DE1025014B - Amplifier arrangement with two tubes connected in parallel - Google Patents

Description

Amplifier arrangement with two tubes connected in parallel The invention relates to an amplifier arrangement with two tubes or circuit units connected in parallel with tubes in which means are provided which the effect of this control grid-cathode-short-circuit-it a tube on the operating conditions of the arrangement harmless.

In electrical communication technology, circuit units, in particular line amplifiers for carrier frequency systems, which the speech streams amplify a multitude of channels, often with two tubes working in parallel equipped to maintain operation even if the emission of a tube fails remain. In this case, it is true that the gain of the level in question falls, and with it also the total gain without negative feedback to about half of the normal gain, but since such amplifiers must always have a strong negative feedback, remains the gain with negative feedback unchanged. Only the distortion attenuation worsened by about 0.7N, and the power that can be delivered drops by half if the failure occurs takes place in the final stage. The same security against tube failure can be achieved, if the entire amplifier consists of two identical amplifiers with one tube per stage which are connected in parallel at the input and output and have a common Network for negative feedback.

The modern broadband pentodes used in the aforementioned amplifiers have an extremely short distance to achieve a high steepness between control grid and cathode. This distance is on the order of about 60 to 100 @tm. With such an extra small distance there is a risk of a short circuit between control grid and cathode. The aforementioned measure of the parallel connection of Tubing offers no slot against such a fault. The reinforcement breaks then completely together, and the amplifier fails. The second nourishment of hatred, two amplifiers in the case of a common negative feedback network, the input and output sides are parallel to switching helps against control grid cathode short-circuit in the second and third Stage, but not in the first stage, where the control grids of the two input tubes are connected directly in parallel.

It is known to be between the branch point and the control grid to switch ohmic resistors and / or capacitors for decoupling. But they Effectiveness of these measures against a control grid cathode short circuit is only insufficient, because there is still a considerable loss of gain and the remaining negative feedback and distortion attenuation are reduced too much. If you make the ohmic or capacitive decoupling resistors larger, you lose there is usually too much reinforcement. In addition, the frequency response is the Loop reinforcement in the counter-coupling circuit, which is known to maintain the stability must meet certain conditions, influenced in a very unfavorable manner.

It is also a device for protecting parallel-connected Amplifier tubes against overload known, in which the anodes of the two amplifier tubes connected to the terminals of a central tapping choke coil are and where the connection of this load circuit to the center tap of this Choke coil takes place and a resistor is connected in parallel to this choke coil which is at least approximately four times the impedance of the load circuit having. By means of the means provided for this facility, in the event of an interruption of the anode circuit or in the case of anode-cathode short-circuit the overload of the intact remaining tube can be avoided. It is tied up. so here it is not about the task the effect of a control grid to cathode short circuit on operating conditions to render the circuit harmless and the gain constant in the event of a fault to keep. In the known device, in the event of a malfunction, this occurs in the anode circuit a kind of hybrid circuit that acts so that the burden on the remained intact Tube remains constant, while the useful power output in the event of a malfunction a quarter back. The decrease in useful power is a considerable one The disadvantage is that in a similar manner in other known circuit arrangements occurs.

To avoid these difficulties, according to the invention Control voltage fed to the center tap of a choke coil, the ends of which are below Interposition of a capacitor each with the Control grids of the tubes working in parallel. This will reduce the effect of a control grid to cathode short circuit rendered harmless to the operating conditions of the circuit without affecting the effect the circuit in the normal case, i.e. without a control grid-cathode short-circuit of a parallel tube or a tube of a circuit unit connected in parallel. The circuit unit connected in parallel can also have several connected in cascade Tubes included. The center tap of the choke coil, i.e. the branch point the control voltage, can be with the anodes of the previous tube stages or with connected to the input transformer. Furthermore, the control grids received in the usual Way your grid bias over high resistances.

In a circuit arrangement with several parallel tubes an occurring control grid cathode, en short circuit by rendering harmless that on the grid side, two tubes are combined via a throttle. The funds taps these choke coils are then connected via further choke coils with a center tap combined with a common branch point for the control voltage.

The choke coils are so formed. that her winding sense for the currents caused by the control voltage from the center tap to the two The ends are opposite and the number of turns of the two coil halves is the same are great. The two coil halves should be useful z. B. through a common Core with high permeability be firmly coupled to each other and one possible have small winding capacitance. Furthermore, the apparent resistances between Choke coil and grid of the tubes switched capacitors in the working frequency range the circuit must be small compared to the impedance of the choke coil.

As a further measure, one can also insert a short-circuit in the lead in the event of a control grid cathode short circuit Electrode that carries overcurrent in a manner known per se is responsive to overcurrent Switch on the relay and the damaged grid-cathode short-circuit with its contacts Put the tube out of operation.

Embodiments according to the invention are based on the in the Drawing schematically illustrated amplifier circuits explained in more detail.

Fig. 1 shows the basic circuit for the application of a choke coil with center tap, Fig. 2 the equivalent circuit with control grid cathode short circuit a tube; in Fig. 3 is an example of the application of the basic circuit according to Fig. 1 reproduced for operation with four tubes working in parallel.

In Fig. 1, the two amplifier tubes 3 and 4 are connected in parallel and work on the anode resistor 13. This can e.g. B. in the preliminary stages of a Amplifier can be a simple resistor or by adding inductances and capacitors are added to a more complicated two-terminal network in a manner known per se be. The actual external load resistance is usually in the output stage translated by a transformer to a value suitable for the anode side. In In this case it is usually also possible without difficulty to measure the anode currents of the two output stage tubes via separate, parallel windings of the transformer to direct. In this way, the anodes are connected in parallel in terms of alternating current, but the anode direct currents can be monitored and measured separately or for the Actuation of an overcurrent relay. The control grids of the two Tubes 3 and 4 are connected to the capacitors 5 and 6 with the beginning 10 and with the End 11 of the winding of the choke coil 9 is connected. The center tap 12 of the choke coil leads to input terminal 1. Between input terminals 1 and 2 is the controlling one AC voltage applied. The relatively large capacitors 5 and 6 are used for the DC separation of the control grids of the tubes 3 and 4 from one another and optionally from the anodes of the previous stage. The resistors 7 and 8 lead the control grids to the grid bias voltage generated in the cathode resistors 14 and 15 to. Without the grid capacitors 5 and 6, the grid closure of a tube would also the working point of the intact tube is shifted in the direction of large anode currents and a proper reinforcement of the parallel tube arrangement would not be guaranteed.

In the circuit according to FIG. 1, the controlling alternating voltage is applied in normal operation via the oppositely directed winding halves of the choke coil 9 without loss to the control grid of the two tubes 3 and 4. Because the sense of winding for the currents caused by the control voltage from the center tap 12 according to the two ends 10 and 11 of the choke coil 9 is opposite and the number of turns are equal, their magnetizing effects cancel each other out, and it only the small DC resistance remains, which is irrelevant here. Normal operation is therefore undisturbed, as if the throttle was not even present were.

Fig. 2 shows the equivalent circuit in emergency operation. It is assumed that that in the tube 3 of the circuit of FIG. 1, a short circuit between the control grid and cathode has arisen. The one bridging the cathode resistance 14 of this tube Capacitor 16 is so large that it acts as a short circuit for the alternating currents and is therefore omitted in FIG. The same applies to that also in FIG. 2 omitted grid block capacitor 5, its impedance in the transmission range of the amplifier compared to the impedance of the choke coil 9 is negligible is. The end 10 of the choke coil 9 is thus practically without resistance to the input terminal 2 and the common negative line. The choke coil 9 now acts as Economy transformer with a transmission ratio of 1: 2. The input terminals 1. 2 control voltage is thus translated to double the value and reached then to the control grid of the intact tube 4. Since the resulting slope the stage has dropped by half due to the failure of a tube, the control voltage on the grid of the tube 4, however, through the choke coil, which now acts as an economy transformer 9 has doubled. these two effects cancel each other out, and the stage has emergency operation same as in normal state.

3 shows an example of the parallel connection of a total of four tubes, which receive their anode voltage via the common anode resistor 10. Two tubes, namely tubes 3 and 4 as well as 5 and 6, are connected in parallel according to the circuit of FIG. 1 and form groups I and: 1I. The two tubes 3 and. 4 of group I are combined on the grid side via the choke coil 7 and the capacitors 11 and 12 and the two tubes 5 and 6 of group II via the choke coil 8 and the capacitors 13 and 14. The two groups 1 and II are connected in parallel via the further choke coil 9. In this way, the basic circuit according to FIG. 1 is applied here in two stages. In the event of a control grid-cathode short-circuit of a tube or an entire group of tubes, the gain of the stage therefore remains constant. The invention can also be used with multiple parallel operation of groups of two amplifier tubes each.

In the examples of FIGS. 1 to 3, for the sake of simplicity .als Tubes triodes drawn. In the circuits, however, pentodes can be particularly used Use well, because there the internal resistance in normal cases and also with grid-cathode short-circuit is large compared to the load resistance. If with triodes and under certain circumstances even with pentodes for higher power this requirement is no longer sufficient Way is met, then there is a certain impairment of the operation of the circuit in that the reduced internal resistance is parallel to the anode resistance the damaged tube lies and the amplification is more or less impaired will. In most cases, however, this loss of gain is sufficiently small remain, so that with amplifiers with sufficiently large negative feedback the desired Success is obtained even in these cases. In the exceptional cases in which the Gain would drop too much, one can use the circuit in the already described Way insert Cherstrom relay.

Claims (4)

PATENT CLAIMS: 1. Amplifier arrangement with two parallel-connected Tubes or circuit units with tubes, in which means are provided which the effect of the control grid-cathode short-circuit of a tube on the operating conditions render the arrangement harmless, characterized in that the control voltage is guided to the center tap of a choke coil, the ends of which are interposed a capacitor with the control grids of the tubes working in parallel are connected (Fig. 1). 2. Arrangement according to claim 1, characterized in that the two coil halves are firmly coupled to one another and their winding capacity is as small as possible. 3. Arrangement according to claim 1 or 2, characterized in that that the impedance of the switched between the choke coil and the control grid of the tubes Capacitors in the operating frequency range are small compared to the impedance of the Choke coil is. 4. Modification of the Vers.tärkeranordnung according to one of the claims 1 to 3, characterized in that four tubes are combined in such a way that that each two tubes form a group according to claim 1 and that both groups Control voltage is fed via the center tap of a choke coil, the ends of which are connected to the center tap of the choke coil of a group (Fig. 3). In Considered publications: German patent specifications No. 863 825, 830 358, 638 250a 430102; »Techn. Home agent d. NWDR ”, 1952, p. 42.