BE359908A - - Google Patents

Description

       

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 EMI1.1
 



  "éàÉi ± ± GTî0î% NÉhùàITS AUX GROUND DETEÙRX àRDï0ÉL ± CIRIgùXS ,,, pkJtCTI01NEil.JrtiTS TO IuL'CPTORS RAD ± A VA- RIATION AUT01UTIQ.U.ill DE S. # NSIBILITE"
French patent 560.206 describes a receiver assembly in which the variations in potential, created
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 For the current detected in a resistor placed next to the detector, are applied to the grids of one or more lamps placed before the detector. It follows that these variations in potential modify the sensitivity of the receiver.

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 tor in the opposite direction of the intensity atcs o7cill.tio: r =. # .- picked.



  The assembly, conforrje :: ... le a l'ig, 1, cut bay- :. U} 1 or more reson8teursl - "1. excited) 8.], 'The o) cill :: ion3 arriving at 0 of the antenna; a possible c-inpiificction 8; detection by the lamp 9. The JL :. eZ: l: tzc: t.; ..-; l'8 [, 'it de -? - 3 the resistance-capacitance set 1-11 1:; J =: ccl'oi' '' n.8Hlent ; of po- tential all the more important as the oscillations collected by the antenna were more 7.:ii.vYl. these 8.ocl'oi3- sement, applied to the grid-, of the 1 & 1 [0rJ 40 - ¯: .1, d iii; 1 1; t # ib plus or minus the resistances of the filament-plate spaces of lamps 40 - 41, bypassing circuits :, 1 and 4.

   They-
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 followed by an increase in the damping of the receivers, a reduction in the sensitivity of the receiver, the cursor 45, left available to the operator being adjusted in such a way.
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 that the plate circuits of the lamps 40 - 41 begin to output only under the action of parasitic oscillations more intense than the signal. But it is clear that if, for one cause or another, the intensity of the signal were to exceed the expected value, the sensitivity of the receiver would automatically decrease and tend to bring the detected current back to an invariable value.

   The low frequency part of the receiver, comprising the DC amplifier stages. 14 - 19 - 24, is that described in. first addition N 26,608 of the aforementioned patent. 26 represents the reading or recording apparatus. Or !: obviously could have placed the cursor 45 controlling the lamps 40 and 41 on any one of the connecting piles 12 - 17 - 22, provided that the direction of the corresponding plate currents was suitable, Likewise, the the result obtained would have been identical if circuits 1 - 4, instead of being 'coupled directly, had it;

     been through lamps.

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   The device shown in FIG. 1 was therefore originally applied to the attenuation of parasitic oscillations more intense than the signal.



   The present invention, the H. de Belleseize system, is aimed at the novel application of devices of this type to the approximate correction of amplitude alterations known under the name of fading.



   This application can be carried out, in a simple way, by modifying the setting as appropriate. the device can thus be actuated by the signal itself, so that the sensitivity of the receiver varies in the opposite direction to the latter.



   This new application is more efficiently achieved by the circuit arrangements illustrated by Figs. 2 and 3, in which we have, for greater clarity, kept the same receiving device; but it should be understood that the invention applies to any other receiver supplying a sufficiently intense detected current.



   The main modification required by the new application is to significantly increase the time constant of the resistance-capacitor circuit (10 - 11 in the three figures) intended for the control of the previous sensitivity of the detector. This time constant must be high enough so that the modifications' in the amplitude of the signal constituting the signaling proper (modulation of the carrier wave in telephony or carrier wave telegraphy; and lines in ordinary telegraphy ) do not cause appreciable variations in potential at the top of resistance 10;

   otherwise, the sensitivity of the receptor varying in the opposite direction to the amplitude constituting the signaling, the latter

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 would tend to disappear. this reservation being made, the invention applies without distinction to any mode of manipulation or modulation; in all-or-nothing telegraphy, the succession of the dots' and trait :, will result in an accumulation of electricity in the condense their 11, which we will be careful to choose all the more large (They llb 11c) that handling will be slower; in this way, the signal will indeed cause, in resistor 10, a permanent variation of potential, subject to negligible andulations.



   We find in the. Fig. 2 the same organs as in FIG. 1. However, with a view to the new application, the circuit 10-11, as well as the cursor 45 have been transferred to the end of the receiver, where the amplitude is higher, so as to produce a more energetic action on the receiver. lamps 40 - 41. The used portion of source 12 is chosen such that in the absence of a signal, the voltage of gates 40 - 41 is more negative than the value canceling the currents; corresponding plates; This has the double advantage of leaving the receiver its maximum sensitivity to weak signals, and of increasing in relative value the rapidity of de-sensitization under the action of intense signals.

   The resistance-capacitor circuit (la and 11a 11b 11) conforms to the indications already given.



   The assembly shown in Fig. 3 is identical to the previous one, except that the lamp 45 whose plate potential variations acting on the system 40 - 41 is:; on-. ted in parallel on the reception proper. The operation is exactly the same.

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   Another solution, due to Mr. J. BETHENOD, makes it possible to achieve the object of the invention by the use of a lamp with two grids, generally mounted according to the diagram of FIG. 4. The variations in potential created in the resistance traversed by the detected current are applied to the external grid ge, possibly through a bias source, not shown, and a capacitor 4, adjustable if necessary, shunted. by a resistance 5.

   The incoming oscillations are applied at 1, between the internal grid g1 and the cathode c; the plate is connected to the detector, if necessary through any suitable amplifier systems, and in particular one or more bigrid lamps comprising the preceding arrangements. it is thus possible to adjust the amplification sensitivity before detection depending on the intensity of the current detected. It is moreover possible to reverse the roles of the gates (interior and exterior), by a suitable choice of the bias potentials fixed in series in the connection with the resistance through which the detected current flows.


    

Claims (1)

-'ABSTRACT - In a receiving device, the sensitivity of the members preceding the detector of which is controlled by the application, to one or more electrodes mounted in parallel, of the variations in potential created in a resistor by the detected current. parallel on this, resistance of a fixed or adjustable capacity, the whole of the resistance and of the capacity having a time constant notably greater than the duration of the points, lines, <Desc / Clms Page number 6> silences or undulations whose succession constitutes the signal. In this receiving device, automatic desensitization using the detected current is carried out via one or more valves with several electrodes, the electrode connected directly to the organs anterior to the detector maintaining an infinite resistance as long as the signal strength remains below a predetermined value. Realization of devices of this kind by means of bigrille lamps.