DEP0027686DA - Pendulum feedback receiver with a separate voltage source for supplying the quenching voltage that causes the pendulum feedback - Google Patents

Description

, at the

D-1020.

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Ha tent ine Corporation, v / ashingt on PC . (United>'e ^.: IitaSatdftK / ϊ

from America)

f., - ti t / iii; Pendulum feedback receiver .

It is well known that pendulum feedback receivers have a back ok double receiving oscillating circuit, the conductivity of which is alternately positive and negative during successive operating periods. This periodic change in conductivity can either by means of a self-locking oscillation generator forming part of the receiving oscillating circuit or a release cable tension fed to the receiving oscillating circuit from a separate oscillation generator. In the latter case, the amount of feedback, the bias of the receiving tube and the amplitude of the loosening line tension brought into harmony with each other in such a way that the most favorable operating conditions for the recipient arise. recipient However, this has the disadvantage that the amplitude of the extinction voltage varies according to certain operating data of the the quenching voltage supplying vibrator sets up and. therefore variable, changes in the amplitude of the erase voltage however, interfere with the aforementioned mutual coordination of the various operating factors of the receiver and therefore diminish his goodness,

According to the invention, this disadvantage is eliminated in that the catching oscillating circuit has one of the extinction voltage derived control voltage is supplied, the magnitude of which changes with the amplitude of the extinction voltage,

The invention is explained in more detail with reference to the drawing, which shows two embodiments of the inventive pen

Delriickkopplungsempfänger illustrates, 'The reception oscillating circuit of the receiver according to Fig. · 1

consists of the electron tube 10 and the

ter / the anode of this tube connected via capacitors 13, 14, composed of the coil 11 and the capacitor 12 tunable resonance circuit. The coil 11 is coupled to the coil 47 of the antenna circuit 46. In order to bring about the For the desired feedback, the center of coil 11 and the cathode of tube 10 are grounded. The anode of the tube 10 is Via a sieve consisting of the series coils 16, 17 and the transverse capacitors ISj 19, as well as via a node resistor 15 connected to the anode voltage level + B,

The er.ford.er-Iiehe extinguishing voltage required to bring about the pendulum feedback is given by an electron tube 25 in three-point circuit delivered. The tuning circuit consisting of the coil .26 and the adjustable capacitor 27 of this. The vibration generator is connected to the control grid of the tube via a grid capacitor 23 and a grid discharge / resistance 29 connected .. The anode of the tube is connected to the tuning circuit via the capacitor 30, while its cathode is connected to a tap of the sink 26 is in connection. The tube receives its anode voltage from the anode voltage source + B via the resistor 31. · The release rope tension is transmitted to the tube 10 from the cathode circuit of the tube 25 via a capacitor 32 and a high-frequency choke coil 33 is supplied. The output circuit of the oscillation generator 25 is high-frequency via the capacitor 34 grounded.

To generate the control voltage to be used according to the invention, the grid capacitor 23 is used in the present case and the grid bleeder resistor 29 of the tube 25 is used because

these two elements rectify part of the extinction voltage generated by the tube. To this Purpose is a tapping of the resistor 29 via a resistor 35 with the star to supply the erasing voltage. Tube 10 Serving line connected, instead of which the control voltage could of course also by means of a separate rectifier be generated.

A capacitor 40 is connected to the resonant circuit for demodulating the received characters Diode 41 connected to the load circuit from a choke coil 42, a resistor. 43 and one to these two elements capacitor 44 connected in parallel. Those in the receiving resonant circuit during the determined by the extinction voltage Periods of positive conductivity of this circle are produced by modulated oscillations through the diode. 41 demodulated and their modulation components resulting in the load circuit of the diode are transmitted via line 45 to a Not shown recycling group supplied.

During the appearance of the amplitude peaks of the extinction voltage generated in the tube 25, the flows in the grid circle Tube a grid current that produces a DC voltage at the resistor 29 that changes with the magnitude of the extinction voltage DC voltage is on the one hand as a self-acting bias voltage ■ of the tube 25 and on the other hand acts as a control voltage for the Tube 10 used. Since this control voltage is derived from the erase voltage and changes with it, it is the same Smpfangsschwingkreis from any change in the extinguishing voltage and consequently keeps the favorable mutual coordination of the operating factors mentioned at the beginning occur despite any changes in the release stress,

In the embodiment according to FIG. 2, the receiving oscillating circuit consists of one electrode system 3, a double triode 50 and the resonance circuit formed by the coil 51 and the capacitor 52. This capacitor is shown in dashed lines because it can be formed entirely or partially by the distributed capacitance and the stray capacitances of the coil 51. The coil 51 is inductively coupled to the coil 66 of the antenna circuit '65. One pole of said resonance circuit is earthed, and its other pole is connected to the control grid of the electrode system S- via the capacitor 53. The feedback of the receiving resonant circuit is brought about by the coil 54 connected to the anode of the electrode system 3-, and inductively coupled to the coil 51, as well as by the grounding of the cathode of the electrode system S-.

The extinction voltage is generated by the electrode system Sq of the pipes. 50 generated. The tuning circle of this slectrode system consists of the coil 55 and the capacitor 56. This capacitor is also connected to the anode circuit of the electrode system S-, connected and leads the extinguishing voltage to the receiving resonant circuit. Between the voting circle 55, 56 and. the control grid of the electrode system 'S is a capacitor 57 in. ^

Tet and two series-connected grid discharge resistors 5 ″ j and 59 are connected to the grid. The latter resistance is bridged by a capacitor 60 and has a tap from which the rectified control voltage derived _{from the erasure voltage generated in the electrode system S 9 is transferred} the coil 6l is fed to the control grid of the electrode system S. The electrode system Sg receives its anode voltage from the voltage source + B via an inductive connection with the coil ^^

coupled 'jpule 62, which causes the necessary feedback of the vibration generator. The demodulation of the The diode 41 causing the modulated oscillations produced in the receiving oscillating circuit is also connected to the oscillating circuit, as with the arrangement according to Fig, I.

The mode of operation of the arrangement corresponds to that of the arrangement according to FIG. 1, but there is between The difference between the two arrangements is that in the arrangement according to FIG. 2 the anode-cathode circuit of the slectrode system S-, the only voltage supplied is the erasing voltage, so this circuit does not receive any direct voltage. this has the advantage that the control voltage supplied to the receiving oscillating circuit has the influence of any changes thereon the voltage source + B fully compensates for the voltage supplied to the arrangement, while in the arrangement according to Fig. 1 such changes still exert a certain influence, since they not only act on the erase voltage, but also change the anode voltage of the tube 10,

Claims (1)

Γ a t β JL ^ JLJ ^, - A.JlJLJL ^ Jl..jiil 1, Pendelriickkopplun ^ sempfunrfer with a separate voltage source for the supply of the pendulum jolt coupling bringing about the quenching voltage, characterized by means for deriving a with the amplitude of the quenching Oannun "; changeable / ^ light voltage; from the extinguishing voltage and for supplying this ¹ Ie ^ eIo pannun / η? um Gmpfan ^ sschv / ingkreis, ?, TilMpf'm ^ er according to claim 1 _? characterized by means for rectifying the part of the quenching voltage, 3. 'he vaccinate according to claim 1 or 2, characterized by lattcl for the supply of the control unit to the LJmpfangschwingkrois combined with the extinguishing voltage.