DE967648C - Mixing stage with additive mixing, especially for FM reception - Google Patents

Description

In mixing stages with additive mixing for heterodyne receivers, as is well known, the receiving and oscillator vibrations are superimposed on the same grid of the mixer tube and to form rectified at the intermediate frequency. In such mixer stages it is known to use the input circuit (Receiving circuit) and oscillator circuit to decouple from each other by a bridge circuit, the z. B. consists of four capacities, one of which is the grid-cathode capacitance of the Mixing tube and the three other capacities are capacitors (Rothe and Kleen, electron tubes as an initial stage amplifier, 2nd edition, 1944, p. 218).

For connecting the two oscillation circuits to the mixing tube using a There are the following two basic options:

1. One pole of the input circuit is connected to earth (cathode). One pole of the oscillator circuit is connected to the grid.

2. The two oscillation circles are interchanged. So the circle of reception lies not in mass. Therefore, the entire receiving circuit leads half the oscillator voltage to earth, see above that the risk of the radiation of oscillator vibrations is correspondingly great.

In a known circuit, which belongs to case 1, is in the bridge circuit mentioned at the beginning the capacitor connected to the cathode (earth) is designed as a trimmer capacitor (British Patent 243017).

The invention also relates to a circuit with the aforementioned capacitive bridge circuit, namely to one that belongs to the case ι. According to the invention is of the three capacitors of the bridge circuit, the capacitor located on the grid is designed as a trimmer capacitor.

In a mixer with a bridge circuit, it is known to build the circuit so that the

ίο bridge circuit completing capacitor, which you will train as a trimmer capacitor, lies on the grid. However, this circuit falls under case 2, in which the receiving circuit is not connected to ground (Pitsch, textbook on radio reception technology 1948, p. 302, fig. 320).

In the mixer circuit according to the invention, the requirement of case 1 is met, and at the same time the trimmer capacitor is on the grid. This has the following advantages. The two con-

ao capacitors of the bridge circuit, whose series connection is parallel to the input circuit, can be dimensioned so small that the capacitive load on the receiving circuit by the bridge circuit is low. In the case of the one described at the beginning known circuit, which belongs to case 1, there is the possibility of any dimensioning only for the two capacitors whose series connection is parallel to the oscillator circuit, because the two capacities lying parallel to the receiving circuit the specified grid-cathode capacitance of the tube and the appropriately set trimmer capacitor. With the oscillator circuit however, a low capacitive load is less important.

Another advantage of the circuit according to the invention is that when setting the Trimmer capacitor the part of the receiving voltage reaching the grid regardless of the Input capacitance of the tube is.

The drawing shows an embodiment of the invention. One end of the input circuit E is connected to the cathode of the mixing tube Rö and thus also to ground. This is at a tap of the capacitive branch of the input circuit E.

one end of the oscillator circuit O is connected, the other end of which is connected to the grid. The trimmer capacitor Γ is set so that the oscillator circuit O is in the diagonal of the bridge circuit that comes from the input circuit together with

the trimmer capacitor T and the grid cathode capacitance of the tube Rö is formed. If the tap on the oscillation circuit E is in the middle, the capacitance of the trimmer capacitor T must be equal to the grid cathode capacitance. With this circuit it must be accepted that only half the input voltage is applied to the grid. However, this is generally meaningless because the grid is usually placed at a tap on the input circuit so that the input circuit is less capacitively loaded by the tube. If you move the tap more to the left, you get a higher input voltage at the grid. If, however, the tap is moved more to the right, a better oscillation capacity is obtained if the mixing tube Rö is connected as a self-oscillating mixing tube, e.g. B. by using a feedback coil A 'located in the cathode line. The feedback coil can also be in the anode line, which is less favorable in terms of oscillation and radiation. You can also put a feedback coil in each of the cathode and anode lines.

Claims (2)

Patent claims: 1. Mixing stage with additive mixing, in which the input circuit from the oscillator circuit a bridge circuit consisting of four capacitors is decoupled, one of which is capacitance the grid-cathode capacitance of the mixing tube and the other three capacitances are capacitors, and in which the input circuit with one pole high-frequency to ground and the oscillator circuit with one Pole is on the grid, especially for VHF reception, characterized in that Of the three capacitors, the one on the grid is used as a trimmer capacitor is designed to adjust the bridge equilibrium. 2. Mixing stage according to claim 1, characterized in that that they z. B. by using a feedback coil located in the cathode line is switched as a self-oscillating mixer stage. Considered publications: German Patent Nos. 722053, 723232; French Patent No. 628518; British Patent No. 243 017; U.S. Patent No. 1725,721; Textbook of radio reception technology by Pitsch, 1948, pp. 302/303; Electron tubes as initial stage amplifiers by Rothe and Kleen, 1944, pp. 217/218. 1 sheet of drawings I 709792 / S3 11.57