RU2006122679A - METHOD OF INCREASING PRECISION ACCURACY OF THE TRANSMITTER ANTENNA OF THE TRANSMITTER - Google Patents

Claims (1)

A method of increasing the accuracy of pointing the transmitting antenna of the repeater, in which the receiving antenna of the repeater is pointing at the source of the signal, and when pointing, the receiving antenna is rotated in azimuth and elevation to capture the signal, and then precise pointing of the receiving antenna in azimuth and elevation using software guidance and auto tracking operations corrected by the received signal, and also programmatically guide the transmitting antenna of the repeater to the subscriber station for the azimuth and elevation angle, characterized in that the initial pointing of the repeater is entered, in this mode, before pointing the receiving antenna to the signal source, it is set in azimuth to an angle that differs ninety degrees from the direction of the signal source, and the base angle of the repeater is measured relative to the plane horizon using an angle sensor mounted on the azimuthal axis of the receiving antenna, then make a turn of the receiving antenna first in elevation to the calculated angle of the signal source, taking into account the measured angle of the base of the repeater, and then turn in azimuth until the signal is captured, after which, in the mode of accurately pointing the receiving antenna to the signal source after the auto-tracking operation, the azimuth and elevation angle of the signal source are specified, and the angle of the repeater is also measured using the angle sensor relative to the horizon plane, the angles found in the exact guidance of the receiving antenna are introduced into the computing device and used as initial values in the subsequent correction operation program azimuth and elevation of the subscriber station in the mode of transmitting information of the repeater, while the azimuth of the signal source and the base angle of the repeater relative to the horizon are used to find the program azimuth of the subscriber station in the initial guidance of the repeater, then the receiving antenna is installed in azimuth first at an angle ninety degrees different from the subscriber station azimuth, and then the receiving antenna is installed at an angle corresponding to the subscriber azimuth stations, in both positions measure the angle of the base of the repeater with respect to the horizon plane using the angle sensor, these measurements are used to determine the corrections of the azimuth and elevation angle of the subscriber station, after which the receiving antenna is azimuthally directed to the signal source and programmed in precise guidance, and the transmitting antenna is guided by the calculated azimuth and elevation angle taking into account the corrections found to the subscriber station, then in the transmission mode of the relay information cyclically After each operation of receiving antenna auto-tracking, the current values of three parameters are entered into the computing device: azimuth and elevation angle of the receiving antenna, as well as the angle of rotation of the receiving antenna, determined using the angle sensor, then the differences between the current and initial values of these parameters are found, the base drift is determined repeater based on the measurement results of these three parameters and find corrections to the program values of the azimuth and elevation of the subscriber station, the found corrections about x angles are compared with permissible deviations, after which, if one or both amendments exceeds the permissible deviation, the program value of that angle of the subscriber station is corrected, the deviation of which from the program value exceeds the permissible value, at the same time, the initial values of the base turning angles are corrected for this angle of the subscriber station repeater, as well as the initial value of the correction to the program value of this angle, then carry out software guidance of the transmitting antennas to the subscriber station at corrected angles.