SU100376A1 - Device for connecting high-frequency communication equipment to a three-phase transmission line - Google Patents

Description

With the modern development of radio engineering, it is possible to obtain very large gains without significant distortions and noises from them.

Therefore, to ensure reliable and uninterrupted high-frequency communication over power transmission lines, it is important to have a sufficiently large operating signal over interference, while the absolute level of interference is of secondary importance.

The process of propagation of high frequency energy in a three-wire line with the location of all three phases in one horizontal plane can be represented as an overlap of three forward and three reflected waves, propagating along three lines independent of each other (H, C and A). channels). Each of them has its own constant distribution and its ratio between the currents in the wires and the voltages on them. The P-channel (between the three wires and the ground) has the greatest attenuation, since all the reverse current flows in the ground. C-channel attenuation, (two extreme wires), forming a dipole with a shoulder equal to

the distance between the outermost wires is much smaller. A - the channel (between the middle and two extreme wires) has a very low attenuation; as well as losses, it is caused almost exclusively by the resistance of the wires.

The best conditions of communication are provided with the supply of all transmitter energy to the A channel, with its lowest attenuation.

The conditions for the occurrence of reflected waves depend on the connection scheme and matching of the receiver impedance in the coiled line. Partial discharge, coran, and other phenomena cause high-frequency impulses of noise to appear at certain points in the line, which propagate by the A-, C-n N channels, in the form of rapidly decaying waves. Their overlap creates some level of noise at the end of the line. To ensure reception purity, it is necessary to have a large excess of signal over interference. This overflow in each channel is the more, the less the attenuation of the channel.

Nkanal is most clogged with interference, because of the large attenuation signal, there is practically no signal already after 20-30 km, and the interference is from the part of the line adjacent to the end. The middle position is occupied by C- “anal. and the least “clogged interference A-channel. In order to improve the purity of the iriem, it is more important to use the high-frequency signal of the A-channel and rebuild it from the Interference received from the H-channel.

In devices for high-frequency wireline communications of a three-phase transmission line, it is known to use for communication all three phases of a transmission line by turning on receiving-transmitting equipment between one phase of a line and an intermediate point of a chain of reactances, the ends of which are connected to two other phases.

Postalenna task, consisting in reducing attenuation. the high-frequency communication channel with the location of all three phases in the same horizontal plane is solved by creating conditions that allow reception without reflection of the sial on the A-channel, the least interference-free, "detuning from signals on the C and H channels, more clogged interference.

According to the invention, to create these conditions, it is proposed to turn on the filter transformer winding between the capacitor, 1 connection to the middle wire of the transmission line, and the middle point of the capacitor chain, the ends of which are connected to the outer wires, and ground this winding at the point located between its middle i: the end, the adventure to the chain of “o-capacitors.

A schematic diagram of the proposed device for connecting high-frequency communication equipment and a three-phase transmission line is shown in the drawing. The three phases of the telephone are located in the same horizontal plane.

In the diagram the numeral / denotes a receiver-non-distributor connected by a communication cable 2 to the winding 3 of the transformer 4 of the filter. Inductively connected with the winding 3, the winding 5 of the same transformer is connected through a coupling capacitor 6 between the middle conductor (phase) 7 of the transmission line and the midpoint of a chain of capacitors 8-8, the ends of which are connected to the two extreme wires (phases) of the transmission line.

The grounding of the winding 5 takes place at a point between the middle of this winding and its end, which is connected to the chain of capacitors 8-S (approximately 1/3 of this end). On the transmission line after the line disconnectors 9, the leveling device W is installed. Capacitors // conditionally denote the capacity of the substation.

Subject invention

A device for connecting high-frequency communications equipment to a three-phase transmission line by means of a reactance circuit, KCTOpoii worm is connected to two conductors of the transmission line, and the intermediate point is connected to a third wire through the communication equipment, in order to reduce attenuation in the high-frequency communication channel, when all three phases are located in the same horizontal plane, the filter-transformer winding is connected between a capacitor connected to the middle wire of the elec- ktperedopredichi, and the midpoint of a chain of capacitors, the ends of which are connected to the extreme wires, and grounded at the point located between the middle of the winding and its end, the adventure to the chain of capacitors.