DE1245416B - Circuit arrangement for pulse transformation with high cutoff frequency - Google Patents

Description

Circuit arrangement for pulse transformation with high cutoff frequency The invention relates to a pulse transformer, which is characterized by a particularly high upper limit frequency and a very anechoic connection with other switching elements permitted.

The subject of the main patent is a circuit arrangement for pulse transformation with a high cut-off frequency where an active impedance converter is a passive transformer in the form of a line transformer is connected in parallel to provide a particularly distortion-free To achieve momentum transformation. In a preferred embodiment there is the line transformer made up of ribbon lines, which, starting from mutually parallel Ends evenly and slowly twisted against each other.

The essential point of using such line transformers consists in frequency distortion and in particular an impairment of the upper Cut-off frequency due to joints at the transition points between the transformer on the one hand and other circuit elements on the other hand to avoid.

According to the main patent, the parallel position of the Line ends, which od the connection to other ribbon lines. Like. Facilitates. So far nevertheless with the transformers according to the main patent at the connection points butt joints occur which can give rise to reflections, they result from the fact that the inner metal coverings have a finite thickness. This is where the invention creates remedy that the lines as applied to flexible dielectric material thin layers of electrically conductive material, in particular made of metal, formed are.

In this way, on the one hand, very fine transitions can be created with very little surface unevenness, and on the other hand is the execution of the Rotation of the line parts located in the transfer part more evenly and more slowly Way possible without any difficulty.

The line transformer according to the invention is produced in particular vapor deposition or electrolyzing of the conductive material onto the flexible ones dielectric tapes into consideration. Both manufacturing processes allow without difficulty the production of very thin layers, so lead in the desired way to a joint-free Linking possibility of the line transformer according to the invention with the outer one Circuit. In addition, such a production method is also in the course of development towards a microminiaturization of all high-frequency technical components.

In the figures are two exemplary embodiments of the invention Line transformer shown, namely in F i g. 1 by a 2: 1 transformer with galvanic connection on both sides and in FIG. 2 by one 1: 1 transformer with electrical isolation.

According to the invention, the ribbon lines are in the transmission part in both figures of the line transformer as a thin layer of vapor-deposited or electrolyzed Metal formed, the thickness ratios in the drawing being those in nature do not match. In reality, the metal layers 1 are shown in the drawing indicated by strong black lines are much thinner than the flexible dielectric substrate 2.

As can be seen from the figures, the conductive layers 1 are located in each case so that they close to the outside at the mutually parallel ends 3 of the lines come and so an easy connection to external switching elements with which the line transformer is to be connected. To each other too parallel ends 4, where the individual parts of the line transformer are connected to one another are, the conductive layers 1 are on the inside and again result in a comfortable and joint-free contact between the individual ribbon cables.

For the high-frequency elimination of the direct current in itself Short circuit between the line ends on the same side are ferrite rings 5 pushed over the ribbon cables. Instead of such rings there would be Ferrite blocks can also be used for the same purpose, in which holes are then made would have to be through which the ribbon cables can be inserted. According to F i g. 1 a ferrite ring 5 is used in the 2: 1 transformer, while correspondingly F i g. 2 with the 1: 1 transformer, two ferrite rings 5 are used. In the In practice, however, it is appropriate to achieve a low lower limit frequency, to use a larger number of ferrite rings or ferrite tubes in both cases.

Claims (3)

Claims: 1. Circuit arrangement for pulse transformation with a high cut-off frequency, in which an active impedance converter has a passive transformer in the form of a line transformer with, starting from parallel ends, evenly and slowly twisted lines in the transformer part, according to patent 1230 078, as a result of which it is marked that the lines are formed as thin layers of electrically conductive material, in®besöndere made of metal, applied to flexible dielectric material and. 2. Procedure for Use of a Laitgdg, 9 -transfer according to claim 1, characterized in that dag the lines forming electrically conductive material on flexible strips dielectric material is evaporated. 3. Method of manufacturing a line transformer according to claim 1, characterized in that that forming the lines is electrical conductive material on tapes of flexible dielectric material on electrolytic Ways is applied.