DE864577C - Arrangement for adaptation to the resistance of a resonance circuit - Google Patents

Description

Arrangement for adaptation. to the resistance of a resonance circuit Die Invention relates to tuned oscillation circuits with a generator or to a consumer or to both and are connected to them in a resistive manner need to be adjusted. Fig. I serves as an explanation.

There a parallel oscillation circuit is shown, which consists of the inductance L i -; - L 2, a capacitance C and an ohmic `@ 'i-? Resistor ri; - r 2. If this circuit is matched to a connected generator or consumer, it becomes an ohmic resistance of the same size between points C and D If one does not tap at one end of the inductance, but at another point of the inductance, for example at point A, the resistance becomes smaller as a result of the transformation. It is thus possible, starting from R ', to set any ohmic resistance for the generator in accordance with the displacement of the tap on the inductance. So it is always possible to adapt the ohmic resistance of the generator or the consumer to the ohmic resistance of the resonant circuit, ie the ratio of the resistance of the connected element to the resistance of the part of the resonant circuit between terminals A and D in the most favorable ratio bring to. This can be done by shifting point A on the inductance, whereby L i and L: 2 are changed in size, but the size of their sum remains the same. If the value of the resistance of the generator is not known during the construction of the oscillating circuit or if a change has to be made afterwards, it is necessary to make the tapping of the point at the inductance L i and L 2 variable. This can be done, for example, by using a tap changer in the case of a coarse tuning or a wiper that runs on the coil conductor for fine tuning.

However, sliding contacts and tap changers very often give cause to malfunctions and require careful execution and intensive maintenance and control. The invention therefore provides means, a contactless resistance control perform, which also works continuously. The invention uses to solve this Task the known fact that by shifting a short-circuited Coil in the homogeneous part of the magnetic field of an inductance between these measured at the ends BC, but the partial inductances between the ends and a tap can be changed. According to the invention - is therefore such in short-circuited coil in the homogeneous part of the magnetic field of the inductance L i and L 2 mounted displaceably. We recommend tapping A in the middle to attach the inductance, so that L i = L 2 to the control range as possible to make big. To achieve this effect, it is also useful to use the homogeneous To make part of the magnetic field as large as possible, which can happen that the pitch of the turns at the ends of the coil L i and L 2 is greater than in the middle.

In the embodiment of the invention, the inductance L i + L z is designed as a cylinder coil, in the hollow cylinder of which the short-circuited coil S is arranged concentrically displaceable in the axial direction. If the coil body is in the area of the inductance L i, the resistance between points A and D is not affected. However, if it moves from this area into the area of the inductance L 2, the resistance becomes smaller in the direction towards point D and reaches a minimum at the end of the homogeneous field of the inductance L 2.

Fig. 2 and 3 give two application examples of the arrangement according to the invention. In Fig.2, the cathode-anode path of an electron tube V is placed between points A and D , which serves as a generator and whose grid is externally excited. A capacitor is connected between the anode of the tube and point A for DC separation.

But even with self-excitation, a generator tube can be coupled to a resonance circuit according to the invention. For this purpose, the feedback coil Rk (Fig. 3) is coupled with the inductance L x in the correct phase. Consumers, for example loss resistances (antenna) or other four-pole connections, can of course also be connected to A and D with the most favorable adaptation.

Claims (7)

PATENT CLAIMS: i. Arrangement for adapting the ohmic resistance of a generator or consumer to the resistance of a resonance circuit, the between the tap of the inductance and another point of the resonance circuit is characterized by a short-circuited coil that is inside the homogeneous Part of the magnetic field of the inductance of the resonance circuit is displaceable is arranged. 2. Arrangement -according to claim i, characterized in that the tap is located at the center of the inductor. 3. Arrangement according to claim i or 2, characterized in that the inductance is designed as a solenoid, in the hollow cylinder of which the short-circuited coil is concentric in the direction of the axis is movably arranged. q .. Arrangement according to one or more of the preceding Claims, characterized in that the pitch of the turns on the solenoid is larger at the ends than in the middle. 5. Arrangement according to one or more of the preceding claims, characterized in that the resistance of the resonance circuit between the tap on the inductance and another point on the circle in Anode circle of an externally excited electron tube. 6. Arrangement after a or more of Claims i to q, characterized in that the resistor of the resonance circuit between the tap of the inductance and another point of the Circle in the anode circuit of a self-excited tube and a feedback between the circular inductance and the control grid of the tube is provided. 7. Arrangement according to one or more of claims i to q., characterized in that between the tap on the inductance of the resonance circuit and another point of the Circle a loss resistance, for example an antenna, is connected.