DE546839C - Detector for maximum frequencies - Google Patents

Description

The invention relates to a detector for

Maximum frequencies, wavelengths below a meter, very simple construction, there he omitted grid capacitors, leakage resistors and the like.

An embodiment of the invention is shown in the drawing.

The detector is a self-oscillating magnetron 5 with a slotted anode 6 and 7 and a cathode 8 located therein, which is connected to a heating battery 9 with a heating resistor 10 connected. To the magnetron a winding 11 is arranged, which is of a Battery 12 with sliding resistor 13 is excited. The anode halves 6 and 7 are with connected to the resonant circuit 14, consisting of the fixed inductance 15 and the Variable capacitor 16.

The vibrations to be recorded are

ao the transmitted from the coil 17 to the coil 15, the former lying in the antenna 18, 19. The oscillating circuit 14 can also be tuned in other ways; in any case it contains a center tap 20 on the spool. The neutral point is connected to a line 21 which returns to the cathode at 22 and contains the anode battery 23 and the telephone 26.

This magnetron circuit generates vibrations of a very constant frequency, which with the incoming vibrations are superimposed. As a result, the line 21 flows a low-frequency current component between the cathode and the oscillating circuit, which is proportional to the signal applied.

To make use of this stream of audible frequencies a large reactance or impedance is provided in series with this line, in the present case the primary winding of a transformer 24. This impedance is effective when dimensioned appropriately as a filter and separates the low-frequency component of the current flowing in 21 from the high frequency component. A capacitor 25 is switched on for the +5 high frequency, while the low frequency is transferred to the telephone 26 in the secondary circuit of the transformer 24.

The use of magnetrons as detectors is known per se, but has so far offered same difficulties as the three-electrode tubes in that the feedback made it difficult to maintain the constancy of the vibrations at very high frequencies. However, the experiments have shown that by using a magnetron with a slotted anode a detector for Vibrations is created, which in relation to the three-electrode tube no

possesses high internal capacitance and undamped signals or modulated waves of extremely high frequencies, for example waves below one meter, are allowed to be received. In contrast, the features of the present invention consist in the following elements: a magnetron with a slotted Anode; an associated tuned oscillation circuit with center tap; one Impedance for the modulation or the beat signals in the line from this neutral one Period. The impedance is usually a low frequency impedance.

Capacitors and reactors in the supply lines, as they are in ordinary ones Tubes are used, are not required in the device according to the invention, because the low-frequency circuit with the center tap 20 is connected; therefore there is no tendency for it to be conductive Coupling between these circuits and others and no need for filter coils either and capacitors to prevent this coupling. Furthermore, due to the lack of a control grid, the usual Blocking and bypass capacitors superfluous.

The capacitor 25 can be omitted, but is desirable as a low path Resistance for the high-frequency currents. Grid resistors, capacitors, and biases are covered for the present Detector continues and with it the corresponding losses and influences on the signals. For this reason, the circle is much quieter in operation.

Another advantage of the present arrangement is that there is no feedback is to be regulated if one changes from telegraphic or undamped signals to modulated ones Signals. However, the sensitivity can be increased by changing the field strength of the Magnetrons can be regulated within certain limits. The magnetron detector according to of the present invention is particularly suitable for frequencies at which the usual Tubes cannot be made to function properly, i.e. with a size range of around three meters in wavelengths. Probably one of the reasons that ordinary tubes fail at such frequencies is the difficulty in Get the local vibrations required to receive undamped signals. The magnetron according to the invention works successfully up to 0.75 m and generates strong vibrations that if necessary, can be brought up to the order of amperes.

Claims (2)

Patent claims: i. Detector for maximum frequencies, consisting of a self-oscillating Magnetron with a slotted anode (6, 7), to both halves of which an oscillating circuit (15, 16) is connected, the Coil (15) has a center tap (20) which is connected to an output transformer and an anode voltage source is connected to the cathode. 2. Detector according to claim 1, characterized by the inclusion of a Capacitor (25) between the center tap of the oscillating circuit and the cathode as a discharge path for the high frequency. 1 sheet of drawings