DE577871C - Modulated tube transmitter - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
June 6, 1933

REICH PATENT OFFICE

PATENT LETTERING

JVl 577871 CLASS 21a ⁴ GROUP

Modulated tube transmitter

Patented in the German Empire on March 5, 1932

All of them acting on the grille side of a high-frequency ■ vibrating tube Modulation methods are ultimately based on a shift in the operating point of the high-frequency alternating grid voltage in low-frequency rhythm. It is therefore the The clearest case of grid bias modulation is considered. Fig. 1 represents a idealized, i.e. down to the lower kink

xo tube characteristic running in a straight line, which is used for the purpose of the required power output ζ. B. must be used up to the current I _{0 max} . Let the high-frequency control voltage required to achieve this current be e _st . The penetration of the tube is initially assumed to be negligibly small. The high-frequency alternating grid voltage amplitude s _g is equal to e _st and becomes longitudinal during the modulation process

ao moved the x-axis to achieve 100 ° / oi§ ^'he modulation by the amount s _g into the broken line position. Since with the shift of the high-frequency grid AC voltage curve into the negative, not only the height but also the width of the current curve changes at the same time, the resulting modulation curve, i.e. the dependence of the basic harmonics resulting from the individual current pulses on the grid bias voltage, can even be used with the ideally assumed tube characteristic , no longer be a linear function.

Fig. 2 shows quantitatively the result that can best be achieved in the described way. Since in reality no tube has an absolutely sharp lower kink, are the practically achievable curves are somewhat less favorable and must therefore in practice either by shearing as a result of a large anode reaction or by counter-compensating Curve shapes in the following amplifier stages can be brought to the desired linearity.

According to the invention, the modulation curve of the modulated stage should itself thereby be improved that during the modulation process only the height, but not also at the same time the width of the current pulses achieved is changed, which z. B. done by using a rectangular high-frequency control voltage curve can. If the penetration of the modulated tube is negligibly small, this means the application of a rectangular high frequency grid voltage curve; the penetration is not negligible, is it is advisable to give preference to the fundamental harmonic in the grid voltage. To achieve one can imagine approximately rectangular high-frequency grid voltage curves

*) The patent seeker stated as the inventor:

Werner Buschbeck in Berlin.

use many per se, known procedures. You can z. B. the saturation properties of tubes (overdriven resistance amplifier) or of iron circuits (oversaturated Use iron chokes or transformers in series with resistor and capacitor) or arbitrarily add higher harmonics to the fundamental harmonics of the grid voltage, being yourself in most cases

ίο will be satisfied with the addition of a third and possibly a fifth harmonic. The use of rectangular high-frequency control voltages also has the advantage that with the same level of modulation of a tube, the output power is 4 / 31-1.27 times higher than with a sinusoidal high-frequency control voltage. The rectangular high-frequency current impulses require that the modulation line obtained always becomes a curve similar to the tube characteristic, that is to say, in the case of an ideal straight tube characteristic, it is also an absolutely linear function. If the penetration is not negligibly small, or if you want to artificially create a particularly strong anode reaction to improve the straightness by means of negative feedback or a large penetration, you will also appropriately distort the high-frequency anode alternating voltage in a rectangular manner in order to obtain a rectangular high-frequency control voltage with a rectangular high-frequency grid voltage. The generation of high-frequency rectangular anode alternating voltage curves can be done in a known manner, for. B. by using an ohmic external resistance or by series connection of circles, which on the fundamental wave, the third, fifth,. . . Harmonics are matched and their resistances for the harmonic in question are 1: ¹ Z ₃ , ¹ Z ₅ . .. behavior. In most cases, the supply of the third harmonic alone will be sufficient for the anode alternating voltage.

Claims (3)

Patent claims: 1. Modulated tube transmitter, characterized in that the high-frequency Control voltage of the modulation tube is made rectangular or almost rectangular. 2. Modulated tube transmitter according to claim i, characterized in that at Tubes with small penetration only made the high-frequency alternating grid voltage rectangular or almost rectangular is. 3. Modulated tube transmitter according to claim i, characterized in that the High-frequency grid and anode alternating voltage rectangular or almost rectangular are made. 1 sheet of drawings