NO119179B - - Google Patents

Description

Frequency modulator.

The present invention relates to a switching device for demodulating frequency-modulated signal streams with unwanted amplitude modulation, by means of a counter-cycle frequency demodulator with a primary and a subsequent, secondary parallel resonance circuit and two counter-cycle rectifiers coupled with these circuits with a common output filter, with the primary circuit connected not only partially limits and suppresses the unwanted amplitude modulation, but also distorts the signal voltage in such a way that the sensitivity of the demodulated signals produced in the output filter with respect to the unwanted amplitude modulation is further significantly reduced.

Such a coupling device is described in the older Norwegian patent claim no. 115 076, where it is stated that when the limiter is correctly set, this causes the desired effect on the generated signal distortion.

This older coupling device, however, causes difficulties when the signal streams to be demodulated already have a significant distortion, which e.g. can occur with very strong input signals, as an amplifier tube that delivers one of these signal currents is equipped in the grid current range. The resulting additional distortion of the signal voltages interferes with the prescribed signal distortion produced by the limiter, so that the demodulated signal's desired insensitivity to amplitude modulation can no longer be achieved.

The invention provides a kop-01 a4 OQ01 110170 1 Chlorine)

connection device where this disadvantage is eliminated. It is characterized by the fact that the primary resonance circuit contains at least three reactances which, in order to suppress signal voltage distortion as a result of any original distortion of the signal currents, are connected as filters for weakening these signals' higher harmonics.

The invention shall be explained in more detail

with reference to the drawing.

Fig. 1 shows a design example of

the invention.

Fig. 2 shows part of the embodiment according to fig. 1 for an explanation of how the coupling works.

In fig. 1, frequency-modulated signal oscillations with unwanted amplitude modulation over an input circuit 1, after amplification in a tube 2, are supplied to a counter-cycle frequency demodulator 3, which contains a primary circuit 4, a capacitively coupled secondary circuit 5, two counter-cycle rectifiers 6 and 7 and a common output filter 8. The voltage P produced across the capacitor 9 and the primary circuit 4 is supplied to the rectifiers 6 and 7 with the same phase, while the voltage S produced by means of the voltage P in the secondary circuit 5 is supplied to the rectifiers 6 and 7 in reverse, where as as a result of the frequency modulation-dependent phase shift between the voltages P and S, a demodulated signal is produced over the filter 8 in a known manner.

According to the aforementioned, older patent claims, a limiter 12, which e.g. consists of a rectifier 13 in series with a resistor 14 decoupled for the modulation frequency, connected to the primary circuit 4 in such a way that it not only partially suppresses the unwanted amplitude modulation, but also distorts the voltage P. By correctly setting the limiter 12, the sensitivity of the output signal produced above the filter 8 is further reduced significantly in relation to the unwanted amplitude modulation.

It turns out, however, that if the signal fluctuations over the circuit 1 were already originally distorted, e.g. as a result of the grid current in the tube 1 upon receiving a strong signal, a corresponding distortion of the signal current through the circuit 4 produces a further distortion of the voltage P, as a wrong setting of the above-mentioned setting occurs and thus again at a significant sensitivity of the demodulated signal above unwanted amplitude modulation.

According to the invention, the circuit 4 consists of at least three reactances in such a way that it acts as an attenuator of the higher harmonics, i.e. the distortion components of the voltage P, as long as these harmonics originate from the signal currents supplied by the tube 2. The residual distortion in the voltage P is then only those produced by limiter 12, so that the desired setting is maintained.

The circuit 4 therefore consists in its simplest form not only of the capacitor 9, but also of another capacitor 15 and an inductance 16 where preferably an outlet 17 is connected to the positive terminal of the operating voltage source. The limiter 12 is connected in parallel with the inductance 16. Of course, a more complicated network can also be used. This part of fig. 1 is shown for itself in fig. 2. The circuit 15—16—9 is in resonance with the fundamental frequency of the signal alternating current, so that the resonance effect produces a significant voltage P. The harmonics in the current, however, remain, not only in the limiter 12, but also as a result of the filter effect in the inductance 16 with the capacitors 15 and 9 significantly more weakened than when using a resonant circuit consisting of an inductance and a capacitor. The limiter 12 not only causes a partial suppression of unwanted amplitude modulation in the signal voltage across one of the reactances 9, 15 and 16, but also a constant degree of signal distortion of the voltage across the inductance 16 and thus also of the voltage P across the capacitor 9, so that a constant setting of this distortion can practically be maintained independently of the signal current's distortion.

Outlet 17 is preferably chosen so that the signal voltage in this outlet is exactly

like O, whereby unwanted spreading effect is prevented. Number of turns of the inductance 16 on the left resp. to the right of outlet 17 must be proportional to the impedance values for capacitors 15 and 9.

In a practical design example, the coupling elements had the following values: Filter 8: 56 pF; Capacitor 9 : 27 pF, Filter 14 : 22 kOhm and 5 microF,

The capacitor 15 : 10pF, The resistor 20 : 5.6 kOhm, The capacitor 21 : 10 pF, The capacitor 22 : 56 pF, The capacitor 23 : 47 pF, The resistor 24 : 47 kOhm, The resistor 25 : 10 kOhm, The resistor . 26 : 56 kOhm.

Claims (4)

1. Coupling device for demodulation of frequency-modulated signal streams with. unwanted amplitude modulation, by means of a counter-pulse frequency demodulator with a primary and a following, secondary parallel resonance circuit and two counter-pulse rectifiers connected to these circuits with a common output filter (8), one with the primary circuit connected limiting (12) not only partially suppresses the unwanted amplitude modulation, but also distorts the signal voltage in such a way that the sensitivity of the demodulated signals produced in the output filter with respect to the unwanted amplitude modulation is further significantly reduced, characterized in that the primary resonant circuit contains at least three reactances (9, 15, 16) which for suppressing signal voltage distortion as a result of any original distortion of the signal currents, is connected as a filter for weakening these signals' higher harmonics. 2. Switching device according to claim 1, characterized in that the primary circuit consists of two capacitors (9, 15) and an inductance (16) shunted by means of the limiter in a closed series circuit, the signal currents being supplied to the connection point between the inductance (16) and one of the capacitors ( 15), while the voltage (P) generated across the second capacitor (9) together with the voltage (S) generated across the secondary circuit is fed to the two rectifiers. 3. Coupling device according to claim 2, characterized in that the one capacitor (9) also forms a capacitive coupling between the two circuits. 4. Switching device according to claim 2 or 3, characterized in that an outlet (17) on the inductance where the signal voltage is almost zero is connected to a clamp of the supply voltage source.