DE466683C - Procedure for determining the attenuation in overhead lines and cables - Google Patents

Description

GERMAN EMPIRE

ISSUED AIH OCTOBER 9, 1928

REICH PATENT OFFICE

PATENT LETTERING

Yes 466683 CLASS 21 a ² GROUP

Siemens & Halske Akt-Ges. in Berlin-Siemensstadt *)

Patented in the German Empire on March 1, 1925

The following procedure for measuring the attenuation of overhead lines and cables in Dependence on the frequency is based on the fact that for a line · of given For a series of very specific frequencies, the output voltage is phase shifted against the input voltage of o ° or i8o °.

Methods for measuring attenuation are known using the zero method become. However, they have the disadvantage, among other things, that the result is only based on the Detours of a complicated calculation can be determined, since only complex values can be read. In most cases, the attenuation was determined from no-load and short-circuit resistance measurements.

This disadvantage is avoided according to the invention in that the subdivision of the Initial voltage takes place by means of a variable attenuator.

Although when using an attenuator as a comparison line on those Frequencies at which Anas. initial and final voltage at the quadrupole of the closed measuring system are the same or opposite, there is a reduction the practical applicability of the procedure does not suggest, since these cases in pupinized Lines are so frequent and so close that measurements are taken in sufficient numbers can be and the resulting series of measurements a sufficiently accurate tracking of the damping path with the Frequency allowed. For example, in a Pu.pirik.abel with η there are also coil fields η frequencies available at which an immediate compensation of the final stresses can be made without correcting the phase.

The determination of the frequencies at which the input and output voltage same or opposite phase is done in a very simple way by changing the frequency of the generator and at the same time eavesdropping at what frequency the Sound in the remote receiver disappears. A discharge vessel is preferred as the generator is used in an oscillating circuit, you can search for a suitable frequency Rotating the tuning capacitor of an oscillation circuit of the tube can be made.

An exemplary embodiment of the compensation circuit is shown schematically in the figure shown. It means 1 a power source of variable frequency (tube generator), 2 and 3 the weak circle to be examined of a cable, which with. an ohmic one Resistance 4 is completed by the size of its wave resistance. Further lies a symmetrically variable attenuator 5,

*) The patent seeker stated as the inventor:

Dr. Hans Mayer in Berlin-Charlottenburg

which is loaded with its characteristic impedance 6, with the interposition of a switch Ii at the AC power source. The resistors 4 and 6 are in series in one Compensation circuits, which apart from the primary windings of a symmetrical transformer 7 still contains the resistors 9 and 10, which are large compared to the wave resistance of the line and have the purpose of making the asymmetry of the line to be measured ineffective. The two cable loop branches to be measured 2 and 3 can namely have different capacitance values to earth, so that differential currents over the Transformer windings 7 close and thus can energize the telephone. These However, currents would also be present if there were otherwise complete balancing. In order to reduce these currents to a non-disturbing minimum, the resistors 9, which are large against the wave resistance 4 and 10 used.

. It can be seen without further ado that the remote receiver 8, which is secondary to the transmitter 7 is silent when the voltage across resistors 4 and 6 is the same size and the same Phase has. The attenuation measurement is done in such a way that by changing the frequency of the generator and changing the setting of the attenuator to the telephone Silence is brought. The attenuation factor of the attenuator is then immediately available the attenuation of the line to be measured at the frequency in question. The switch 11 one puts in order also at the phase difference

i8o ° to be able to take a measurement. Simultaneously with each attenuation measurement, the respective frequency is determined by means of one of the known ones To determine frequency measuring equipment.

For the application of the method it is necessary to have a generator with a well constant To use frequency, the value of which can, on the other hand, be changed quickly.

Claims (4)

Patent claims: 1. Procedure for determining the attenuation in overhead lines and cables by compensating the end voltage with a part of the input voltage, thereby characterized that the subdivision · the initial chipmuig by means of a variable attenuator takes place. 2. Arrangement according to claim 1, characterized in that in the two Branches of the compensation circuit each half of a symmetrical transformer is, whose secondary side with a Zero instrument (e.g. remote receiver) is connected. 3. Arrangement according to claim 1 and 2, characterized in that in the two branches of the compensation circuit there are two resistors which are large compared to the wave resistance of the _6s line to be measured. · 4. Arrangement according to claim 1 to 3, characterized in that as an alternating current source a tube generator is used. 1 sheet of drawings