DE708316C - Circuit arrangement for modulation or rectification - Google Patents

Description

Circuit arrangement for modulation or rectification The invention concerns rectifier and modulation circuits in which dry rectifiers or two-electrode tubes for the purposes of modulation or rectification will. The characteristic of the well-known modulators and rectifiers, indifferent, whether it is a tube or dry rectifier is generally different depends on the law of the square and contains terms of higher power. The dynamic range such circuits is prescribed when a certain freedom from distortion is; . Limited by the presence of the terms of the third and higher powers.

The invention, which is the enlargement of the dynamic range or aims to reduce distortion, assumes the following Findings from: In the case of rectifier or modulation circuits with resistors are combined in parallel or in series, contains, if one .the dependency of the current from the voltage is expressed by a power series, the coefficient of Third power term a negative and a positive folding gate.

According to the invention, in a circuit arrangement for modulation or rectification with the dry rectifiers or two-electrode tubes in series or parallel resistors dimensioned such that members third or higher power in the current-voltage characteristic of the rectifier or modulator circuit are practically zero.

It is known to use resistors in series with rectifier arrangements to switch. However, these are not dimensioned so that .the links third or higher power of the voltage characteristic curve become zero. The resistors are used in the known circuits only .for this, .the modulation range to the cheapest Limit part of the rectifier's characteristic curve. Because of this limitation the The known circuits are known circuits uneconomical.

The idea of the invention is explained in more detail with reference to Fig. R. In this, a rectifier with the alternating current resistance R is connected to the voltage u with a resistor with the conductance G "connected upstream. A resistor with the conductance G" at which the voltage Ud is present is parallel to the rectifier. The relationship, given by the physical nature of the rectifier, between the current id flowing through the rectifier and the voltage ud can be given by the power series gd = ad Ud + ßd Ud ° + 7d Ud3 + . . . @ r @ represent. If the relationship between the total current i and the total voltage ic is also given by a power series i = all -f- ß11 = + 1u3 -; - ... (a).

shown, the coefficients x, ß, y using Kirchhof's theorems and. taking into account equation (1) the following values: a = G "e (ad -f- Gp1 (3) ß = (Eq., @ c) @ - ß, 1 (4) G = G ,, -1- G "-1- ad is to be understood as the overall conductance of the circuit.

If the characteristic curve of the overall circuit is not to contain elements of the third power, the overall conductance G is dimensioned such that the coefficient becomes = zero. So the relationship arises So it turns out that by suitable dimensioning of the resistors combined with the rectifier, the `` distortions compensated '' caused by the term of the third power of the rectifier characteristic can be grounded. In a similar way one can instead make the 1: s fourth power disappear, which z. B. is important for detector measuring devices, where (the third power element does not interfere anyway as it does not generate direct current. The parallel resistance G "is not absolutely necessary for the fulfillment of condition (6) If G, = O is set, so that G - G "+ ad results for the overall conductance, then from relation (6) the condition for dimensioning the conductance of the series resistor follows For the case, which is particularly important in practice, that it is a copper oxide rectifier, the characteristic of the rectifier can be determined by the exponential function approximately (c,. = directional constant of the rectifier, R, ---- AC resistance of the rectifier at the relevant operating point, i.e. differential resistance when the alternating voltage decreases towards zero, cf. 39, 1932, p. I15). Equation (S) gives the values for the coefficients corresponding to equation (i) Inserting these coefficients in equation (7) results in the relationship equation for the disappearance of the third power term: The resistance in series with your rectifier is therefore half as large as the alternating current resistance of the rectifier itself. With this dimensioning, the modulation can be increased until inadmissible high levels of interference are caused by the fourth power. In practice, the measures of the invention have the same effect in a better freedom from distortion or in the same freedom from distortion in a higher degree of efficiency. This special dimensioning, which according to the invention is particularly advantageous for copper oxide rectifiers, has already been implemented in one case for a rectifier in audio circuit. It was used to achieve the highest possible output current from the rectifier, but not to reduce non-linear distortion. The known audio circuit could therefore not give any suggestion to the person skilled in the art, who had set himself the task of eliminating the harmonics.

The capacitance of the rectifier has not been taken into account in the conditions derived above for the compensation of the third power element. This would naturally influence the relationships from a certain frequency onwards as soon as the capacitive resistance can no longer be neglected in relation to the value R " appropriate magnitude, the alternating current resistance R "is decreased. This automatically increases the cutoff frequency of the rectifier. Fig. A shows the dependence of the current i on the voltage e for a normal dry rectifier. The steepness of this curve at each point corresponds to the reciprocal resistance _ at this point. It can be seen that at point B the changes in the current for the same change in voltage are significantly greater than at point A. Thus, by increasing the bias voltage, the AC resistance Ra of the rectifier can be substantially reduced.

If the bias of the rectifier is made variable, so the properties of the circuit can meet the various requirements be adapted to the level of the cutoff frequency. There is also the advantage that .the temperature dependence of the alternating current resistance, which occurs in dry rectifiers is known to be very large (40 ° / 'o change in resistance with 10 ° temperature increase) can be compensated by always regulating the bias so that the AC resistance under all operating conditions and temperatures over and over again, those once specified has the most favorable value.

So far, a parallel connection has been used to reduce the resistance applied several rectifiers. In contrast, means influencing the resistance a significant reduction in effort by preloading. It's in the frame the invention of course possible, the change of the preload automatically to effect.

Claims (1)

PATENT PROVISIONS: i. Circuit arrangement for modulation or rectification with the aid of dry rectifiers or two-electrode tubes, characterized by such a dimensioning of the resistors lying in series and / or parallel with the modulator or rectifier that members of the third or higher power in the current-voltage characteristic of the rectifier or modulator circuit are practically zero. a. Circuit arrangement according to Claim i, characterized in that only one resistor is connected in series with the modulator or rectifier and the conductance of this resistor corresponds to the relationship is selected, whereby under ad, ßd, Yd the coefficients of the current-voltage characteristic ('dl Ud)' d = ad Ud + ßd UZ - [- yd Uds ... of the modulator or rectifier are to be understood. . 3. Circuit arrangement according to claim i, characterized in that, in the case of a dry rectifier, the resistance value .des selected in series with this resistor is equal to half the AC resistance of the rectifier. 4. Circuit arrangement according to claim i, characterized in that in order to achieve a sufficiently high cut-off frequency, the AC resistance of the modulator is reduced by a suitable DC bias voltage. 5. Circuit arrangement according to claim i, characterized in that the AC resistance of the rectifier is substantially reduced or kept constant by a bias voltage which can optionally be set manually or automatically.