DE1151572B - Arrangement for adjusting the oscillation amplitude of a preferably transistor-equipped oscillator manufactured as a potted unit - Google Patents

Description

Arrangement for adjusting the oscillation amplitude of a preferably transistor-equipped oscillator manufactured as a potted unit For adjustment the oscillation amplitude of oscillators is used in many cases an adjustable one Resistor connected in series with the emitter. An arrangement is known Instead of the resistor, however, a continuously variable inductance for this purpose switches on in the emitter circuit of the transistor and by their negative feedback effect the oscillator amplitude can be influenced. The use of such, inductance lying in the emitter circuit for balancing the oscillator amplitude but excluded if there is an additional ohmic resp. temperature-dependent resistance. Such resistances are usually provided in transistor oscillators in order to stabilize them against temperature fluctuations perform. With a transistor oscillator temperature-stabilized in this way via the emitter circuit but you can do the independent amplitude adjustment with an adjustable resistor Carry out in the parallel resonance circuit.

It is now known that transistor oscillators are often referred to as encapsulated Assembly units manufactures to protect the circuit elements against mechanical damage and to protect against damage caused by corrosion. Protection against corrosion is included but only possible if the circuit elements accessible from the outside for the purpose of adjustment ensure an airtight seal. For example, if you use a Rotary resistance is used so it is impossible to embed this resistance by yourself to seal in the potting compound against the outside air. Between the externally accessible Axis of the rotational resistance and the guidance of this axis always remains an air gap, through which aggressive vapors od. The like. Ingress into the housing of the rotary resistor and can cause corrosion damage there.

The present invention is based in particular on the object those occurring with encapsulated transistor oscillators and explained in more detail above To eliminate disadvantages of the known balancing devices.

The present invention relates to an arrangement for balancing the oscillation amplitude of a preferably transistor-equipped and potted Unit manufactured oscillator. According to the invention, there is the adjustment device from one in series with the resonant circuit inductance into the parallel resonance circuit switched on and provided with a screw core made of metallically conductive material Additional inductance. With reference to the figures of the drawing, the inventive Arrangement explained in more detail below.

Fig. 1 shows the circuit of the transistor oscillator. In the collector circuit of the transistor 1 is the parallel resonant circuit, consisting of a capacitor 2 and the resonant circuit inductance 3, which acts as the secondary winding, the feedback winding 4 and carries a load winding 5 as a tertiary winding. At a voltage divider, consisting the ohmic resistors 6 and 7 become the fixed base bias for the transistor 1 tapped. In the emitter lead of the transistor 1 are for the purpose of compensation the temperature fluctuations two ohmic resistors 8 and 9 switched on. The connection point between these two emitter stands is via a capacitor 10 with the tap for the basic bias in the voltage divider 6/7 connected to AC.

To the amplitude of the oscillator voltage tapped at the load winding 5 U "match, the additional inductance 11 is provided according to the invention, which switched in series with the resonant circuit inductance 3 in the oscillator circuit is. By the sum of these two inductances and the value of the capacitance 2 the oscillator frequency is clearly defined. The additional inductance 11 is provided with a screw core made of metallically conductive material. Consequently it also transforms a loss resistance into the oscillator circuit, whose Size can be changed in that the metallically conductive screw core more or is screwed less far into the space of the bobbin. In practice it has been shown that the metallically conductive core of the additional inductance according to the invention essentially only has an effect on the damping of the oscillator amplitude, not on the other hand on the oscillator frequency. Surprisingly, even a metallic effect conductive screw core with ferromagnetic properties only extremely low on the oscillator frequency. Such a core, however, is metallic compared to that conductive core without ferromagnetic properties the particular advantage that a Adjustment of the oscillator amplitude possible within a much larger range is.

The additional inductance is built up in a manner known per se. One a particularly useful embodiment is shown in FIG. 2 of the drawing. The winding 12 is in this case applied to a tubular plastic coil carrier 13, which is with is provided with an internal thread suitable for the screw core. The tubular Coil carrier 13 is closed on one side. This design allows without further ado a use in transistor oscillators manufactured as structural units, the Inductance embedded in the potting compound 14 in the manner shown in FIG will. The metallically conductive screw core used for adjustment is in this way easily accessible from the outside. At the same time, the winding is susceptible to corrosion 12 of the additional inductance in the same way as the other circuit elements of the The transistor oscillator is protected against any influence from the outside air. A used one Corrosion-prone screw core can, if necessary, with a protective coating be coated.

In many cases this will not be necessary because you the screw core after the adjustment to protect against displacement due to vibrations with the help of wax or the like. such a wax coating - provided it is complete is - will in most cases be sufficient as protection against corrosion.

Claims (3)

PATENT CLAIMS: 1. Arrangement for balancing the vibration amplitude one preferably fitted with transistors and manufactured as a potted unit Oscillator, characterized by one in series with the resonant circuit inductance switched into the parallel resonance circuit and with a screw core made of metallic Additional inductance provided with conductive material. 2. Arrangement according to claim 1, characterized characterized in that the metallically conductive screw core has ferromagnetic properties owns. 3. Arrangement according to claim 1 and 2, characterized in that the interior of the coil former of the additional inductance is closed on one side.