DE956526C - Circuit arrangement for adapting a consumer according to amount and phase to a high-frequency amplifier - Google Patents

Description

Circuit arrangement for adapting a consumer by amount and Phase to a high frequency amplifier in order to adapt a consumer to a To be able to carry out high-frequency amplifiers according to amount and phase within wide limits, a circuit arrangement is proposed according to the invention, which is characterized is that the high frequency energy is coupled out of a differential capacitor which forms part of a parallel oscillation circuit of the high-frequency amplifier, and fed to the consumer via an adjustable reactance. Of the adjustable reactance: enables the compensation of the reactance of the consumer, while the ohmic component of the consumer by the appropriate Position of the differential capacitor adapted to the amplifier -, verden can. The adjustable reactance consists in particular of a series circuit .an inductance and a capacitance, both of which can be designed to be adjustable.

If the consumer is connected to a coaxial cable or via such a cable is, according to the further invention, the adjustable reactance can be in this Cables to be built in; it is preferably dimensioned in such a way that there is no change in characteristic impedance of the cable enters. The choice of inductance and capacitance of the adjustable Reactance: is done so that it has a sufficient bandwidth to Avoid distortion of the high frequency to be transmitted. At The invention will be explained in more detail using FIGS. 1 to 3.

Fig. I shows an embodiment of the circuit arrangement according to the invention, while Figs. 2 and 3 show embodiments of the within a coaxial cable adjustable reactance.

In FIG. I, i is the input resistance matched to the incoming line of the high frequency amplifier. Ini anode-cathode circuit of the high-frequency amplifier there is a parallel circuit of a coil 2, to the .ein differential capacitor 3 is connected in series, and a capacitor 4. The center allocation of the differential capacitor 3, which can be changed in their distance from the other assignments the decoupling of the high frequencies: energy, without initially the reactance of the consumer is compensated. The mean occupancy of the differential capacitor 3 is via an adjustable reactance, which is made up of a series circuit an optionally controllable capacitor 5 and an optionally controllable capacitor 'Coil 6 is connected to a coaxial line, not shown. By Adjustment of the capacitor 5 and / or the coil 6 is a compensation of the reactance of the consumer possible, so that the consumer is supplied with the optimum performance will. This can for example be inductive, capacitive or inductive-capacitive and be afflicted with an ohmic component and thus a complex resistance that then consumes optimal power when its reactance compensates becomes, so the consumer is a pure one. Represents effective resistance.

The adjustable reactance is shown in FIG. a coaxial Built-in cable. The inner conductor 7 of this cable consists of the coil 8 and the immersion capacitor 9 lying in series. Both are surrounded by the sleeve jo, whose Dimensions are chosen so that no changes in the wave resistance occur. The assignments i i of the immersion capacitor 9 are fixedly arranged in the sleeve io. The counter-assignments 12 are the continuation with the one emerging from the sleeve io of the inner conductor 7 forming conductor 13 firmly connected and can by means of a in the slots of the outer jacket movable web 14, which is threaded with a Outer jacket of the coaxial cable located nut 15 is rigidly connected, adjusted will. As a result, a change in capacitance is achieved and the reactance can thus be adjusted accordingly in relation to the consumer.

Fig. 3 shows as an embodiment one in a coaxial Cable located adjustable reactance, the capacity of which is 16 unchangeable is and its inductance 17 by means of a high-frequency iron pin 18, which is with the sliding inner conductor i9 of the coaxial cable is firmly connected, changed can be. The inner conductor i9 is in turn with a web for the purpose of displacement 2o firmly connected to the one on the threaded outer jacket of the coaxial Cable movable nut 2i can be adjusted. can. Due to the different adjustable Immersion depth of the high-frequency iron pen in the coil can be the inductance change and so adjust the reactance in relation to the consumer accordingly.

Claims (6)

PATENT CLAIMS: i. Circuit arrangement for adapting a consumer according to amount and phase to a high frequency amplifier, characterized in that the high frequency energy is coupled out of a differential capacitor, the Part of a parallel oscillation circuit of the high frequency amplifier forms and over an adjustable reactance is fed to the consumer. 2. Circuit arrangement according to claim i, characterized in that the adjustable reactance off there is a series connection of a controllable inductance and a capacitance. 3: 'Circuit arrangement according to claim 2, characterized in that the capacitance consists of a changeable immersion capacitor. 4. Circuit arrangement according to claim 2, characterized in that the inductance consists of a spuke with changeable There is self-induction. 5. Circuit arrangement according to claim i, characterized in that that the adjustable reactance is part of a consumer or is used for its connection coaxial cable. 6. Circuit arrangement according to Claim 5, characterized in that the adjustable reactance is the inner conductor of a coaxial line section and that the change in inductance or the capacity due to movable parts of the outer or inner conductor related mechanical transmission means is effected. Into consideration Printed documents: F. E. T e r m a n, "Radio Engineering", 1947, New York, Pp. 73 and 74; German Patent No. 862 314; French patent specification no. 892 o19.