BE476280A - - Google Patents

Description

       

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  BELL TELEPHONE MANUFACTURING COMPANY 4, rue Boudewyns ANTWERP.



  SELECTIVE CALLING SYSTEM.



   The present invention relates to a system for selective calling of a station in a communications system and its object in particular is the constitution of simple means of calling a desired station and putting said station into operation. - tion, in order to receive signals from the calling station.



   Communication systems have previously been proposed, in which a central station, or calling station, is provided with means of calling one or more external stations.



  In these systems, it was common practice to provide a common frequency channel, for transmission to all stations. Such a system has been used, for example, in police communications and other similar services, to call the desired station from a number of mobile, or field, remote stations from the station. central command station, or calling station. In such a communications system, it is desirable to have some means of calling and selecting which of the receiving stations.

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 to which it is desired to transmit signals and to put this particular station in an operating relationship with the calling station.



   The object of the present invention is the constitution of a simplified and relatively economical system for performing the calling operation and for placing the called station in an operating relationship with the calling station. In accordance with a feature of the invention, a single vibrating reed is used. To allow the reed to operate at suitable times, a first control is provided containing relays responsive to a received carrier wave signal and the relay, when actuated by the carrier wave, operates in such a manner. activating a monitoring element, such as a low-frequency amplifier, so that it receives and amplifies the modulating signals.

   A sensitive device, such as a relay coil, intended to actuate the vibrating reed is connected to the output of this circuit element when a particular modulating signal is received at the particular frequency at which said vibrating reed resonates. born.



   When the reed is thus entrained in vibration, it functions in such a way as to activate the output of the receiver and, also, to activate another control, comprising relay members, provided with a circuit slaved to the first. relay mentioned, in order to keep the system in operation, whether the call modulation frequency is present or not. In this way, the receiver is kept active to receive the signals from the calling station, as long as the carrier wave is present, but, as soon as the carrier wave is interrupted, the relays drop back to their rest position. , so that the receiver is again ready to receive the next call.



   The above features of the invention and others will be better understood on reading the following detailed description and examining the accompanying drawing which shows an

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 part of the receiver provided with means for making it active by transmitting a call signal, in accordance with one characteristic of the invention:
The receiver shown in the accompanying drawing is of the frequency modulation type. It comprises a transformer tuned at intermediate frequency 1, with primary winding 2 and secondary winding 3, the primary winding being tuned by means of a capacitor 4 and the secondary winding by means of a capacitor 5, in accordance with usual practice.

   The modulated intermediate frequency signal is applied to the primary winding of the transformer via conductors 6 and 7. These intermediate frequency signals can be taken from the output of the intermediate frequency amplifier of the transformer. radio receiver, in a well-known conventional manner, the description of which is superfluous here.



   A limiter tube 8, connected to the secondary circuit of transformer 1, may be of the conventional type used in frequency modulation receivers and comprising a cathode 9, a control grid 10 and an amde 11. Preferably, but not necessarily, the output of the limiter tube 8 is connected to a second limiter stage, represented symbolically by the rectangle 12, and whose output is connected to a discriminator stage 13, which can be constituted by a discriminator of any shape suitable, well known in the art, operating to produce the modulation frequencies.



   At the output of the discriminator, is connected a low-frequency ampli stage, comprising an electron filler tube 14, represented as of the triode type and comprising a filamentary cathode. 15, the control grid 16 and the anode 17.



  An output low frequency transformer 18 is connected to the output of the low frequency amplifier 14 and a suitable loudspeaker, or receiver 19 is connected to the output of said output transformer.



   We want to keep this receptor inactive until a

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 calling station transmits a call of a particular nature capable of making the receiver active and, in accordance with one feature of the invention, means are provided, in association with the receiver, to obtain this result. Means are provided for calling the receiver and making it active when a call is received, as well as keeping it active as long as a carrier frequency is received from the calling station. This control system comprises a triggering system and the particular triggering member shown is constituted by a gas thyroid 20, for example of the type comprising a cathode 21, a control grid 22, a screen grid 23 and an anode. 24.

   In the anode circuit of the tube 20 is connected a relay coil 25, in series between the anode 24 and a DC supply voltage source B +, the negative pole of which, designated by the reference B-, is connected to the cathode 21, through the part of a potentiometer 26 switched on by the cursor of said potentiometer.



  The affixed end of said potentiometer is connected to the screen grid 23. Between the anode 2 and the screen grid 23 is connected a capacitor 27. The value of the anode voltage supplied by the source B + is normally sufficient to cause oscillations of the type said relaxation in the core of capacitor 27 and coil 25, the frequency of said oscillations being determined by the particular values chosen on this coil and this capacitor.



   Stopping of the oscillations is provided when a carrier wave signal is received from the transmitting station. This result is obtained by a rectifier circuit comprising a resistor 28 and a capacitor 29 in parallel with it, the parallel assembly thus formed being connected between the cathode 9 and the lower end of the secondary resonant circuit of the transformer 1.



  Thanks to the use of this resistor-capacitor system, a rectification takes place in the gate circuit of the limiter tube 8, in the presence of the carrier wave signals, with, as a result, the passage

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 of a unidirectional current in resistor 28. One of the ends of the. resistor 28 is connected to earth and the other, through resistor 30, to grid 22 of the thyratron. As thyratron cathode 21 is also connected to earth (through potentiometer 26 and two resistors 31 and 32, all in series), the effect of the unidirectional current flowing through resistor 28 is to make grid 22 more negative.

   When the gate 22 is thus made negative, it blocks the thyratron, which stops the oscillations in the circuit of the relay coil 25, whose complex impedance is mainly ohmic and the. capacitor 27, which interrupts the current flowing through the coil of relay 25.



   The relay controls three armatures 33, 34 and 35, said armatures being arranged to come into contact with the corresponding fixed contacts 36, 37 and 38. The disposition is such that, when the circuit of the capacitor 27 and of the coil 25 is in state. .t oscillation, a sufficient current passes through the coil to keep the three armatures downwards, away from their respective contacts, but that, when the oscillations are interrupted by the presence of a carrier wave in the receiver, the three frames fall back on their contacts.



   When the armature 34 closes on its contact 37, it forms the circuit, previously opened, crossing the filament 15 of the low frequency amplifier 14, from the terminals of the heating voltage source, which are respectively designated by the references + f and -f. This activates the tube 14, until then in the non-operating state.



   The armature 33, when it closes on its contact 36, establishes a short-circuit across the terminals of the bias resistor 32. This short-circuiting of said resistor, coinciding with the operation of the amplifier at low frequency previously inactive, is in accordance with normal practice in cases where the power supply is so arranged that the additional load imposed on it by the amplifier at low

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 frequency is liable to produce unwanted variations in the power supplied. It is desirable to compensate for the variation in supply voltage due to this additional load by an adequate variation in the resistance of the gate polarization circuit.



   The other armature 35, when closed on its contact 38, operates so as to establish a servo circuit through the armature 39 and the contact 40 of a relay coil 41, when the latter relay is excites, as will be described later.



   Although the low-frequency amplifier 14, normally inactive, is made active by the presence in the receiver of a carrier frequency, as has just been described, this would not be sufficient to cause the receiver to output signals at the top. speaker, telephone, or similar devices 19, because there is still a short circuit at the terminals of the primary winding of the output transformer 18, This short circuit is formed by the conductors 42 and 43 and by the contact 44, normally closed by the armature 45. The armature 45 is one of the two armatures controlled by the relay coil 41, the other armature being the armature 39, mentioned previously.

   As long as the relay coil 41 remains de-energized, the two armatures 39 and 45 are in their upper position, that is to say that the armature 39 remains away from its contact 40 and that the armature 45 remains in contact with its contact. rest 44 and removed from its working contact 46.



   To complete the operation of the receiver, so that signals can be heard in the loudspeaker or in the telephone 19, a coil 47 is provided, in the anode circuit of the amplifier tube 14, in series between the anode 17 of said amplifier tube and the primary winding of the output transformer 18. In combination with this coil, there is provided a vibrating reed 48, with acute resonance at a determined frequency, so that, when this resonant frequency, or a very similar frequency passes through the coil 47, the reed vibrates.

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   The reed is connected to two contacts 49 and 50, arranged so as to close and open under the effect of the vibration of the reed. The vibration of said contacts serves to send, intermittently, a current in the relay coil 41, from the source of high direct voltage B +., The corresponding circuit extended from the earth, to through the relay coil 41, the conductor 51, the contacts 50 and 49 and the conductors 52 and 42, to the B + terminal of the power supply. Capacitor 53 is used to integrate the direct current pulses resulting from the intermittent closing of contacts 49 and 50, so as to produce a suitably constant current flow through relay coil 41.



   As soon as the coil 41 is excited by the vibration of the reed, the armatures 39 and 45 are attracted, the armature 39 establishing contact with its fixed contact 40 and the armature 45 leaving its contact 44 to come. in contact with the fixed contact 46. Breaking the contact at 44 serves to eliminate the short-circuit existing at the terminals of the input winding of the transformer $ 1, so that the receiver is then fully active, for oven - end signals to the loudspeaker 19. The establishment of contact between the armature 39 and the fixed contact 40 serves to complete the servo circuit which has been prepared through the armature 35 and its contact 38 and which is then completed through the relay winding 41, from the DC voltage source B +, to earth.

   Consequently, the current from the voltage source passing through the coil 41 then passes through the armature 39 and the contact 40, so as to keep the said coil 41 energized, even after the reed 46 ceases to vibrate. This energization of the coil 41, with the subsequent activation of the receiver, continues as long as the carrier signal is present in the receiver to hold the armature 35 against its contact 38. Consequently, the possibility that the receiver The output of the transmitter signals then depends on the presence of the carrier frequency, and not on the modulation signals that are present.

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   The frequency at which the vibrating reed 48 is made resonant does not need to be precisely determined, but is preferably in the low frequency range and the resonance should be very high. As a result, the reed is made to vibrate by the presence of a modulating signal at that particular resonant frequency, which constitutes the calling frequency of the station.



   In operation, the operator at the transmitting station, or calling station, activates his carrier wave, which is captured at the receiving station and said carrier wave produces, in resistor 28, the rectified current necessary to de-energize the relay coil 25 and activate the low frequency amplifier 14. Then, in order to call up the receiving station and finally put it into operation, the operator of the transmitting station transmits the inrush frequency during an inter-current. vallo time, by modulating its transmission carrier frequency by means of this particular calling frequency assigned to the station called, so that the transmitting station transmits a carrier frequency modulated in frequency by the signal of call.

   Said call signal is isolated in the discriminator 13 of the receiver, in the usual manner in frequency modulated receivers, and it is applied, in the form of a call signal, to the grill 16 of the amplifier tube 14. and, therefore, transmitted through coil 47, to the output of said low frequency amplifier tube, so as to actuate the reed, which in turn makes the receiver fully active for signal transmission. to the loudspeaker 19 and for maintaining the receiver in the active state, by actuating the relay coils 41 and 25, as explained above.



   The particular values of the various mounting elements which have been used in practice are not particularly critical. It is only necessary to give the various coils, the various capacitors and the various resistors values in suitable relation to each other, so that they function.

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 operate in combination, in accordance with usual practice, so as to produce the effects described. For thyratron tube 20, a tube of type 2-B-21 has been found suitable.

   The values of the other mounting elements which have been found satisfactory for use with this type of pipe are as follows:
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<tb> Capacitor <SEP> 27 <SEP> 0.1 <SEP> midrofarad
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<tb> Coil <SEP> of <SEP> relay <SEP> 25 <SEP> 12. <SEP> 000 <SEP> ohms
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<tb> Potentiometer <SEP> 26 <SEP> 200 <SEP> ohms
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<tb> Resistance <SEP> 31 <SEP> 200 <SEP> ohms
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<tb> Resistance <SEP> 32 <SEP> 200 <SEP> ohms
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<tb> Resistance <SEP> 28 <SEP> 22. <SEP> 000 <SEP> ohms
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<tb> Capacitor <SEP> 2 <SEP> 0.00005 <SEP> microfarad
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<tb> Resistance <SEP> 30 <SEP> 220.

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<tb> Tube <SEP> 14
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<tb> type <SEP> 2 <SEP> E <SEP> 30
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<tb> Voltage <SEP> of <SEP> heating <SEP> for
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<tb> the <SEP> tube <SEP> 14 <SEP> 6.3 <SEP> volts
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<tb> Voltage <SEP> + B <SEP> 180 <SEP> volts
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By operating the above thyratron tube in this assembly, it was found that the oscillations could be stopped with a variation of polarization of 0.4 volts. The absolute value of polarization around which this variation of 0.4 volts occurs is adjustable by means of potentiometer 26. In practice, this potentiometer made it possible to vary the voltage approximately from 0 to -8 volts.

   This voltage is made adjustable, to take account of the variations in noise level which can be expected in the various locations where the receiver is installed.



   Although a particular form of repeater and assembly has been described above, this description has been given only as an example and it will be appreciated that multiple variations may present themselves without depart from the limits of the invention.



  On the other hand, the invention is not limited to its application to communication systems with frequency modulation but it is also applicable to other kinds of modulation systems.

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 tion, such as amplitude modulation systems.



   Among the various variants of the system described above which may be adapted in accordance with certain characteristics of the invention, there is operation in silent tuning actuated by carrier frequency. Said operation can be obtained by simple short-circuiting of contacts 39 and 40 of relay 41. If silent tuning is not desired, of any kind the contacts 39 and 40 are short-circuited and the circuit of the thyratron 20 filament is cut.



   It will be recognized that the invention provides a calling and operating system of great utility for communications between a transmitting station and an external receiving station, for example a mobile field station, such as that of a police car, or the like, which may be called by the central office. The system is extremely simple and relatively inexpensive compared to other types of systems already proposed for similar purposes.



   Although only one embodiment of the invention has been described above, it should be understood that this description has been given only by way of example and cannot limit the scope of the invention. invention.


    

Claims (1)

ABSTRACT. The invention relates to a selective calling system intended to put into operation a signal receiver under the effect of a carrier frequency modulated by a signal. It envisages in particular for this purpose, in accordance with some of its characteristics, the combination of an electronic discharge device, of a second device sensitive to a predetermined signal coupled to the output of the first device, of a second device sensitive to a predetermined signal. control devices intended to maintain, in normal times, the first device inoperative, other devices, acting, upon reception of said carrier frequency, to arrange said control devices so as to make the device active. device <Desc / Clms Page number 11> electronic discharge. There is also provided a reproductive device, normally inactive, coupled to the output of said electronic discharge device and organs actuated by the operation of the device sensitive to said signal, to activate said reproductive device.