DE454585C - Circuit arrangement for high-frequency systems in conjunction with AC-saturated frequency converters and control chokes - Google Patents

Description

Circuit arrangement for high-frequency systems in connection with saturated alternating current Frequency converters and control chokes. It is known to control high frequency circuits to use DC auxiliary magnetized iron chokes and the same directly to switch on the antenna or the useful circle or a preceding circle. This arrangement in frequency converter circuits, in which the frequency multiplication takes place through AC-saturated iron cores according to the principle of shock excitation, has certain evils in the wake, which in the danger of the occurrence of swings in the multiplication or surge circuit and the subsequent useful circuit or intermediate circuit lie. It has been shown in practice that such Beating phenomena occur under certain conditions that are undesirable Have tones as their wake and which are likely to result from the retroactive effect of the useful or Intermediate circuit to the surge circuit. and the resulting changes in. the iron saturation of the frequency converter located in the latter. Lies now the control throttle in one of these circles so it is easily possible that while the setting or during operation when discussing the throttle the conditions for the mentioned beat phenomena occur and thereby impair the stability of the entire system.

According to the present invention, therefore, the control throttle is at such frequency transformer systems not in the useful circuit or a previous one Circle (for example intermediate circuit), but somehow into a finite former coupled, preferably after the useful circle (antenna circle) arranged special Auxiliary circuit switched on.

Another advantage besides the aforementioned increase in stability there is also the fact that now the data of the choke on the dimensions of the currents in the main oscillation circuits are independent by the auxiliary control circuit arbitrarily dimensioned and adapted to the sizes of the control throttles to be used can.

The attached figure shows the practical circuit arrangement the invention. i is a high frequency machine that operates on a self induction 2, capacity 3, winding q. and ferrous frequency transformer 5 existing Circle (basic frequency circuit) is working. The frequency converter contains as an output circuit one consisting of capacitance 6, self-tuning 7, coupling coil 8, the multiplied frequency leading multiplication (shock) circle with the one in the Assumed circuit example an intermediate circuit, consisting of capacitance 9, self-tuning in, coupling coils i i and 12 is coupled. The intermediate circuit in turn transmits the energy on the antenna 13, extension coil i ¢, coupling coil 15, earth connection 16 formed useful circle. The iron choke used to control high frequency vibration 17, which can easily lead to stability problems when the intermediate circuit or antenna circuit is switched on can give rise to the occurrence of beating phenomena is according to the invention in the capacitance i9 and self-inductance 18, which are also used elsewhere, e.g. B. via coil 14, can be coupled to the antenna, existing circuit, which preferably, as indicated in the figure, is to be attached behind the useful circle, switched on. 20 is the high frequency winding of the choke, 21- the DC control winding, at the ends of the influencing organ (microphone) 23 in series with a direct current source 22 is placed. The inductive coupling of the auxiliary circuit used in the figure turns out to be the most advantageous; however, a capacitive or a Conductive coupling can be made.

Claims (1)

PATLNTANSP RUCH: Circuit arrangement for high-frequency systems in connection with AC-saturated frequency converters and control chokes, characterized in that the control throttle is switched on in a special auxiliary circuit, which with a useful circuit carrying the high-frequency energy to be modulated (antenna circuit) is inductively, capacitively or galvanically coupled.