DE733150C - Variometer for high frequency - Google Patents

Description

Variometer for high frequency It is known to use ferromagnetic substances to use to direct the magnetic field course in the desired paths. For high frequency magnetic fields steering made possible by ferromagnetic materials is often sufficient. because the permeability of these substances does not reach very high values. 'Sometimes forbids the extensive use of such substances z. B. at frequencies of several bTegah ertz.

It is also known to conduct the alternating magnetic field of a coil into another coil with one running in the longitudinal direction of the field insulated tubular with ferromagnetic FV material To use structure, which rests on the inside of the coils and in its Inside the field runs. This interior can be whole or partial. So here serves an electrically conductive sheath to guide the field, thereby increasing the coupling factor. The conductive sheath encloses the field in such a way that the internal cross-section of the tubular structure represents the field cross-section.

The invention provides an @ `: iriometer, i.e. an adjustable inductance, for high frequency. which has a particularly large control range.

The invention consists in that inside a coil on this Adjacent is a longitudinally slit that holds the bl.a "gnetfeld together, in particular tube filled with a ferromagnetic material made of electrically conductive, non-magnetic material, which apart from an air gap forms a ring is closed, and that one in the air gap to change the inductance Retractable disc made of conductive, non-magnetic material is provided.

Figs. I and 2 show an embodiment of the inventive concept. The magnetic field resulting from the current in the winding W is made conductive by the Sheath H, which is the slot. L has led. Through the slide S from electrically The dirt road in the space provided by the envelope H can be a highly conductive material * Z to be locked. The use of the sheath H here allows extensive Reduction of the inductance, since the slide does not move from the field lines can be.

The space enclosed by the shell H can be filled with ferrous material be filled. The slot L can also be designed as an insulating L overlap.

The fig; and @. illustrate a constructive solution for a based on the inventive concept arrangement with adjustable inductance. In fig 3 is a perspective view of the coil with the winding 11: 'and the sheath H to see. The two vertically arranged legs I, 1 and h = of the core in Fig. 4., which shows a section through the arrangement shown in Fig. 3, are in the direction of the winding axis is kept narrow and perpendicular to it wide, whereby a small axial length is to be achieved. L In the space Z can the on the axis .d, arranged in Fig.3 conductive disk S more or less screwed in , whereby the inductance can be regulated within wide limits.

Fig. 5 shows an arrangement in which the tubular structure on Gap Z is designed with a large cross-section, whereby given mechanical Tolerances the accuracy of the inductance setting is increased.

Claims (3)

PATr. '; TANsrRLCHE: i. Variometer for high frequency with one inside close to the coil. longitudinally slotted, holding the magnetic field together, made of electrically conductive, non-magnetic material, in particular tube filled with a ferromagnetic material, characterized in that that the tube is closed except for an air gap to form a ring and that one Disc made of conductive, not retractable into the air gap to change the inductance magnetic material is adjustable. 2. variometer according to claim i, characterized in that the Vohr in the vicinity of the air gap has a greater size Has cross-section than in the rest of the part. 3. Variometer according to claim 2, characterized characterized in that the dimensions of the variometer perpendicular to the air gap cross-section Small compared to the dimensions cut in the direction of the air gap cross-section are.