DE862783C - Circuit arrangement for ultra-short wave superposition receivers - Google Patents

Description

Circuit arrangement for ultra-short wave heterodyne receiver subject the invention is a circuit arrangement for ultra-short wave heterodyne receivers, in which the mixture takes place in two triodes working in push-pull, from their common anode circuit the intermediate frequency is removed.

Such circuits are known. In the known arrangements the received and superimposed voltages are fed to oscillation circuits, .which are on the grilles of the mixer tubes. They have the disadvantage that by the coupling elements for the Überlab approximate voltage and through the grid supply lines the resonance resistance of the grid circle is greatly reduced for very short waves so that the reception power is only low. Furthermore, there are push-pull mixer circuits with Lecher lines as resonant circuits using diode rectifiers known, in which the supply of the received energy is made in the cathode circuit will. Such a circuit has the disadvantage that the capacitance of the cathodes against each other and the harmful capacity of the chokes a reduction in the resonance resistance which causes the Lecher line acting as an oscillation circuit, so that the at the discharge path lying voltage is relatively low.

According to the invention, the disadvantages of the known arrangement are thereby avoided that when using triodes working in push-pull the received voltage the grids via a power line that is grounded in its electrical center 1 and the superimposed voltage to the tubes via one in the cathode lead common resonance circuit is supplied: The energy conduction is immediate over into the grid and eats no further switching elements burdened; so that this results in a high resonance resistance and thus a favorable mixing slope.

The intermediate frequency that forms in the anode circuit is preferred via one connected in its center to the anode power source, to the intermediate frequency approved circle.

The figure shows an example of the embodiment of the invention Circuit arrangement shown.

The incoming vibrations are transmitted from the receiving antenna 8 a coordinated Lecher line g the grids of the two push-pull triodes ro and i i supplied.

The superimposed voltage is from the vibration generator 12 via a tuned to its fundamental frequency oscillation circuit 13 the two cathodes of the Tubes io and ii m push-pull supplied, with the center of the oscillation circuit 13 via a line that runs as close as possible to the electrical center of the Lecher line, is connected to the current belly of the Lecher line. In this lead is the Grid bias switched on for the two tubes. In the anode circle of the two Triodes the intermediate frequency that forms via an intermediate frequency tuned resonance circuit 14 removed, the anode voltage for the two Mixing tubes in: the bobbin feeder. Because the following intermediate frequency amplifier tube is connected asymmetrically to its resonant circuit, the coupling takes place from the resonant circuit 14 expediently inductively to a following circle 15, which together with your circle 1L ,. is designed as a band filter. The circuit is particularly beneficial when a harmonic of the oscillator voltage is used for mixing. With such a Mixing method uses the grid bias of the oscillator for the purpose of strong - Harmonic formation up to the approach area of the characteristic or even below it.

To increase the input resistance of the leeward line and at the same time To improve the structure, it is also proposed to use both triode systems to be built into a tubular flask and the axes of the tubular grids in the extension the Lecher line to avoid inconsistencies.

The resulting closer position of the two tube systems that to a greater capacity between the anode of the system and the anode of the other system is harmless here, since the resulting capacity in the intermediate frequency resonant circuit is included. In order to avoid that the The oscillator voltage reaching the cathode of the tube is weakened by harmful discharges the heating lines, regardless of whether the tubes are direct or indirect are heated, throttled on their supply lines. The throttling is most beneficial by resonance circuits, which are tuned to the fundamental wave of the oscillator voltage are, even if only one harmonic of the oscillator voltage with the incident wave forms the intermediate frequency:

Claims (3)

PATENT CLAIM H-E-: i. Circuit arrangement for ultra-short wave heterodyne receivers, where the mixture takes place in two triodes working in push-pull, in whose common anode circuit the intermediate frequency is removed, characterized in that that the receiving voltage to the grids via "a grounded in its electrical center Power line and the superimposed voltage 'the tubes via one in the cathode line lying common resonance circuit is supplied. 2. Circuit arrangement according to Claim i, characterized in that one in the electrical center of the Lecher line run wire over the grid bias battery to the center of the oscillator coupling coil and is connected to earth at the same time. 3. Tube assembly for use in a Circuit arrangement according to Claim 1 or 2, characterized in that both triode systems are united in a glass flask and the axes. of the two individual grating coils each lie in the extension of the individual Lecher wires. q .. circuit arrangement according to one of the preceding claims, characterized in that the heating supply lines are throttled via resonance circuits, the natural wave of which is equal to the fundamental wave of the Superimposed oscillation is.