DE904190C - Circuit arrangement for multi-stage counter-coupled amplifiers - Google Patents

Description

Circuit arrangement for multi-stage negative feedback amplifier multi-stage negative feedback amplifiers with one over several or all Steps extending negative feedback are to be operated, often arise Difficulty if the degree of negative feedback is beyond a certain value enlarged, because then self-excitement occurs. At every single amplifier stage is the deviation of the phase angle of the amplified voltage from the phase angle the frequency corresponding to the middle of the transmission range is (generally ir), the greater the more the frequency in question differs from the site frequency differs. Since the individual levels at the limits of the Transmission range, the change in the angular deviation is generally significant is more significant than the decrease in the amount of the degree of reinforcement occurs In the case of multi-stage amplifiers, it is easy to find that at the limits of the transmission range or in the case of frequencies that are little outside this transmission range the amplifier alone, d. H. without negative feedback, caused phase angle deviation is already n if the amount of gain is opposite to the value at the center frequency has only changed insignificantly. The one as negative feedback voltage Part of the output voltage or the output current fed back into the input circuit proportional negative feedback voltage then occurs in the middle of the transmission range in the correct phase for the effect, but no longer at the limits or even outside of the Transmission range. Here then a coupling occurs, which leads to self-excitation leads.

A number of measures are now known with the help of which it is possible is to reduce the tendency of such amplifiers to oscillate, so that the Degree of negative feedback can be increased. For this purpose, phase shifting elements are often used in the negative feedback path used, which have the task of finding a suitable one in the critical frequency ranges To cause phase reversal, .in connection with a corresponding voltage change.

With amplifiers that do not have a transformer, you can get through Appropriate design of the individual amplifier stages achieve that even with multi-stage Amplifiers any degree of negative feedback can be applied. Often have to the amplifiers are operated with input and output transformers, for example @ e if it is a line amplifier, the voltages symmetrical to earth should reinforce.

One would have to be, if any degree of negative feedback can be used should, also in these and numerous other cases, do without transformers, However, this is a very significant increase in the cost of such amplifiers would result.

But it also happens that an input transformer is used for this reason is so that the negative feedback voltage is fed to the input circuit in a convenient manner can be. When choosing the amplifier circuit, determining the number of Amplifier stages, etc., are often decisive factors for the use speak of an input transformer.

In the case of multi-stage broadband amplifiers, the input transformer now does there are also difficulties with regard to the degree of negative feedback that can be achieved in practice, if the upper limit of the transmission range is at high frequencies, and although these difficulties are particularly great when the negative feedback voltage is to be introduced into the input circuit as shown in FIG is. In this picture is only the first tube of a multi-stage amplifier and drawn her grid circle.

The negative feedback voltage is at the resistor R between the lower End of the grid winding of the input transformer and the negative pole of the anode voltage source (Earth). The series connection is therefore at the grid-cathode section of the tube of input voltage and negative feedback voltage. Rk is used to generate the negative Grid prestress; Ck is the common bypass capacitor. The burden of two voltages one behind the other in the input circuit is determined by the input capacitance the tube: shown. This capacity plays at low and medium frequencies mostly no role. This is different at high frequencies. It works in general without further ado, Kdenjeni: gen part of the anode alternating voltage of the output tube - the amplifier, which should come into effect as a negative feedback voltage in the input circuit, in the whole relevant frequency range without phase shift to the anode alternating voltage of the end tube to the resistor R. Dbch occur strong at high frequencies Phase rotations between the voltage at R and the resulting from it, between The grid and cathode of the input tubes act on negative feedback. These Phase rotations are caused by the true inductance of the grid winding of the input transformer., through capacities between the transfer windings or between the grid winding and the transformer core and through the input capacitance of the tube.

So if you are also at. low and medium frequencies through suitable Dimensioning of the rest of the amplifier and the negative feedback path are certain prescribed can achieve high levels of negative feedback without the amplifier breaking itself can, so does the one based on the above-mentioned causes additional Phase rotation at high frequencies the achievements illusory, the amplifier would come then for self-excitation, unless you use other switching means, e.g. B. suitable phase-shifting elements in the negative feedback path, which are in these frequency ranges Compensate for any phase shift that occurs. This solution also requires a considerable amount additional expenditure on switching elements.

The invention provides a circuit arrangement for multi-stage negative feedback amplifier with input transformer specified in particularly simple Way as well as practically without additional effort the mentioned, from the input transformer resulting problems largely ineffective and thus the application makes higher degrees of negative feedback possible even at high frequencies without the Amplifier for self-excitation comes.

According to the invention, such amplifiers only a part of the Negative coupling led into the grid circle of the input tube, while the rest Negative coupling to the screen grid or another auxiliary grid of the input tube is returned. If there is already a multi-grid tube in the entrance stage, so the invention can be carried out without any additional effort, for example in that one part of the negative feedback via the existing shielding capacitor is guided onto the screen grid. The part not returned to the grid circle In addition to the screen grid, the negative feedback can also be applied to a second control grid or the retarder grille of the input tube.

The invention can be used with particular advantage in the case of multi-stage counter-coupled Use broadband amplifiers with input transformers for which the upper limit of the transmission range is at high frequencies and at those that are about several amplifier stages extending negative feedback in the one shown in Fig. r Way in the input circle. is introduced and in which a multigrid tube in the input stage is used.

If the gain of the amplifier can be changed and the Change in gain takes place by changing the negative feedback, to change the gain, preferably the one in the grid circle according to Fig. i introduced part of the negative feedback used.

This measure ensures that only part of the negative feedback caused by the input transformer and the input capacitance of the tube additional phase shift at high frequencies can have an effect during the other part of the negative feedback, which is expediently chosen as large as possible, this additional Phase rotations does not suffer. This, however, allows the degree of negative feedback as a whole can be increased significantly beyond the value that is taken into account for the Self-excitation would be possible if the entire negative feedback only as in Fig. I in the grid circle would be introduced.

You could think of it all on the negative feedback alone the screen grid or other suitable grid of the input tube act to lasisen; in some cases that is also possible. But since the tax effect of a such a grid is in any case considerably smaller than that of the first control grid, it often makes it difficult to obtain the required level of negative feedback voltage to raise. This is the case, for example, when a combined electricity or voltage negative feedback is used, which is designed such that the Changing the negative feedback does not affect the internal resistance of the amplifier. In order to this condition is more or less fulfilled in the entire transmission range of the amplifier remains without the need for additional switching elements, it is often necessary to set a certain limit in the ratio between output voltage and that part of the same which is taken from the output circuit and as a negative feedback voltage should be fed to the input circuit, not to be exceeded. There are others too Reasons that can prescribe such a limit, however, do not need to be detailed here to be addressed. When using the circuit arrangement according to the invention these difficulties are avoided.

The invention is explained in more detail below with the aid of a few examples will.

Fig..2 shows the circuit diagram of a three-stage amplifier. -EÜ denotes the input transformer, AÜ the output transformer. The circuit has a combined current and voltage negative feedback over all three stages. The internal amplifier resistance is independent of the negative feedback if In the case of broadband amplifiers, which have an upper limit of the transmission range at high frequencies, the size of the resistor R3 is limited, due to the inevitable capacities between the windings of the output transformer or the capacitance between the anode winding and the core as well as the weight of the leakage inductances.

The negative feedback voltage is applied to the output circuit via the isolating capacitor C2 taken from the amplifier. The full negative feedback voltage present at this point is connected to the screen grid of tube I via C3. About the relatively high Resistor R4 flows, the screen grid direct current. Part of the screen grid negative feedback voltage comes into effect in the lattice circle of tube I, and although this is the one between the tap of Re and the negative pole of the anode voltage source existing partial voltage. By moving the tap of R6 the gain is changeable.

3 also shows a three-stage amplifier with. a combined Current and voltage negative feedback as in the circuit according to FIG. 2.

Also the principle of feeding the negative feedback voltage to the screen grid the tube I or a part of it in the steward grid is the same as in the circuit according to Fig.2. The screen grid direct current runs over here the resistors R3, R2, R44 R4 can also be small here or depending on the type of tube can be omitted entirely, in which case, of course, C4 must also be omitted. The gain control takes place as with the circuit according to FIG. 2.

A four-stage amplifier is shown in FIG.

The amplifier also has a combined current and voltage negative feedback, which is generated in an output stage circuit as described in patent specification 726 0.42 is known. The dimensioning of the resistors R1 and R2 as well as the transmission ratio A, the negative feedback transformer is chosen so that a change in the combined Negative feedback does not affect the internal resistance of the amplifier.

The negative feedback that extends over all four stages is assumed by the cathode of the end tube. The full negative feedback voltage is above C, am Screen grid of tube I. The one between the tap of R4 and the negative pole of the anode voltage source Any part of this voltage that is present comes into effect in the control grid circuit of tube I.

C3 is an isolating capacitor that only serves to set the operating point of the tube I of the position of the tap of R4. Dlie gain change is done again by moving the tap on R4. C5 is just an isolating capacitor.

Through these (circuit examples, the circuit principle of the Invention be adequately explained. Further suitable modifications are. Ri, R2, R3 are three ohmic resistances, which together with the internal resistance R1 of the End tube form the well-known bridge circuit in the output circle of the output tube, from the negative feedback voltage is taken from one diagonal. The condenser Cl is just a filter capacitor. let treated circuits can be found afterwards without further ado. For example, the number of amplifier stages can be varied. Part of the negative feedback can also be used instead of the screen grid also to a second control grid or to the brake grid of the tube I. Finally, the application of the circuit principle is not limited to the case that a combined current and voltage negative feedback is used.

Claims (1)

PATENT CLAIMS: i. Circuit arrangement for multi-stage amplifier with input transformer and a negative feedback extending over several amplifier stages, which is fed back into the input circuit containing the transformer, characterized in that to eliminate the phase rotations caused at high frequencies by the input transformer and the input capacitance of the input tube and thus to increase the Stability of the amplifier only part of the negative feedback voltage is fed into the grid circuit of the input tube, while the other part is fed back to the screen grid or another auxiliary grid of this tube. z. Circuit arrangement according to Claim i, characterized in that the other part of the negative feedback is connected to the screen grid via the screen grid capacitor which is present. 3. Circuit arrangement according to Allspruch i, characterized in that the other part of the negative feedback is guided to a second control grid of the input tube. 4 .. Circuit arrangement according to claim i, characterized in that the other part of the negative feedback is placed on the braking grille of the input tube. 5. Circuit arrangement according to claim i for amplifiers with gain control by changing the negative feedback, characterized in that the gain control is carried out by changing the part of the negative feedback introduced into the grid circle. 6. Circuit arrangement according to claim i, characterized in that the full negative feedback voltage is applied to the screen grid or another suitable grid of the input tube, while only part of this voltage is fed back into the control grid circuit, which is tapped preferably changeably by a voltage divider located in the negative feedback path . ;. Circuit arrangement according to claim i and one of the following claims. characterized by the use of a combined current and voltage negative feedback. Attached publications: German patents \ r. 63.1398. 735 523.