DE851369C - High frequency variometer with movable mass core - Google Patents

Description

In the case of high-frequency variometers with a movable mass core, which is used for One-button voting in receivers or transmitters is coupled with one another, occurs the task of the initial inductance, i.e. the inductance when pulled out Adjust ground core. As is known, this problem can be solved in that the Earth cores or the coils of the individual variometers in the starting position accordingly be shifted against each other. For this, however, a special one is constructive Effort required. The invention gives a simpler solution for the adjustment the initial inductance of high-frequency variometers with a movable earth core at. It is generally applicable when the initial inductance of a plunger core variometer should be adjusted.

According to the invention is at the end of the coil of the high frequency variometer, at which the earth core is not pushed in, a small additional core to adjust the smallest inductance within much smaller limits than the Main core and arranged slidably up to this at the most.

The advantage here is that only a very small individual part needs to be moved.

Although it is known in a high-frequency variometer with a sliding However, providing a smaller additional core affects the ground core Setting not just the initial inductance, but the inductance as a whole Adjustment range. The additional core is namely in a longitudinal bore of the main core movable and just as long as the main core. As a result, the additional Core are used for fine adjustment in every position of the main core. In the inventive Arrangement, on the other hand, makes an adjustment of the additional core practical nothing if the main core is pushed in, but quite a lot if the Main core is pulled out. This property is essential because it enables in a known manner, e.g. B. at the other end of the setting range, another adjustment means, z. B. adjust a parallel capacitor without affecting the respective setting of the additional core interferes with it. The situation is then similar to that of a variable capacitor, in which the setting of the parallel capacitance makes little difference, when the variable capacitor is involved, on the other hand much when the variable capacitor is involved is unscrewed.

In Ahb. r shows an embodiment of the inventive concept. The mass core K is by means of a drive device, not shown in the Bobbin SK, which carries the coil windings W, can be pushed in as far as point a. At the right end of the spool a socket F is attached, which is threaded is provided to accommodate the small screw core K1. By means of this additional Core, the inductance is balanced when the core K is completely or out of the coil is almost completely pulled out.

The space for the additional core can be found in spite of the presence of the main core are superfluous, since the main core is not quite, namely only up to the point d needs to be pushed into the bobbin, because when it is pushed in it takes the inductance last, as the right part of the curve in Fig. 2 shows, only very much little too.

Claims (1)

PATr ;; TAxsPi '; LC1t: high frequency variometer finitely displaceable mass core, characterized in that at the end of the coil of the variometer at which the Core is not pushed in, a small additional core to balance the smallest inductance in @ much smaller limits than the main core and up to is arranged at most slidably up to this.