DE817925C - Circuit with a discharge tube - Google Patents

Description

The present invention relates to a circuit with a discharge tube in which between the anode circuit and the control grid circuit a selective for a certain frequency positive feedback is present and the discharge tube has negative feedback for all frequencies is.

It is known that such circuits are z. B. applicable to oscillators, the stability of the Frequency of the oscillation generated by the oscillator can be significantly improved.

In these circuits, however, the disadvantage is that if a greater stability is required, the value of the negative feedback must be changed, which is also a change the amplitude of the alternating voltage generated by the oscillator.

The circuit according to the invention overcomes this disadvantage and has the feature that between a circle connected to another grid of the discharge tube, the one positive Voltage is supplied, and the control grid circuit a selective for the same frequency negative feedback is present.

Such a circuit is based on the knowledge that as the amplitude increases AC voltage in the anode circuit, the mean anode current decreases and the mean current increases an existing grid, e.g. B. a screen grid to which a positive voltage is applied, increases.

As a result of the decrease in the mean anode current and thus the slope, the positive one increases Feedback while the steepness in the other

Circle and thus the negative feedback increase. As a result, there will be a limitation on the Get the amplitude of the alternating voltage in the anode circuit.

The cathode current in the discharge tube is a first approximation of the sum of the currents for The anode and the screen grid are the same and therefore independent of the one between these two electrodes occurring power distribution. Will therefore ίο the negative feedback for all frequencies taken from a resistor located in the cathode line, it remains even if it changes Power distribution constant.

It also takes place when changing this resistance, with negative feedback for all Frequencies and thus the frequency stability of the circuit changes within certain limits, there is no change in the amplitude of the alternating voltage in the anode circuit. Limiting the Amplitude is therefore independent of this negative feedback.

An exemplary embodiment of the circuit implemented according to the invention is illustrated with the aid of a drawing explained in more detail.

a5 In the circuit shown is the discharge tube ι designed as a pentode. The tube's control grid circuit contains a tuned Circuit 2 and a non-decoupled resistor 3, which is in the control grid, anode and screen grid circuits common cathode lead and which has negative feedback for all frequencies is removed.

In the anode line there is a self-induction 4 which is coupled to the coil 5 of the circuit 2 in this way is that there is positive feedback between the control grid circuit and the anode circuit.

There is negative feedback between the screen grid circuit and the control: grid circuit, with the help of the coupling between the coil 6 in the screen grid circuit and the coil 5 arises.

Is also the same in the cathode line,

inserted resistor 7 short-circuited with the help of switch 8, the circuit acts as an oscillator, wherein the catching grid of the tube is connected to the cathode.

The anode circuit also has a resistor 9 of such a size that rather a modulation of the anode circuit takes place as a modulation of the lattice space of the tube. So take that AC voltage of the tube increases, so before the grid becomes positive or more negative as the cut-off point of the grid voltage-anode current characteristic, which also creates a limitation the amplitude of the anode alternating voltage would occur, the anode circuit already so far be controlled so that current is transferred to the screen grid circuit. This takes the selective negative feedback increases, and the selective positive feedback of the anode circuit decreases. In this circuit, the amplitude of the anode alternating voltage as a result of the Limited electricity distribution.

By changing the resistor 3, the frequency stability can be regulated without the Limitation of the anode alternating voltage amplitude is influenced.

If the switch 8 is opened, an amplifier circuit can be used with a suitable choice of the resistor 7 are obtained, in which therefore no oscillation, but selective amplification of voltages occurs whose frequency is the same as that of tuned circuit 2. With this circuit the safety gate is switched off from the cathode and the signal to be amplified is transferred to the input terminals 10 and 11 of the shown in dashed lines Catch grid crosses supplied.

The advantages already mentioned for the oscillator circuit also occur in this circuit limitation independent of negative feedback.

It should finally be noted that the amplitude of the generated anode alternating voltage is this circuit, both when it acts as an oscillator and when it acts as a selective amplifier, is almost insensitive to changes in the resistance 9. Is z. B. this resistance is reduced, so the alternating voltage amplitude in the anode circuit has the tendency to decrease, whereby however, increase the positive feedback and decrease the negative feedback in the screen grid circuit go would. This will restore the previously occurring amplitude.

Claims (5)

Patent claims: 1. Circuit with a discharge tube, at the one between the anode circuit and the control grid circuit for a specific frequency selective positive feedback present and this discharge tube for all frequencies is negatively fed back, characterized in that between a circle marked with Another grid of the discharge tube is connected to which a positive voltage is applied and the control grid circuit has negative feedback selective for the same determined frequency. 2. Circuit according to claim 1, characterized in that that the discharge tube is designed as a screen grid tube and the control grid circuit is based on the specific Fre no contains a coordinated circle with which the anode circle is positive and the screen grid circle is negative feedback, and that in the cathode line common to the three circles mentioned there is a non-decoupled resistor. 3. Circuit according to claim ioder2, characterized characterized in that a resistor of such magnitude is switched into the anode circuit that the amplitude of the alternating voltage occurring in this circuit as a result of the between the Anode circuit and the circuit causing the selective negative feedback Power distribution is limited. 4. Circuit according to one of the preceding read Claims, characterized by such a position of positive feedback that the discharge tube vibrates. 5. Circuit according to one of claims 1, 2 or 3, characterized in that a to be amplified Signal connected to a safety grid provided in the discharge tube Circle is fed. Attached publication: German patent specification No. 744 086. 1 sheet of drawings