DE895012C - Pupinized, amplifier operated cable system - Google Patents

Description

Pupinized cable system operated with amplifiers If you have pupin cables between booster offices, it is well known that it is arranged in such a way that the Cable with half a coil field each begins and ends. Be that way as is known, wave resistance fluctuations in the transmission circuits are avoided.

If the cable length between the amplifier offices is not a whole multiple of a coil field, so that the above condition is not readily can be fulfilled, it is known to use so-called coil field extension four-poles, which at the end of the cable system at the entrance to the amplifier office as a supplement to the be switched on in the respective cable outlet field. These consist of the simplest Cases from a capacitor, which helps the capacitance of the missing cable length. In the case of low-frequency (LF) lines, this is generally sufficient. Sometimes, especially in the case of Pupin lines operated with carrier frequency (TF), however, it is necessary to not only the cable capacitance due to capacitors, but also the inductance and / or the ohmic resistance of the missing cable length due to inductances and / or To simulate ohmic resistances. For example, it has already been suggested at TF cables that are operated at higher frequencies reduce the cable inductance in to consider the supplementary quadruple in a certain way.

It should be noted, however, that in practice those skilled in the art will Coil field addition four-pole only reluctantly and whenever possible avoids. The supplementary quadrupoles represent a foreign body in the line system and are already there therefore undesirable. If it is a question of TF lines, you have to the accuracy of the switching elements of the supplementary quadrupole has very high requirements are provided if wave resistance fluctuations are to be avoided. Because in practice, the supplementary circuits must already be used during the production of the associated Cables are manufactured, and their calculation must be based on the achieved manufacturing mean values the capacitance and inductance of the cables are used as a basis. So that can when installing the circuits in the cable system, the practical difficulty arises, that the supplementary circuits based on mean values are not exactly accurate adapt to the respective natural piece of cable, but rather small deviations from this have opposite. In order to obtain an exact match, these four-pole connections had to be At the place of installation it is still necessary to adjust, which means the expense of additional switching elements would make necessary in the supplement. This makes the quadrupole very expensive. For these reasons it is desirable, if possible, without such supplementary quadrupoles get along.

Particular difficulties arise when it comes to so-called combined cables in which pupinized NF and TF lines are combined. With the TF lines, not only are the amplifier distances shorter than with the NF lines, but also the coil distances, which are particularly important here. In practice, a system has become established in which the coil spacing of the TF lines is 25 m. This corresponds to the usual manufacturing length of a cable. The @coil distance of the LF lines is four times that, namely 1700 m. In this system, the coil points of the LF lines coincide with the coil points of the TF lines. This made it necessary to add coil fields either in the LF lines or in the TF lines or even in both lines. However, as explained above, this is undesirable. It must therefore be considered an advantage if it is possible to design the system from the outset in such a way that four-pole coil field supplementation poles are avoided as completely as possible, but at least in the TF lines. The solution to this problem is the subject of the invention.

According to the invention it is therefore proposed that in a combined NF- and TF cables, in which an even number of TF coil fields is per LF coil field omitted, the LF coil point by half of a TF coil field length compared to the neighboring ones TF-i coil points to move. In Fig. 1 is a pupinization scheme of this type for example shown. The LF line is designated with a, the TF line with b. The coil spacing S of the LF line is four times the coil spacing S of the TF line. As a result of the displacement of the coil point c against the coil point d by half a TF coil field, @ that in the amplifier office V both the NF- as well as the TF lines end with half a coil field.

If, in contrast to the above example, the ratio S: s is not an even number but an odd number, e.g. B. 3 or 5, the intended purpose can also be achieved. In this case, however, each NF, coil point coincides with a TF coil point, as can be seen from Fig. 2. Both types of conductors end with half a coil field at the amplifier point h.

Claims (1)

PATENT CLAIM: Pupinized, amplifier-operated cable system; 'in which pupinized low frequency lines with pupinized carrier frequency lines are combined and where the coil spacing of the NF lines is a straight or is an odd multiple of the coil spacing of the TF lines, characterized in that that for the purpose, in the common amplifier offices, both the NF and the To let TF lines end with half a coil field each, a) if the coil spacing of the LF lines is an even multiple of the coil spacing of the TF lines, the NF coil point by half a TF coil field length against the neighboring TF coil points is shifted, b) if the coil spacing of the LF lines is an odd multiple dull - coil spacing of the TF lines is, the NF coil points with TF coil points to coincide.