DE912820C - Demodulator with automatic level compensation for carrier frequency telegraphy systems - Google Patents

Description

Demodulator with automatic level compensation for carrier frequency telegraphy systems The invention relates to a demodulator for carrier frequency telegraphy systems.

There is already a circuit known in which with the help of a Memory capacitor to which a discharge resistor with tap is connected in parallel is, at half level is sampled to the character regardless of its To reproduce level height undistorted in the demodulator. Circuits are also known in which sound is given in the idle state and the character according to a code of soundless Steps and tones. The demodulator of such a system includes a capacitor to which a discharge resistor with tap is connected in parallel and that in series with rectifying means with the output terminals of a rectifying arrangement for the modulated characters is connected. This capacitor is supposed to be used as a memory capacitor because it adjusts to the height of the level during soundless steps remembered the previous tone step.

Such a circuit known per se has the following disadvantages: i. The reminder capacitor can move over the control grid during a soundless step find a discharge path for the scanning tube; the discharge current can only be achieved by means of a high resistance, which is not permissible for this tube, must be limited. 2. The reminder capacitor can be reversed during the tone step by the occurrence Grid currents in the scanning tube up to a voltage higher than half the amplitude voltage to be charged.

3. Used as a rectifier for the memory capacitor, a diode tube is used, the cathode of this tube is connected to a point on the circuit, which has a relatively high potential via a high resistance to earth, so that a slight dissipation between the cathode and filament makes this potential strong influenced.

q .. The load resistance of the rectifier circuit, which the Rectifies audio frequency currents, must have a low value, because with the center tap This resistor is connected to the charging circuit of the memory capacitor and the charging time of this capacitor must be as short as possible.

The circuit according to the invention avoids these disadvantages by using it a demodulator, in which the rectified telegraph characters via a Diode tube or rectifier cell a memory capacitor up to the full Charge amphtude voltage. A discharge resistor is included with this capacitor a tap connected in parallel, which is connected to the control grid of a scanning tube connected is.

The idea of the invention is that both this tap like the side of the rectifying element that is not on the capacitor one of two input terminals of a scanning device is connected, the two of the polarity of the voltage applied to the input terminals of this device Can assume states.

The invention will now be based on the figure showing the principle circuit shows, explained using an exemplary embodiment.

The telegraph characters modulated on a carrier frequency are the terminals i and 2 of the circuit.

The carrier current is in a known manner by means of a rectifier or diode combination GC, z. B. in the known Graetz circuit, rectified. The rectified symbol is fed to a load resistor R i, to which a capacitor C i is connected in parallel for the purpose of flattening the signal. The capacitor C2, the charge of which is a measure of the level of the character, is charged via the diode tube D, the cathode of which is grounded. The anode of the diode tube is connected to one assignment of the memory capacitor C 2, while the other assignment of this capacitor is connected to the end of the resistor R i facing away from the cathode of the diode tube. The memory capacitor is charged up to the peak value of the amplitude of the rectified character. The distorting influence of any residual stresses in diode tubes can be completely avoided by using the grid-cathode combination of a triode tube with a gold-plated control grid as the diode. The memory capacitor C2 can slowly increase via a series connection of the resistors R2 and R3; whose value z. B. 2 X Ios ohms, discharged. As a result, when the reception level is reduced, an adaptation to this level is achieved.

The discharge time of the reminder capacitor must be long so that after six soundless steps the following sound step can be sampled correctly.

The charging time of the memory capacitor C 2, however, must be small so that during one tone step the capacitor discharges during six toneless steps can be undone.

The connection point of resistors R2 and R3 will be with the control grid the tube Bi, which forms, for example, one half of a double triode.

When sound is received, a current flows in the resistor R i in the direction indicated by the arrow in the figure. The capacitor C2 is then charged according to the specified polarity. Tube B i then has a control grid voltage which is positive with respect to that of tube B 2. A small grid current has no influence on the charge of the memory capacitor C2. The tube B i has a higher anode current than the tube B2; the armature of the polarized relay Z is in the specified position and applies a positive voltage to the line.

The two resistors R2 and R3 have on the control grid of the tube B i has no adverse effect because it is seen from the control grid of this tube there is only a resistance value of 10 ohms, resulting from the parallel-connected Resistors R 2 and R3. This is permissible.

When a soundless step is received, the current in R i bis down to zero. The capacitor C 2 remains for some time, almost to the Peak value of received characters, loaded. The diode tube D is then blocked. When the current in R i has dropped to half that value, the control grid has the tube Bi has the same potential as the control grid of the tube B2.

If the current in R i decreases further, the anode current becomes the Tube B2 larger than that of tube B i, so that the polarized relay Z is Anchor thrown; a negative voltage is applied to the line.

If a tone step is now received again, the current in R increases i from zero to the peak value, with the polarized relay turning the armature puts in the position shown when the current has reached half the value.

Claims (1)

PATENT CLAIM: Demodulator with automatic level compensation for carrier frequency telegraphy systems, in which a capacitor, to which a discharge resistor with tap is connected in parallel is about rectifying means to the output terminals of a detector for the modulated characters is connected in series, characterized in thatB both this tap and the side of the rectifying which is not connected to the capacitor (C2) Elements (D) each with one of two input terminals of a scanning device (Bz, B2) connects the two of the polarity of the input terminals of this device supplied voltage can assume dependent states.