DE1487154C - Demodulator for multiple frequency keyed telegraphy signals - Google Patents

Description

The invention relates to a demodulator for multiple frequency shift keyed telegraph signals, in which a parallel resonance circuit and a series resonance circuit are in series (German patent 1050 801).

The invention is based on the object of the edges obtained by the demodulation To give telegraphic signs a steeper course.

The invention consists in the above demodulator that to steepen the edges the demodulation characteristic from the alternating voltage feeding the series resonant circuit or from the alternating current flowing through it an anti-phase alternating voltage through a phase reversal circuit won and connected in series to the series resonant circuit and is dimensioned so that the AC voltage occurring at the loss resistance of the series resonance circuit is completely or partially canceled is. ·

It is known from distortion factor measuring bridges from which a series resonance circuit flows Alternating current through a phase reversal circuit (transformer) produces an alternating voltage in phase opposition to win and to connect in series to the series resonant circuit and dimensioned so that the loss resistance the alternating voltage occurring in the series resonance circuit is completely or partially canceled so that the voltage of the fundamental frequency is suppressed. This well-known distortion factor meter but could not give any suggestion for solving the problem underlying the invention, because the Tasks are completely different from each other.

The invention is explained in more detail below with reference to the drawing. In Fig. 1 the to be demodulated Input voltage through an input transformer 1, 2 and a resistor 3 to the Series connection of the parallel resonance circuit 15, 16 and the series resonance circuit 4, 5 out. the Telegraph signals obtained by this circuit are known in a known manner depending on the desired code Way taken either from the outputs 17 and 18 or 17 and 8.

The object on which the invention is based is achieved by the additional circuit in FIG. 1 solved below, which is shown in FIG. 2 is recorded again with the series resonance circuit 4, 5 alone. This circuit derives a compensation voltage from the current flowing through the series resonant circuit. For this purpose, FIG. 1 in the circuit feeding the series resonance circuit, a resistor 9 of z. B. 550 ohms switched, from which the control voltage for the transistor 10 is removed. The capacitor 14 of e.g. B. 0.5 μΡ is used only for the DC separation of the resistor 9 from the base voltage divider 12, 13 (each 12ki2).

The transistor K) connected in the collector circuit has the task of introducing the compensation voltage with the correct phase into the series resonant circuit with low resistance. If the steepness of the transistor is sufficiently large, the equivalent resistance of the collector circuit effective at the emitter will also be sufficiently small, so that the one required for the optimum nntdiinipl'iiii); The set controller 9 is only this amount greater than the loss resistance 6. If the capacitive resistance of the capacitor 14 is not sufficient against the resistance value of the resistor taiuk: ¹ , 9, an additional reactive component is coupled into the output circuit, which shifts the resonance point to the lower frequency. With the in F i g. 1, it was possible to undamp the voltage occurring at terminals 8 by a factor of 50 at the resonance point of the series resonance circuit.

By undamping the series resonance circuit, the demodulation characteristic curve is steeper due to undamping of the two series resonance points of the series connection of the parallel and series resonance circuit. This gives the edges of the telegraphic characters obtained by demodulation a steeper course. F i g. 3 shows the dependence of the phase angle between the voltages U ₁₇ and i / ₁₈ at the terminals 17 and 18 as a function of the frequency /. The dashed curve relates to the known demodulator circuit, while the solid curve represents the one obtained with the application of the invention.

ao represents.

The F i g. 4, 5 and 6 show three more examples for obtaining the compensation voltage.

In Fig. 4, the alternating voltage at input 1 becomes a capacitance via a resistor 4, inductance 5 and its loss resistance 6 supplied to existing series resonance circuit. The output voltage is taken from terminals 8. The AC input voltage is also fed to a transformer 2, which is used to reverse the phase and whose secondary voltage is connected in series to the series resonant circuit. This transformer 2 is dimensioned in such a way that the alternating voltage at the loss resistor 6 compensates will. One can therefore achieve that at the resonance of capacitance 4 and. Inductance 5 is the alternating output voltage is zero or near zero. If the compensation voltage is dimensioned larger, than is necessary for compensation, the minimum in the resonance point is again accordingly higher.

In Fig. 5, the input transformer 2 is at the same time used to transform the input voltage to the series resonant circuit. The compensation The voltage used is set with the potentiometer7.

In Fig. 6 is used for phase reversal, a transistor 10 with the collector-side resistor 11 and the Emitter-side resistance 7. Since the alternating voltages at the collector and at the emitter are in phase opposition are to each other, the AC voltage tapped at the lower part of the potentiometer 7 can be used for compensation the alternating voltage occurring at the loss resistor 6 are used.

When using the circuits described so far Particularly at higher frequencies, it is not always possible to clear the minimum sufficiently the output voltage at terminals 8. This disadvantage can be eliminated by the compensation voltage does not come directly from the AC input voltage, but from the through the current flowing in the series resonant circuit is derived, as in FIG. 1 and 2 was shown.

Claims (1)

Claim: Demodulator for multiple frequency shift keyed telegraphy signals with a parallel resonance circuit "If there is a resonance circle in a row, d a d 11 r c Ii g e k e 11 η ζ e i c Ii 11 e t that for Vcr- control of the edges of the demodulation characteristic from the alternating voltage feeding the series resonance circuit or from the voltage flowing through it Alternating current obtained by a phase reversal circuit, an alternating voltage in phase opposition and in series with the series resonant circuit switched and is dimensioned so that the loss occurring at the loss resistance of the series resonant circuit AC voltage is completely or partially canceled. 1 sheet of drawings