DE704421C - Arrangement for high frequency amplifier with screen grid tubes - Google Patents

Description

The invention relates to arrangements for high-frequency amplifiers with screen grid tubes, especially those that work over a limited frequency range, S like the intermediate frequency amplifiers from Superhets.

With such arrangements, the tube's electrical constants bring several difficult problems with that while building

ίο a faultless device with high gain need to be resolved; their one

» Is the elimination of the tube's grid anode capacitance. This capacitance allows a certain amount of feedback from the anode circuit to the lattice circuit of the tube, which in high-gain arrangements can be so great that instability and self-excitation result. While the introduction of a screen grid reduces this capacity significantly, it is often large enough to create serious difficulties in building high quality amplifiers.

Another difficulty is brought about by the resistance to that of the tubular cathode Earth is given a bias of a certain magnitude. He has to get to the high frequency not to block the way to be bridged by a capacity. This capacity now acts like an impedance that is common to the grid and anode circuit of the tube and causes unstable operation of the circuit. Even the use is proportionate large and expensive bridging capacities a do not necessarily bring about a remedy.

The object of the invention is to reduce the undesirable effects of the grid anode capacitance in tubes of highly efficient amplifiers in a simple and cheap way to eliminate

and also that arising from the use of a common impedance in the cathode circuit To suppress feedback and the resulting instability. This will make the with a high quality tube amplifier achievable labile reinforcement without significant increase in costs and The complexity of the arrangement increases significantly.

ίο The invention is with intermediate frequency amplifiers with flat parted steep-sided selectivity characteristics of special Benefit because the feedback has a pronounced tendency to change the symmetry of the Has amplification characteristics. resulting in greater distortion of the high frequency draw to be amplified conditional. The invention therefore allows the creation of a high frequency amplifier, which can be adjusted to an essentially symmetrical selectivity hinge characteristic is.

Attempts have been made to reduce this harmful capacity through aid capacities and Neutralize coils. However, these arrangements 2Π all have significant shortcomings on: either they required special symmetrical resonant circuit coils, or the stirrer shield led mains voltage, or the shield was only because of the requirement adjustability is applicable to a limited type of tube. Present earth succeeded in eliminating this deficiency in a simple, generally applicable way and without changing the oscillation circles.

Although the Emndung is particularly intended for amplifiers with metal tubes, can They can also be used on glass tubes by using or using their metal covering. provides the glass bulb with a firmly seated screen made of electrically conductive material.

The invention will now be based on the drawing of some exemplary embodiments explained in more detail:

Fig. Ι shows the circuit diagram of an invent tube amplifier designed according to the invention. FIGS. 2 and 3 each show a variant the circuit of FIG. 1.

In FIG. 1, 1 denotes a tuned circuit which is connected to the grid or input circuit of the tube 2. The grid circuit is closed by the capacitor 3 for high frequency currents. Through the filter resistor 5, a direct current bias is applied to the grid 4 by an automatic volume control 4VC. The Hochfrequenzanoden- or -ausgangskreis of the tube 2 extending from the anode (3 via the tuning circuit 7 and the capacitor 8 for. Earth .. The cathode g of the tube 2 is grounded through the resistor 10, the latter is bypassed by the capacitor 11. The screen grid 13 is connected to earth via the capacitor 14, while the catching grid 15 is connected in a manner known per se to the cathode 9. The metal shell 16 of the tube 2 is earthed via the inductance 17.

The capacitance between grid 4 and shell 16 is indicated by the dashed capacitance 1S indicated, while the capacitance between anode 6 and shell 16 by the dashed Capacity 19 is specified. The capacitance between grid 4 and anode 6 is through the dashed capacitance 20 shown. Accordingly, the capacities mean 18, 19 and 20 the grid-clad capacitance, the anode-clad capacitance and the grid-anode capacitance, respectively of the tube 2 and not, for example, separate capacitively effective switching elements.

In operation there is a feedback from the anode circuit to the grid circuit through the capacitance 20. If the gain of the tube 2 is sufficiently high, then the Sufficient feedback to generate vibrations. Anyway, the feedback is in most cases large enough to be dangerous in high quality amplifiers To create instability. According to the invention, this feedback is replaced by another Compensates for feedback that is generated by the inductance 17 being common switches both in the grid circuit and the anode circuit.

The capacitance 18 and the inductance 17 are in fact in series between the grid 4 and the earth. So it becomes a certain one Part of the current in the input circuit flows through the inductance 17. On the same The capacitance 19 and the inductance 17 are effective between the anode 6 and earth connected in series, so that also a certain part of the current in the anode circuit over the inductance 17 flows. The phase relationship between these stray currents of the input and output circuit is such that the inductance 17 develops a voltage which is the effect of the feedback due to the capacitance 20 between Input and output circuit eliminated. By suitable choice of inductance 17 at a given frequency corresponding to the type of tube used can affect the grid-anode capacitance feedback to be fed back is essentially eliminated and thereby the operation of a high quality amplifier be made stable.

In the arrangement of FIG. 2, the same switching elements have the same reference numerals designated. n «

The shell 16 of the tube 2 is here with the junction of the capacitor 3 and the

Claims (4)

Resistor S connected. The value of the capacitor 3 is chosen so that · the envelope 16 receives the correct potential to reduce the tendency of the tube to oscillate via the grid-anode capacitance 20 to compensate. However, the capacitive resistance of the capacitor 3 is so small that the shell 16 is substantially is at the potential of the earth and therefore as a shield for the tube 2 is effective. The arrangement of FIG. 2 has the advantage that no additional switching elements are needed; it is also independent of the working frequency of the amplifier. The decoupling of the coordinated circles 1 and 7 is done here by a four-armed one Capacity bridge. Starting from the grid 4, the effective end of the circle i, are the Capacities 20 and 19 connected in series. Your connection point 6 is the starting point of a diagonal that leads to the earth via circle 7. On the other hand, from the grid 4 starting from the capacitors 21 and 3 connected in series. Your connection point is the earth. The capacitor 3 and the capacitance 19 meet at the shield 1 o, the other End of the diagonal going from the control grid 4 over the circle 1. Behaves now the capacity from 3 to that of 21 like 19 to 20, then the two are in the Circles 1 and 7 lying diagonally decoupled. In a practically measured Case, the values were as follows: C ₂₀ = O, OO5 JJyIF,
C ₃₁ = Ö Ji ₁ (AF. After installing a capacitance C ₃ = ioooojajaF there was no feedback effect in the case of 4. Fig. 3 shows the arrangement of Fig. 1 with the additional use of means to prevent feedback and instability due to the use of a common impedance in the cathode circuit of the tube amplifier. The same switching elements again have the same reference numerals. The resistor 10 is bridged by the series capacitors 11 and 12, while the low-voltage end of the tuning circuit 1 is connected to the junction of the capacitors 11 and 12. The capacitance between the tubular grid 4 and the ground is indicated by the dashed capacitance 21, while the capacitance between the grid 4 and the cathode 9 is represented by the dashed capacitance 22. The value of the capacitance 21 depends both on the type of tube used and on the arrangement of the circuit elements connected to it. The value of the capacitance 22 is only determined by the type of tube itself. In practice, the Kreiselemcntt are chosen so that the capacity 21 of the Capacity 22 is the same and that the capacitors 11 and 12 with each other have the same capacity value. Under this condition, nothing can be done with the current Input circuit of the tube 2 flow through the cathode resistor 10. Hence there are none Feedback due to cathode circuit coupling between the grid and. Anode circle. Since at the same time each feedback via the capacitance 20 to that explained with reference to FIG Art is eliminated, the circuit arrangement is both susceptible to oscillation and from additional cushioning completely free. The arrangement of Figure 3 is particular to such high-quality amplifiers advantageous in which the cathode does not have a large Capacitance can be bridged or grounded. It also has the advantage of a minimum to require additional switching elements. The device to prevent the on the common impedance in the cathode circuit The feedback that can be traced back is also essentially independent of the operating frequency of the tube amplifier. In some cases, the cathode 9 of the tube 2 can be grounded. In this case the problem of a common impedance in the cathode circuit will not arise, and complete stability is achieved in the manner explained with reference to FIGS. 1 and 2. The value the inductance 17 is generally not critical, but in some cases Means of adjusting their inductance value may be desirable to get an accurate Ensure the balance of the arrangement. Although the arrangement according to the invention is particularly suitable for radio receivers, it can also be used in transmission systems or in other high-frequency devices, where great value is placed on high effectiveness and stability. Γ Λ TEX TA X S I 'K Ü C II E: I. Arrangement for high frequency amplifiers with screen grid tubes, the metallic Have shields, for the purpose of preventing feedback from the remaining grid-anode capacitance, thereby characterized in that a reactance is inserted between the metallic tube shield and the earth, which in the amplifier system is switched on via the capacitance between the shielding hood and one or more electrodes is that they .by the coupling the remaining grid-anode capacity cancels. 2. Arrangement according to claim i, characterized in that the reactance is more inductive Kind is and switched into the lattice circle via the capacitance shielding hood lattice is and in the anode circuit via the capacitance shielding hood-anode and thus forms an effective coupling which counteracts the anode-grid coupling. j. Arrangement according to Claim i, characterized in that the reactance is of a capacitive nature and is thus connected. that it forms a branch of a Wheatstone bridge, the other arms of which are formed by the grid-cathode capacitance, the grid-anode capacitance and the anode-shield capacitance. 4. Arrangement according to claim 1, 2 and 3, characterized in that for the same ao early prevention of feedback via the cathode impedance two capacitances connected in series parallel to the cathode resistance between the cathode and earth, their connection as point is connected to the low voltage side of the input circuit and its size is chosen so that no current from Input circuit can flow through the cathode resistor. 1 sheet of drawings