SU1172051A1 - Device for mutual phasing - Google Patents

Abstract

A DEVICE FOR MUTUAL PHASING, containing at the central point a series-connected signal generator and phase analyzer, the outputs of which are connected respectively to the inputs of the forward and auxiliary communication channels, with the forward and reverse communication channels consisting of the first and second communication lines and amplifier connected between them, at the intermediate point - the first phase analyzer and the correction signal generator, and the second phase analyzer and phase shifter, whose signal input is The second input of the corrector signal generator is connected to the output of the additional communication channel, which is so as to improve the phasing accuracy in the presence of amplifiers in the communication channels an additional phase analyzer was introduced, while at the central point a second input, the phase analyzer is connected to the output of the first communication line of the reverse communication channel, at the intermediate point the first first inputs of the second and additional a Phase amplifiers are connected to the output of the first communication line of the forward link, the second input of the additional phase analyzer is connected to the output of the reverse link amplifier, the combined second inputs of the first and second i phase analyzers are connected to the output of the second communication line connection, the third input of the first phase analyzer is connected to the output of the forward link amplifier; the outputs of the second and additional phase analyzers are connected to the third and fourth inputs of the driver, respectively; its signal, the output of which is connected to the control input of the phase rotation of the body, and the output of the phase converter is connected to the input of the forward link channel amplifier; at the terminal point I, the output of the second communication line is connected to the second communication line reverse link, and the generator output at the central point and the output of the second communication line at the end point are correspondingly the first and second outputs of the device.

Description

The invention relates to radio engineering and communications and can be used in systems in which mutual phasing of signals at spatially separated points is required.

The purpose of the invention is to improve the phasing accuracy in the presence of amplifiers in communication channels.

The drawing shows the structural electrical circuit of the device for mutual phasing.

A device for mutual phasing contains, at the central point, a signal generator 1, a phase analyzer 2, at an intermediate point a phase rotator 3, a forward link channel amplifier 4, a correction signal shaper 5, a first phase analyzer 6, a second phase analyzer 7, an additional analyzer 8 phase, the reverse amplifier 9, the communication channel, at the terminal point - jumper 10, as well as the first and second communication lines 11 and 12 of the forward communication channel, the first and second communication lines 13 and 14 of the reverse communication channel and additional channel 15,

The device for mutual phasing works as follows.

The signal from generator 1, located at the center, is fed through a forward link (first link 11, amplifier 4 and second link 12) to an end point, from which this signal is transmitted via a reverse link (second link 14, the amplifier 9 and the first link 13) are relayed to a central point.

It is assumed that the electrical lengths of the first and second communication lines 1011 and 12 of the forward link and the first and second links 14 and 13 of the reverse link, respectively, are b, b, b, b, and. a condition is provided in in- and 2. 3 electrical lengths of amplifiers 4 and 9 are respectively By and in, analyzer 2 phases, additional analyzer 8 phases, second analyzer 7 phases and first analysis - "torus 6 phases register respectively phase differences

 B, + B + B + B + Bj + Bj-H-B, (2) H B + BE + VU 2B2 + Bj; (3)% 2B2. (4)

Taking into account expressions (1) - (4), the electrical length of the forward link channel

limited as

V (, - 2vVV / 2 (5

The output signals of the phase analyzer 2, the additional phase analyzer 8, the second phase analyzer 7 and the first phase analyzer 6, corresponding to the registered values of the phase difference (1) and (4), go to the second, fourth, third and first inputs of the imaging unit 5 ,

The shaper 5 generates a correction signal corresponding to the electric length of the forward link (5). The output signal of the shaper 5 acts on the control input of the phase shifter 3, providing a value of the electrical length of the forward link, a multiple of Ji.

In this case, the electrical length of the reverse link remains unchanged,

Thus, mutual phasing of the input and output signals of the direct communication channel containing the amplifier with an accuracy of about 1, i.e., 10-15 times higher accuracy than in the case of using the prototype under similar conditions, is provided.

Claims (1)

DEVICE FOR MUTUAL PHASING, containing at the central point a signal generator and a phase analyzer connected in series, the outputs of which are connected respectively to the inputs of the forward and secondary communication channels, the forward and reverse communication channels consisting of the first and second communication lines and an amplifier connected between them, at the intermediate point - the first phase analyzer and the driver of the correction signal, as well as the second phase analyzer and phase shifter, the signal input of which is it is connected to the output of the first communication line of the direct communication channel, the second input of the correction signal generator is connected to the output of the additional communication channel, characterized in that, in order to increase the phasing accuracy when amplifiers are present in the communication channels, an additional phase analyzer is introduced at the intermediate point, while at the central point, the second input of the phase analyzer is connected to the output of the first communication line of the return channel · at the intermediate point, the combined first inputs of the second and additional phase analyzers connected to the output of the first communication channel of the forward communication channel, the second input of the additional phase analyzer is connected to the output of the amplifier of the reverse communication channel, the combined second inputs of the first and second phase analyzers are connected to the output of the second communication line of the reverse communication channel, the third input of the first phase analyzer is connected to the output of the amplifier direct communication channel, the outputs of the second and additional phase analyzers are connected respectively to the third and fourth inputs of the driver of the correction signal, the output of which connected to the control input of the phase shifter, and the output of the phase shifter is connected to the input of the direct communication channel amplifier, at terminal j, the output of the second communication line of the direct communication channel is connected to the input of the second communication line of the reverse communication channel, and the output of the generator at the central point and the output of the second communication line to end points are respectively the first and second outputs of the device. SU, "1172051>