DE728730C - Stabilization of magnetron transmitters - Google Patents

Description

Stabilization of magnetron transmitters As is well known for magnetron transmitters With a high anode voltage, back heating phenomena occur very easily and in this State a stable operation is impossible, there are already various arrangements, which regulate the anode voltage depending on the anode current. The known arrangements initially have the disadvantage that they work too sluggishly, as z. B. with Urdox resistors the case is. The control range is of secondary importance in all known arrangements . Extremely narrowly limited and always constant, not the respective conditions different magnetron tubes corresponding control curve bound.

In contrast, the new stabilization arrangement initially has the advantage an inertia-free regulation as well as a practically almost unlimited regulation possibility. According to the invention, the fact is now used that, ß is the curve of the dependency Anode current heating current when most magnetron tubes are in a stable operating condition The dependency is similar to that of a DC-biased transformer: transmitted AC voltage bias currents (cf. curves a and b of Fig.i). This is used to by using the anodic current of the magnetron for transformer pre-magnetization of the alternating current heating and thus the emission to control. The circuit is explained in more detail below.

A self-contained, laminated iron core has three windings Mistake; A constant direct current from an external power source flows through the winding i, in such a way that the iron core is almost magnetically saturated. The from the anode direct current winding 2 through which the magnetron flows is switched so that the current direction this winding is opposite to that of the coil i, causing the magnetization of the iron core can be wholly or partially canceled. The one from the primary alternating current winding 3 through which the magnetron heater flows changes its alternating current resistance according to the more or less large self-induction caused by the different Magnetization of the iron core is conditional (see Fig. 2).

In order to prevent interference in the anode circuit, the premagnetization the control throttle can also be generated by a control tube .. The change in resistance the throttle Dl, which regulates the heating current, takes place through more or less strong Premagnetization of the iron core. This bias is caused by the tube R, controlled whose grid due to the voltage drop across a resistor W im The anode circle of the magnetron becomes more or less negative, which means that caused different large anode currents of R, the iron core of the choke through the winding D. is more or less strongly pre-magnetized and the self-induction or the resistance of winding D changed (see Fig. 3).

Claims (4)

PATENT CLAIMS: i. Stabilization arrangement for magnetron transmitters, characterized in that the heating power for the cathode is automatically reduced with increasing anode current, the emission of the cathode being kept constant or being increased in accordance with the increase in anode current. 2. Stabilization arrangement for magnetron transmitter according to claim i, characterized in that the alternating current resistance a magnetically almost saturated choke by demagnetizing by means of the anode current is changed. 3. Stabilization arrangement for magnetron transmitter according to claim i and 2, characterized in that the voltage drop of the anode current at one Working resistance is used to step down the heating current. 4. Stabilization arrangement for magnetron transmitter according to claim i to 3, characterized in that the alternating heating current does not generate any interference modulation in the anode circuit by using a control tube.