DE861409C - Electrical transmission line with attenuation equalization - Google Patents

Description

As a result of linear distortions in the entire path of a transmission line, for example an energy distribution network. transmission elements' certain frequency areas are often disadvantaged. It therefore generally becomes necessary to apply equalization measures. The invention makes it possible to effect such equalization in a simple and effective manner.

The invention is based on the fact that each with complex Resistors stressed electrical lines, for example in electrical power distribution lines with several complex consumer resistances held in parallel in the course of the line, For certain frequencies a particularly high one and for others a particularly low one Attenuation results. These phenomena are caused by resonance between the transmission line, for example a concentric cable, and the load caused.

According to the invention, the load is an electrical Cable with complex cross resistances for certain frequencies resulting in attenuation reduction used the disadvantage caused by the distortion of the transmission elements to compensate for certain frequency areas. This can be done by the distance existing consumer resistances is selected accordingly and / or that Additional reactive resistances can be connected to these consumer resistances. For example, you can also determine the line length between two consumer resistors Select larger than the distance between the consumers and roll up the cable or lay it in a loop. Frequently, however, it will be necessary to provide additional Introduce load resistors into the line to reduce four-pole attenuation for the desired frequency area.

The figure shows the dependence of the resonance phenomenon with a pure reactive load on a concentric antenna cable with the characteristic impedance Z = 130 Ohm on the four-pole length, that is the length of the line sections given by the load resistances, for the frequency 150 kHz (curve b). Curve a shows the course of attenuation per quadrupole of an unloaded line as a function of the quadrupole length for the same frequency. It can be seen that at a certain frequency for a certain four-pole length there is an increased attenuation compared to the unloaded state of the cable and for a different cable length there is a reduction in attenuation. Only the maximum occurring in the calculated load example and the first following minimum are shown here. In addition, further resonance lengths are possible, which lead to further attenuation minima at the same frequency. The position of one or more of these maxima should now be chosen so that the distortions caused by other transmission elements are compensated for. According to a further invention, it is possible to use one and the same four-pole or four-pole chain in addition to de-attenuation of certain frequency areas for blocking other frequency areas. For example, a four-pole chain in front of an amplifier could be designed as a blocking element for low frequency ranges and as a damping element for higher frequencies.

Claims (1)

PATLN- TAN $ PR 0 C HE- i. Electrical power distribution line with several complex consumer resistances connected in parallel in the course of the line, characterized in that the load on the line is designed so that the attenuation resulting from the load for certain frequency ranges is reduced by the distortion of the transmission elements, eg. B. Transmitter, amplifier, compensates for certain disadvantages caused by certain frequency areas, 2. Electrical transmission line according to claim i, characterized in that existing consumer resistances are transformed by adding additional reactances so that the area of the attenuation reduction coincides with the area of the disadvantage caused by the distortions . 3. Electrical transmission line according to claim i or 2-, characterized in that the distance between the consumer resistances is selected accordingly. 4. Electrical transmission line according to claim i or one of the preceding claims, characterized in that the transmission line is subdivided by 'additional load resistors. 5. Electrical transmission line according to the preceding claims, characterized in that a bored several resonance points of the line occurring due to the load are placed so that they simultaneously serve to de-attenuate certain frequencies and to block other unwanted frequencies.