PL87793B1 - - Google Patents

Description

The present invention relates to a coaxial high power load for absorbing high energy frequencies, formed by the outer conductor and the inner lossless coaxial conductor.

The known high frequency high power loads for meter and decimeter waves are constructed as Matched ceramic loads with a carbon resistive layer cooled by flowing water. Defect of these loads is their high sensitivity and susceptibility to damage at power above 10 kW. Except that of the type of load, the loads are known in which the absorption of high-frequency energy occurs in a liquid dielectric.

With these loads, one should pay attention to the proper structure of the liquid dielectric and keep the same value of its dielectric constant and, moreover, such loads are of considerable magnitude dimensions. The construction of loads consisting of a section of a coaxial line and an external line turns out to be better an absorbing layer made of a metal foil. This type of load has a constant wave resistance, however at frequencies in the decimeter wave range, most of the energy losses occur over a short distance load, which makes this section highly overloaded. Hence the use of these burdens becomes problematic at powers above 10-12 kW.

The aim of the invention is to eliminate the cited disadvantages. The above-mentioned disadvantages eliminate the high power load for high frequency energy absorption, constructed in accordance with the invention. This load is created with outer conductor and lossless inner coaxial conductor.

The essence of the invention lies in the fact that the internal coaxial conductor is connected to the whole shear cone, which on the supply side represents the wave resistance equal to the lowest value of the loss resistance for high frequency external conductor in the frequency range used, and the other end of it cable has zero impedance.

The subject of the invention will be discussed in more detail on the basis of the drawing in which it is shown example of a coaxial load in longitudinal section.2 87793 The load comprises an inner conductor 1 having a truncated cone shape and coaxially positioned in the external conduit 2, made of metal foil insulated on both sides. Larger basis 3 of the internal wire is galvanically connected to the external wire, while its smaller base 4, constituting the power clamp, it presents a wave resistance equal to the smallest value of the loss resistance for the great frequency of the outer conductor 2. The size of the area of this base 4 depends on the value wave resistance for high frequency external conductor 2, since the input impedance of the load must be equal to the high-frequency resistance of this external conductor as possible 2.

The solution according to the invention ensures, on the one hand, a good load impedance matching, on the other hand, the distribution of power, even over the entire length of this load. Constructed in accordance with the invention load ensures that a sufficiently high input resistance is achieved. And so in II! TV band can obtain the wave resistance around 2512, and in the 4th and 5th bands around 4012. This value of the wave resistance can be easily transform to other values of wave resistance, commonly used, i.e. 50, 60 or 7512. For band I and II TV, the wave resistance value is around 1312, which is still an acceptable value. l nsklsd 120 + 18 Price PLN 45

Claims (1)

1. Claim A coaxial high power load for absorbing high frequency energy, formed by an inner conductor and a lossless inner coaxial conductor, characterized in that the coaxial inner conductor (1) is a complete cone of cut, the energized end (4) of which shows the wave resistance equal to the smallest value of the loss resistance for the high frequency outer conductor (2) in the frequency band used, and the other end (3) of the inner conductor represents the zero impedance. Wash. Typographer. UP P! ~ *