DE839836C - Tube arrangement for ultra-short waves with an ultra-high frequency line passed through the bulb wall - Google Patents

Description

In the case of ultra-short wave tubes, the high-frequency energy is supplied or discharged to or from the electrode system mostly via a wire or ribbon-shaped double line, which is passed through the piston to the outside. On the piston wall are here Of course, it influences the line properties, and one usually occurs Reflection of waves on, which is both an energy loss and undesirable Result in coordination of the line system. To avoid such reflections, is proposed according to the invention, at the melting point of the high-frequency line to select the pipe properties (diameter, distance) through the piston wall in such a way that that the increased transverse capacity caused by the piston wall in such a way is rendered harmless by an artificially increased longitudinal inductivity that a total of a L @ ettenleiter is formed, the wave resistance of which is equal to the wave resistance the radio frequency line is. In this way there is complete adjustment, so that Reflections can no longer occur. When carrying out the idea of the invention the fact that was previously perceived as annoying can be evaluated in a beneficial way, that the conductors suitable for melting through (copper clad wire, tungsten wire, etc.) generally have a smaller diameter than the conductors of the ultra-high frequency line. This automatically causes an increase in the longitudinal inductance, and for implementation of the concept of the invention only needs to be chosen to be just the diameter to become that the mentioned ladder properties occur.

The A1> 1>. i a shows the melting point of an ultra-high frequency line L. through a glass wall G, whereby the diameter of the Durc'hschmelz.drraht is chosen because its inductance is determined together with that of the glass wall; 2n Cross capacitance assembled into a chain conductor of the desired wave resistance. The equivalent circuit diagram of this arrangement is shown in Fig. I b. Of course can also have additional funds, e.g. B. an intentional increase in the transverse capacitance or series inductance, apply if the size order of the resulting Capacity and inductivity relationships do not allow a practical evaluation. Band-shaped conductors can also be used and, if necessary, against one another be twisted.

Of course, the above considerations apply in the same way also for the implementation of coaxial cables.

Claims (2)

PATENT CLAIMS: i. Tube arrangement for ultra-short periods with a Ultra-high frequency line guided through the bulb wall, characterized in that that the line properties at the implementation point are chosen so that the Increase in the transverse capacity caused by the piston wall through an artificial Increase in the series inductance of the line in such a way that it is balanced overall a ladder with a wave resistance equal to that of the ultra-high frequency line Characteristic impedance is formed. 2. Arrangement according to claim i, characterized in that that the increase in the longitudinal inductance by appropriate choice of the conductor diameter the ultra high frequency line takes place.