DE1299335B - DC remote supply for intermediate amplifiers in four-wire carrier frequency systems - Google Patents

Description

1 2

The invention relates to a direct current to the other is the uniform direct current remote feed for forwarding along a message transmission load over the entire remote feed circuit arranged unmanned interim connections. At the same time, the additional use points, in which the supply of the in the Zwi- a rectifier bridge, over which the gift amplifier 5 parallel consumers and through which the spaniel switched amplifier both transmission direction drop in all intermediate amplifier points at the lines over the inner conductor of the intermediate consumer resistors receives the same polarity, the stronger places connecting coaxial pairs takes place. significant advantage achieved that in all interim

In the case of the well-known transistorized long-range power amplifiers, intermediate amplifiers with perfect systems of carrier frequency technology are generally used in the same circuit and arrangement all consumer resistances of the two can be det. As in this circuit each Transmission directions of a feed section in only one of the inputs or outputs of the amplifier Loop connected in series with each other, there is no deterioration and are removed from the crosstalk by the feeding amplifier.

supplied with direct current. If the voltage remains 15 Further details of the invention are not taken into account at waste on the line, the figure is shown in FIG. 2 and 3 explained in more detail, the required supply voltage here 2 η · Uv, F i g. 2 represents a food section with evenly

if η is the number of remotely powered amplifiers - load distribution in principle; (one amplifier for each of the two transfer stations). Fig. 3 shows the circuit principle of a remote

transmission directions) and Uv is the voltage drop per ao fed intermediate amplifier point with power supply consumer resistance (single amplifier). A flexible and parallel-connected consumer such a direct current remote feed for a four-wire resistor with crossed current paths. Transmission system is shown in FIG. 1 shown in principle. 2 is shown in a very simplified way, like the

represents. The achievable remote feed section lengths power supply paths al and al in the intermediate slopes from which are crossed by the dielectric strength of the 35 amplifier points, so that the power cable limited supply voltage and amplifiers connected in parallel from the supply, which decrease with increasing bandwidth . Uv η assumes an even load distribution. In order to achieve longer feed section lengths across the entire remote feed circuit. At the chen, when she was with the in F i g. 1, the same number of intermediate amplifier points can be achieved, it is known that the two consumers 30 in the remote feed system according to FIG. The required supply voltage point is only half the supply voltage Usp / 2 required here with twice the supply current. In contrast, the feed current assumes the same conditions as in the example after double the value 2 /. Assuming that the F i g. 1 only η Uv. While large supply voltage 35 connection of the supply voltage to the internal conductors can therefore done theoretically twice as many amplifiers al and al opposite polarity, then be remotely powered. In the manner described, the results shown in FIG. 2, however, the remote feed system indicated by arrows has the after-current directions that share one of consumer resistance, that either the direct current load does not cause consumer resistance changing polarity of the more evenly on the two remote feed paths 40 voltage drop.

(Inner conductor of the coaxial pairs) is distributed when the In F i g. 3 is an intermediate between the incoming and outgoing power supply of the amplifiers uniformly wired coaxial pairs I and II, or that the power supply of the amplifier must be wired to the amplifiers A1 and A1 for different (two types) each, if one transmission direction and the Power supply shows an even load distribution on both remote control switches. The result is the following feed routes to be achieved. Current curve: The feed current flows from the inner conductor

A solution in which one these disadvantages comparable al of the coaxial pair I via the throttle DrI of avoiding and a uniform load distribution to the power supply switch of the amplifier A 1, on both remote feeding paths in uniform wired one branch of the rectifier bridge Gl to the par-power supply path in the amplifier obtained , 50 switched off consumer resistors Rv according to the invention consists in the fact that the remote feed paths of the two amplifiers A1 and A 2, and crossed over the other in each intermediate amplifier point, the branch of the rectifier bridge Gl and the way that the remote feed direct current from the inner conductor choke Dr 4 at the input of the amplifier A1 in that of the coaxial pair of the one transmission direction inner conductor α 2 'of the coaxial pair ΙΓ. The direct current path running back via a power supply switch in front of the input 55 leads from the inner conductor al 'of the associated amplifier via the parallel-connected coaxial pair Γ and the throttle Dr 3 of the power supply resistors and via the power supply switch at the output of the amplifier Al supply switch before the input of the other Via the throttle Dr 2 of the power supply switch amplifier to the inner conductor of the coaxial pair which is led back to the other transmission direction at the output of the amplifier A 2 and that 60 inner conductors al of the coaxial pair II be the exit side of the det. The rectifier bridge Gl ensures that both amplifiers from one inner conductor to the other. that regardless of whether the supply voltage runs the ren inner conductor, and that furthermore the inner conductors of the coaxial pairs with operational consumers in each intermediate amplifier point is fed via a 65 or with opposite polarity, rectifier bridge are fed. in spite of the

By inserting the direct current dia- more strongly changing polarity of the supply voltage on the gonal connections from one transmission direction input of the rectifier bridge of the voltage

case at the consumer resistors always has the same polarity.

The new circuit does not affect fault location in the event of a fault. In the event of line interruptions , both DC fault location and high-frequency fault location can be used.

Claims (1)

Claim: IO DC remote feed for unmanned intermediate repeater stations along a communication link, in which the power supply of the amplifiers connected in parallel in the intermediate repeater stations in both transmission directions takes place via the inner conductors of the coaxial pairs connecting the intermediate amplifier stations, characterized in that the remote feed paths are crossed in each repeater station, in such a way that the remote feed direct current, from the inner conductor (el) of the coaxial pair (I) of one transmission direction via a power supply switch in front of the input of the associated amplifier (A 1) via the parallel-connected consumer resistors (Rv) and via the power supply switch in front of the input of the other amplifier (A 2) to the inner conductor ( α 2 ') of the coaxial pair (IT) of the other transmission direction and that the direct current path in the opposite direction via power supply switches on the output side of the two amplifiers (A 1, Al) runs from one inner conductor (al) to the other inner conductor (al) , and that the consumers in each intermediate amplifier point are also fed via a rectifier bridge. 1 sheet of drawings