DE662108C - Arrangement for regulating the severity of an oscillation circuit - Google Patents

Description

Arrangement for regulating the selectivity of a. Oscillation circuit The invention relates to an arrangement for controlling the selectivity of an oscillating circuit, it.

It is known that the anode-cathode path is an oscillating circuit of a receiver parallel to a control tube not used to amplify the useful vibrations switch and the internal resistance of this tube and thus the damping of the circuit by changing the tension of a grid of the tube. Since the Röhrenwiderstaxzd can only be regulated between values of about io ooo to iooo ohms, the control range should be such arrangements are in many cases insufficient for practical needs. It is desirable to have the damping resistance that the parallel tube has represents to make it adjustable down to smaller resistance values without doing so to steer into the strongly curved parts of the characteristic or the grid current area.

According to the present invention, to achieve a simultaneous Negative coupling to the oscillation circuit through the damping tube, a scatter grid of the tube controlled in phase by the alternating voltage applied to its anode.

The effect of introducing the vibration to the grid in phase is that of the known negative feedback. The grid tension seeks through the amplification process to generate an anode voltage which is shifted in phase by i 8o 'in relation to it. This counteracts the one that was originally pressed, thereby reducing the tension in the oscillating circuit is reduced, which means additional attenuation and thus also a widening the resonance curve means. The degree of this negative feedback can be changed by changing the Lattice preload can be changed in the opposite sense as the internal resistance the control tube. The effective damping resistance, which the control tube as a parallel organ represents the oscillation circuit, can be regulated in this way up to values, which are considerably @ below 100 ohms. The arrangement is due to the flattening the resonance curve has both a precision control and a volume control at the same time.

Fig. I indicates an embodiment of the invention; an intermediate frequency amplifier. The intermediate-frequency input voltage is passed through the tuned intermediate-frequency transformer 5 to the control grid 7 of the amplifier tube ii and the voltage amplified by this is fed to the control grid of a further tube i g through the also tuned transformer ai. The selectivity control is carried out on the primary circuit of the transformer 21 located at the anode of the tube ii. The anode-cathode section of the control tube 47 lies parallel to this circle, and although the anode 49 of the control tube is directly connected to the live end of the oscillation circuit, i.e. to the anode of the amplifier tube ii, while the cathode and the other end of the Oscillating circuit is capacitively grounded. The anode and screen grid voltages of the tubes, which are designed as penthodes, are taken from the voltage divider 29, at the ends of which the operating voltage source is connected. The bias voltages of the control grids of the amplifier tubes are generated in the usual way by resistors located in the cathode lines. The control grid 55 of the R.egelröhr, e is connected to the switch 61, 65, 67 via the resistor 59 and can optionally be connected to the tap 71 sliding on the potentiometer 29, whereby the control grid is given a negative bias voltage that can be regulated by hand which is automatically controlled in the manner of a fade control voltage depending on the vibration amplitude, or there are k ann by switching to the point 65 is connected to a negative voltage. In the case of a strongly negative grid, the internal resistance of the tube is very high and the oscillating circuit is hardly dampened, so that a very precise transmission through the transformer 21 is guaranteed. If the negative voltage of the control grid 5 5 is low, the primary circuit of the transformer 21 is damped by the parallel internal resistance of the control tube and the resonance curve is flatter. A considerable amplification of this effect can be achieved according to the invention in that the end of the oscillating circuit lying at the anodes is connected to the control grid 55 of the control tube through the capacitor 81. The dimensioning has to be done in such a way that the impedance of the capacitor 8i for the intermediate frequency is small compared to the ohmic resistance 59 in the grid lead. In this case, the oscillating circuit voltage is practically directly on the control grid, i.e. in phase with the anode voltage, whereby a damping negative feedback effect is achieved. The degree of negative feedback, like the internal tube resistance, is regulated by changing the DC grid voltage. The DC voltage change can also be made on another grid of the control tube, for example on the screen grid. The bias of the control grid can, as already mentioned, be regulated manually or else supplied by a source which generates a negative DC voltage that is dependent on the incident high frequency amplitude. The usual fading control voltage is not to be used directly for this if you want high selectivity and gain, ie high grid bias of the control tube, and correspondingly low selectivity for weakly incident transmitters. In this case, the use of a phase inversion tube is recommended. For the purpose of manual control, the tap 75 on the potentiometer 29, which supplies the screen grid voltage, is also made displaceable.

Fig.2 shows another embodiment of the invention. In this circuit, the selectivity of an oscillating circuit lying on the grid of an amplifier tube is regulated more in a high frequency Ver. The oscillating circuit 9i, 93 coupled to an antenna circuit gives its high-frequency voltage via the blocking capacitor 103 to the control grid 99 of the amplifier tubes ioi. The same voltage is also applied to the anode iii and via the blocking capacitor 125 to the control grid 123 of the control tube i o9. The other end of the oscillation circuit is capacitively connected to the cathode of the control tube and at the same time to earth. The control tube control grid receives its bias voltage via resistor 127 from tap 133 of potentiometer 131. Lower end 143 of the potentiometer is at a fixed, fairly high negative voltage to earth or to the cathode of the control tube. The upper end 141 is connected to a voltage source which supplies a direct voltage which is positive compared to the lower end and which is automatically regulated in proportion to the high-frequency amplitude. Such a voltage source can easily be obtained by rectifying the amplified high or intermediate frequency. The tap 133 connected to the grid discharge resistor 127 can be displaced along the potentiometer and set to a favorable value.

When receiving a weakly incident transmitter, the grid bias is of the control tube practically the same as the one at the lower end of the potentiometer 131, strong negative voltage. The internal resistance of the control tube is therefore so high and the negative feedback effect due to the in-phase influence of the control grid and anode so low that the sharpness of definition of the circle 91, 93 practically sticks is reduced will. On the other hand, if the signal strength is high, it becomes negative Grid prestress so small that the internal resistance becomes small and, moreover, it becomes so strong The negative feedback effect results in the circle g i, 93 being strongly damped and the resonance curve is significantly flattened. The sliding contact on the Pot @ entiom @ eter 131 133 enables an additional manual control of the selectivity.

The arrangement according to the invention can be used in several circles of a receiver come into use.

Claims (1)

PATENT CLAIMS: i. Arrangement for regulating the selectivity of a Oscillating circuit by a parallel lying, not to amplify the useful oscillations Serving tube, the internal resistance of which is regulated by changing a grid voltage is, characterized in that to achieve a simultaneous negative feedback on the oscillation circuit through the damping tube a control grid of this tube is controlled in phase by the alternating voltage applied to its anode. z. Arrangement according to claim i, characterized in that the control grid of the damping tube via a bleeder resistor with the control voltage and via a capacitor, its Impedance resistance is small compared to that of the bleeder resistance, with the anode connected to the tube. 3. Arrangement according to claim i, characterized in that a five-pole tube is used as the attenuation tube. Receiver with automatic Selectivity control by an arrangement according to Claims 1 to 3, characterized in that that the rectified and filtered received oscillation serves as the control voltage.