate frequency bands. 3,53l,724 9/1970 Fathauer 2,280,521 4/1942 Foster ..325/460 8Claims,4Drawing Figures 8/ 7/ flz v R F Ito/x5e w-AMPl/F/E? lg BAND Ii 544/0. /49
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ATTORNEYS RADIO RECEIVER BACKGROUND OF THE INVENTION others. Such radios are used, for example, by volunteer firemen, by aircraft pilots, by watercraft operators and by professional newsmen to mention only a few of the many applications. Some of these radios step around from frequency to frequency locking on a frequency only if there is a transmission being received on that frequency. It is desirable that a radio of this type be capable of being preset or pretuned to frequencies which are in widely separate bands, such as, for example, the 30 to 50 Mc band allocated for police, fire, forestry, highway and railroad service purposes and the I22 to I74 Mc band allocated to amateur and other purposes.
SUMMARY OF THE INVENTION One embodiment of the invention might include a radio receiver apparatus comprising an antenna, a pair of RF amplifiers coupled to said antenna, said RF amplifiers being arranged for receiving separate frequency hands; a pair of mixers each coupled to a respective one of said RF amplifiers, an IF and audio section coupled to said RF amplifiers and mixers, tuning apparatus tunable to a given plurality of channels, means for stepping said tuning apparatus through said given plurality of channels in a regular order, means for locking said tuning apparatus on a given channel as long as a signal is received on that channel, and means for presetting said channels of said tuning apparatus to couple either one or the other of said RF amplifiers and respective mixer to said IF and audio section whereby the frequency received by each channel is pre-selected from one or the other of said bands.
Objects of this invention are to provide an improved radio receiver and to provide a radio receiver which cycles through a predetermined number of frequencies which are preselected in separate frequency bands.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic electrical block diagram of a radio receiver embodying this invention;
FIG. 2 is a perspective view of the radio receiver of this invention; and
FIGS. 3 and 4 are schematic electrical diagrams of some of the circuitry of the radio receiver.
DESCRIPTION OF THE PREFERRED EMBODIMENT Referring more particularly to the drawings, there is illustrated an FM monitor type radio which has on its front face an on-off switch 11 and a squelch knob 12. The radio is capable of receiving eight different frequencies each of which is associated with a respective one of the lights 1-8, inclusive, and switches 1-8' inclusive. The radio has a two position switch a 15 which permits selection of automatic operation or manual operation and also has a manual channel selector switch 16. As mentioned, the purpose of the radio is to monitor various radio frequencies. This is accomplished by the stepping at a constant rate through the various frequencies. When a frequency has a transmission on it, the radio locks on that frequency until the transmission stops.
Referring to FIG. 1, the IF and audio portion 17 of the receiver is connected to an electronic switch 20 which places a 8+ or DC voltage on the terminal 21 when the receiver is tuned to a frequency on which there is no transmission. When the switch 15 is in the illustrated position with the contact 22 in engagement with the contact 21, the 8+ is conducted to the to be tuned in order to the various desired frequencies. The electronic sensing switch 20 is connected to the'IF and audio portion 17 of the receiver through the squelch circuit of the receiver. When the receiver is tuned to a frequency on which there is a transmission, the electronic sensing switch 20 is operated and no 8+ is provided to the tenninal 21. Consequently, the multivibrator does not run. Only when the transmission stops does the terminal 21 again receive the B+ so that the multivibrator is again caused to run.
The switch 15 may be operated so that the contact 22 engages and remains in engagement with the terminal 26. In this condition the manual selector switch 16 is used to tune the receiver to the various frequencies. The switch 16 is a push button type spring return switch. When the switch 16 is closed, a pulse of voltage is transmitted from B+ to the terminal 26 causing the multivibrator to move the counter 27 one position. The capacitor 30 causes the voltage at the terminal 26 to quickly'drop back so that further running of the multivibrator does not occur until 8+ is again provided to the multivibrator.
As shown schematically in FIG. 1, the crystals l"'-8"' are located between the diode switching circuit 35 and the oscillator 36. Each of the crystals is associated with a respective one of the lines 1"-8", a respective one of the lights 1-8 and a respective one of the switches 1'-8'. When all of the switches l'-8' are closed, the counterv energizes each of the lights in order and places each of the crystals in the circuit of the oscillator so that the receiver is tuned to the frequency determined by each crystal. If one or more of the switches 1'-8' is manually opened, the counter still cycles to and through the particular line l"-8" but because the particular switch is not closed, the particular light 1-8 is not turned on and the particular crystal 1"-8"' is not placed in the oscillator circuit. Consequently, that frequency is out of the cycle whether the receiver is manually stepped or automatically stepped.
The manner in which the lights are turned on and the respective associated crystals are simultaneouslyused will be clear from FIGS. 3 and 4. FIG. 3 may be considered a description of the pre-IF section of the receiver. In FIG. 3 the oscillator 36 has the respective crystals 1"'-8"' connected in its circuit through the line 40, diodes 41, lines 42 and line 45. As long as the lines 42-have a sufficiently high voltage thereon to back bias the diodes 41, no current flows through the crystals. The voltage, for example, at the line 40 in one specific embodiment of the invention is +8.5 volts. Referring to FIG. 4, the voltage supplied at point 46 is +13 volts. FIG. 3 connects to FIG. 4 at the points 1"-8. Therefore, when the switches l'8' are open, the voltage at the lines 42 is also 13 volts because there is no voltage drop through resistor 47 (330 k watts), or through the light bulbs 1-8 or through the resistors 50. Whenever any of the switches l'-8' is closed, there is a voltage on the respective line 42 of approximately 10 volts because of voltage drop through the resistor 47 and the respective bulb 1-8. Still the voltage of 10 volts is not low enough to forward bias the respective diode 41.
As the counter steps along, however, it turns on the respective transistors lA-8A and transistors 55' and 56' which drops the voltage on the terminal 51' of the respective lights 1-8 to a voltage close to ground so that the respective light is turned on. The turning on of the respective transistor drops the voltage on the respective terminal 51' to approximately 0.3 volts which turns on the respective diode 41 because it is now forward biased. Thus the respective crystal is placed in the oscillator circuit. As regards the counter operation, the transistors 1A and 2A are turned on at the same time through the line 60'; however, the transistors 55 and 56 are alternated in being turned on. It can be appreciated therefore that the voltage at the terminals 51 cycles in order through the lights 1-8.
FIG. 3 also connects or, in other words, the circuit of FIG. 3 can be connected to the circuit of FIG.'4 by the band selector matrix 49 which includes the jacks 1V-8V. The jacks are connected to the collectors of each of the respective transistors lA-8A through the lines 48 and diodes 49'. Each of the jacks can be inserted in either of two terminal receptacles lW-8W or lX-8X. All of the receptacles 1W-8W are connected to the line 50 while all of the receptacles 1X-8X are connected to the line 51. The lines'50 and 51 each are coupled through respective current limiting resistors 52 to first and second band switches 54 and 55 each of which is a PNP transistor with its base 56 connected'to the resistor 52. Each of the switch, transistors has its emitter 57 connected to a'positive constant DC voltage source 58'and has its collector 60 connected to respective lines 61 and 62. The line 61 of switch 54 connects through line 66 to the biasing resistors 67 and 70. The biasing resistor 67 is a part of the first band RF amplifier 71 while the biasing resistor 70 is a part of the first band mixer 72. In like fashion the second hand switch 55 is connected through biasing resistors 75 and 76 of the second band RF amplifier 77 and second band mixer 80. Each of the RF amplifiers 71 and 77 is coupled to an antenna 81 through lines 82 and 85. The mixers 72 and 80 include common components 86, 87, 90, 91 and 92 and are coupled through inductance 91 to inductance 95 representing the IF and audio portion of the receiver.
As suggested above, each of the jacks 1V-8V can be in serted into a receptacle which is connected to either the line 50 or the line 51. The first band RF amplifier may be tuned, for example, to the lower frequency band while the second band RF amplifier may be tuned to the higher frequency band. Thus, the radio may be preset by proper selection of the crystals l'8 and insertion of each jack in an appropriate receptacle so that the radio repeatedly cycles through a predetermined series of frequencies, some or all of which are high band and some or all of which are low band.
Assuming, for example, that the counter has turned on transistors 1A and 55' so that the voltage at the terminal 51 light 1 is 0.3 volts. Assume further that the radio has been preset by the plugging in of the jack 1V in the receptacle 1W. The first band switch 54 is turned on causing biasing current to be supplied through the transistor thereof from the constant DC voltage source 58 to the biasing resistors 67 and 70. The first band RF amplifier and the first band mixer are thereby conditioned for operation. If a signal of appropriate frequency is being received through the antenna 81, the mixer 72 beats it against the output of the oscillator 36 to provide a signal input to the IF and audio portion 17 of the receiver.
While the invention has been disclosed and described in some detail in the drawings and foregoing description, they are to be considered as illustrative and not restrictive in character, as other modifications may readily suggest themselves to persons skilled in this art.
The invention claimed is:
1. A stepping radio receiver for production of audio signals from radio frequencysignals and capable of tuning to a plurality of separate channels on a plurality of bands and which comprises:
a. a pre-lF section having an RF signal receiving means, a
plurality of mixers, and an oscillator means;
b. said RF signal receiving means being for providing suffcient RF signal level for said plurality of mixers;
c. said plurality of mixers being coupled to the RF signal receiving means, there being one mixer for each of said plurality of bands;
d. an audio detection means coupled to said mixers for producing an audio signal when an.RF signal is being received, said audio detection means including squelch means for preventing the production of an audio signal when an RF signal is not being received;
. said oscillator means being coupled to said mixers and operable at a given plurality of frequencies, there being one frequency for each channel to which the receiver cantune;
. stepping means which is defeatable and which has a plurality of outputs which are coupled to said oscillator means for stepping said oscillator means through said given plurality of frequencies;
g. locking means which is connected to the stepping means for defeating said stepping means as long as an RF signal is being received and allowing resumption of operation of said stepping means when no signal is being received;
h. a programmable band-selecting means connected to the pre-IF'section of the receiver and to the steppingmeans for determining which mixer can have an output feeding the audio detection means whereby each channel received can be in any one of the plurality of bands, said programmable band-selecting means including a band selector matrix having 1. a plurality of first connecting elements, each of said first connecting elements coupling to one of said outputs of said stepping means, and
2. a plurality of second connecting elements, said plurali-.
ty of said second connecting elements coupling to a first enabling means for enabling one of said mixers to have an IF signal at its output, and others of said second connecting elements coupling to a second enabling means for enabling another of said mixers to have an IF signal at its output, whereby the manual connection of one of said first connecting elements to one of said second connecting elements determines the band on which one of the channels will operate;
i. visual indicators connected to the stepping means to indicate the channel to which the receiver is being tuned.
2. The receiver of claim 1 in which the RF signal receiving means includes an antenna and an RF amplifier.
3 The receiver of claim 1 in which the oscillator means includes a plurality of crystals.
4. The receiver of claim 1 in which there is one visual indicator for each channel and the indicators are arranged in a row.
5. The receiver of claim 1 in which there is only one oscillator circuit in said oscillator means, said oscillator circuit producing an output at two frequencies.
6. The receiver of claim 1 in which said first connecting elements are jacks and said second connecting elements are receptacles into which said jacks can be inserted.
7. The receiver of claim 1 in which there are at least twice as many second connecting elements as there are first connect ing elements.
8. A stepping radio receiver for production of audio signals from radio frequency signals and capable of tuning to a plurality of separate channels on a plurality of bands and which comprises:
a. a pre-lF section having an RF signal receiving means, a
plurality of mixers, and an oscillator means;
b. said RF signal receiving means being for providing sufficient RF signal level for said plurality of mixers;
c. said plurality of mixers being coupled to the RF signal receiving means, there being one mixer for each of said plurality of bands;
d. a audio detection means coupled to said mixers for producing an audio signal when an RF signal is being received, said audio detection means including squelch means for preventing the production of an audio signal when an RF signal is not being received;
. said oscillator means being coupled to said mixers and operable at a given plurality of frequencies, there being one frequency for each channel to which the receiver can tune;
f. stepping means which is defeatable and which has a plurality of outputs which are coupled to said oscillator means for stepping said oscillator means through said given plurality of frequencies;
g. locking means which is connected to the stepping means for defeating said stepping means as long as an RF signal is being received and allowing resumption of operation of said stepping means when no signal is being received;
h. a programmable band-selecting means connected to the pre-lF section of the receiver and to the stepping means for determining which mixer can have an output feeding the audio detection means whereby each channel received can be in any one of the plurality of bands, said programmable band-selecting means including a band selector matrix having I. a plurality of first connecting elements, each of said first connecting elements coupling to an output of said stepping means, and
2. a plurality of second connecting elements connected to the pre-lF section of the receiver and being of a design

Claims (10)

1. A stepping radio receiver for production of audio signals from radio frequency signals and capable of tuning to a plurality of separate channels on a plurality of bands and which comprises: a. a pre-IF section having an RF signal receiving means, a plurality of mixers, and an oscillator means; b. said RF signal receiving means being for providing sufficient RF signal level for said plurality of mixers; c. said plurality of mixers being coupled to the RF signal receiving means, there being one mixer for each of said plurality of bands; d. an audio detection means coupled to said mixers for producing an audio signal when an RF signal is being received, said audio detection means including squelch means for preventing the production of an audio signal when an RF signal is not being received; e. said oscillator means being coupled to said mixers and operable at a given plurality of frequencies, there being one frequency for each channel to which the receiver can tune; f. stepping means which is defeatable and which has a plurality of outputs which are coupled to said oscillator means for stepping said oscillator means through said given plurality of frequencies; g. locking means which is connected to the stepping means for defeating said stepping means as long as an RF signal is being received and allowing resumption of operation of said stepping means when no signal is being received; h. a programmable band-selecting means connected to the pre-IF section of the receiver and to the stepping means for determining which mixer can have an output feeding the audio detection means whereby each channel received can be in any one of the plurality of bands, said programmable band-selecting means including a band selector matrix having 1. a plurality of first connecting elements, each of said first connecting elements coupling to one of said outputs of said stepping means, and 2. a plurality of second connecting elements, said plurality of said second connecting elements coupling to a first enabling means for enabling one of said mixers to have an IF signal at its output, and others of said second connecting elements coupling to a second enabling means for enabling another of said mixers to have an IF signal at its output, whereby the manual connection of one of said first connecting elements to one of said second connecting elements determines the band on which one of the channels will operate; i. visual indicators connected to the stepping means to indicate the channel to which the receiver is being tuned.
2. a plurality of second connecting elements, said plurality of said second connecting elements coupling to a first enabling means for enabling one of said mixers to have an IF signal at its output, and others of said second connecting elements coupling to a second enabling means for enabling another of said mixers to have an IF signal at its output, whereby the manual connection of one of said first connecting elements to one of said second connecting elements determines the band on which one of the channels will operate; i. visual indicators connected to the stepping means to indicate the channel to which the receiver is being tuned.
2. The receiver of claim 1 in which the RF signal receiving means includes an antenna and an RF amplifier.
2. a plurality of second connecting elements connected to the pre-IF section of the receiver and being of a design as to mate with said first connecting elements, whereby the manual connection of one of said first connecting elements to one of said second connecting elements determines the band on which one of the channels will operate; and i. visual indicators connected to the stepping means to indicate the channel to which the receiver is being tuned.
3. The receiver of claim 1 in which the oscillator means includes a plurality of crystals.
4. The receiver of claim 1 in which there is one visual indicator for each channEl and the indicators are arranged in a row.
5. The receiver of claim 1 in which there is only one oscillator circuit in said oscillator means, said oscillator circuit producing an output at two frequencies.
6. The receiver of claim 1 in which said first connecting elements are jacks and said second connecting elements are receptacles into which said jacks can be inserted.
7. The receiver of claim 1 in which there are at least twice as many second connecting elements as there are first connecting elements.
8. A stepping radio receiver for production of audio signals from radio frequency signals and capable of tuning to a plurality of separate channels on a plurality of bands and which comprises: a. a pre-IF section having an RF signal receiving means, a plurality of mixers, and an oscillator means; b. said RF signal receiving means being for providing sufficient RF signal level for said plurality of mixers; c. said plurality of mixers being coupled to the RF signal receiving means, there being one mixer for each of said plurality of bands; d. a audio detection means coupled to said mixers for producing an audio signal when an RF signal is being received, said audio detection means including squelch means for preventing the production of an audio signal when an RF signal is not being received; e. said oscillator means being coupled to said mixers and operable at a given plurality of frequencies, there being one frequency for each channel to which the receiver can tune; f. stepping means which is defeatable and which has a plurality of outputs which are coupled to said oscillator means for stepping said oscillator means through said given plurality of frequencies; g. locking means which is connected to the stepping means for defeating said stepping means as long as an RF signal is being received and allowing resumption of operation of said stepping means when no signal is being received; h. a programmable band-selecting means connected to the pre-IF section of the receiver and to the stepping means for determining which mixer can have an output feeding the audio detection means whereby each channel received can be in any one of the plurality of bands, said programmable band-selecting means including a band selector matrix having
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Cited By (25)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3787788A (en) * 1973-01-26 1974-01-22 Gte Sylvania Inc Varactor tuner band switching and signal indicating circuitry
US3790909A (en) * 1973-01-26 1974-02-05 Gte Sylvania Inc Varactor tuner band switch circuitry
US3794925A (en) * 1972-06-27 1974-02-26 Gen Res Electronics Inc Frequency-skipping system for a signal-seeking receiver
US3798553A (en) * 1971-02-09 1974-03-19 Matsushita Electric Ind Co Ltd Frequency sweep device having two alternately swept oscillators
US3801922A (en) * 1972-08-21 1974-04-02 Gte Sylvania Inc Rf amplifier control system
US3801914A (en) * 1972-06-27 1974-04-02 Gen Res Electronics Inc Priority-frequency system for a signal-seeking receiver
US3824475A (en) * 1973-02-01 1974-07-16 Tennelec Scanning radio receiver
JPS4994221A (en) * 1973-01-11 1974-09-06
US3845394A (en) * 1971-11-29 1974-10-29 Sony Corp Broadcast receiver
US3869672A (en) * 1972-05-13 1975-03-04 Int Standard Electric Corp Method and arrangements for the digital control of operating functions, radio and television receivers
US3883807A (en) * 1974-05-30 1975-05-13 Motorola Inc Tuning control system
US3895303A (en) * 1973-09-04 1975-07-15 Gen Res Electronics Inc Oscillator-actuated bandswitch
US3903472A (en) * 1972-02-15 1975-09-02 Loewe Opta Gmbh Bidirection local-remote arrangement for adjusting TV receivers
US3919646A (en) * 1974-05-06 1975-11-11 Hy Gain Electronics Corp Scanning receiver
US3961261A (en) * 1974-03-14 1976-06-01 Tennelec, Inc. Crystalless scanning radio receiver
US3974452A (en) * 1974-09-06 1976-08-10 Regency Electronics, Inc. Battery powered scanning receiver with synchronous power cycling through electrically operable visual indicators
US3979744A (en) * 1973-09-14 1976-09-07 International Standard Electric Corporation Circuit arrangement for the digital control of operating functions via sensor electrodes, especially in radio and television receivers
US3987400A (en) * 1974-11-04 1976-10-19 Masco Corporation Of Indiana Multiband scanning radio receiver
JPS51130112A (en) * 1975-05-06 1976-11-12 General Res Obu Erekutoronitsukusu:Kk Signal probing receiver
US4000468A (en) * 1973-09-20 1976-12-28 Teaberry Electronics Corporation Programmable signal seeking radio receiver
US4114104A (en) * 1976-11-15 1978-09-12 E. F. Johnson Company Channel skip memory system for radio receiver
US4123715A (en) * 1975-01-30 1978-10-31 Masco Corporation Of Indiana Program apparatus for radio receiver using frequency synthesizer
US4135158A (en) * 1975-06-02 1979-01-16 Motorola, Inc. Universal automotive electronic radio
US4887086A (en) * 1987-07-28 1989-12-12 Trycomm Technologies, Inc. Combination scanner and radar detector
US5926752A (en) * 1998-01-15 1999-07-20 Trw Inc. Apparatus and method for remote convenience message transmission and control with a tunable filter receiver

Cited By (26)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3798553A (en) * 1971-02-09 1974-03-19 Matsushita Electric Ind Co Ltd Frequency sweep device having two alternately swept oscillators
US3845394A (en) * 1971-11-29 1974-10-29 Sony Corp Broadcast receiver
US3903472A (en) * 1972-02-15 1975-09-02 Loewe Opta Gmbh Bidirection local-remote arrangement for adjusting TV receivers
US3869672A (en) * 1972-05-13 1975-03-04 Int Standard Electric Corp Method and arrangements for the digital control of operating functions, radio and television receivers
US3794925A (en) * 1972-06-27 1974-02-26 Gen Res Electronics Inc Frequency-skipping system for a signal-seeking receiver
US3801914A (en) * 1972-06-27 1974-04-02 Gen Res Electronics Inc Priority-frequency system for a signal-seeking receiver
US3801922A (en) * 1972-08-21 1974-04-02 Gte Sylvania Inc Rf amplifier control system
JPS4994221A (en) * 1973-01-11 1974-09-06
US3790909A (en) * 1973-01-26 1974-02-05 Gte Sylvania Inc Varactor tuner band switch circuitry
US3787788A (en) * 1973-01-26 1974-01-22 Gte Sylvania Inc Varactor tuner band switching and signal indicating circuitry
US3824475A (en) * 1973-02-01 1974-07-16 Tennelec Scanning radio receiver
US3895303A (en) * 1973-09-04 1975-07-15 Gen Res Electronics Inc Oscillator-actuated bandswitch
US3979744A (en) * 1973-09-14 1976-09-07 International Standard Electric Corporation Circuit arrangement for the digital control of operating functions via sensor electrodes, especially in radio and television receivers
US4000468A (en) * 1973-09-20 1976-12-28 Teaberry Electronics Corporation Programmable signal seeking radio receiver
US3961261A (en) * 1974-03-14 1976-06-01 Tennelec, Inc. Crystalless scanning radio receiver
US3919646A (en) * 1974-05-06 1975-11-11 Hy Gain Electronics Corp Scanning receiver
US3883807A (en) * 1974-05-30 1975-05-13 Motorola Inc Tuning control system
US3974452A (en) * 1974-09-06 1976-08-10 Regency Electronics, Inc. Battery powered scanning receiver with synchronous power cycling through electrically operable visual indicators
US3987400A (en) * 1974-11-04 1976-10-19 Masco Corporation Of Indiana Multiband scanning radio receiver
US4123715A (en) * 1975-01-30 1978-10-31 Masco Corporation Of Indiana Program apparatus for radio receiver using frequency synthesizer
JPS51130112A (en) * 1975-05-06 1976-11-12 General Res Obu Erekutoronitsukusu:Kk Signal probing receiver
JPS5744053B2 (en) * 1975-05-06 1982-09-18
US4135158A (en) * 1975-06-02 1979-01-16 Motorola, Inc. Universal automotive electronic radio
US4114104A (en) * 1976-11-15 1978-09-12 E. F. Johnson Company Channel skip memory system for radio receiver
US4887086A (en) * 1987-07-28 1989-12-12 Trycomm Technologies, Inc. Combination scanner and radar detector
US5926752A (en) * 1998-01-15 1999-07-20 Trw Inc. Apparatus and method for remote convenience message transmission and control with a tunable filter receiver

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