TH30076B - Antenna control system - Google Patents

Abstract

antenna control system that can adjust the angle of inclination of the antenna signal from a distance The drive path (5, 30) continuously adjusts the phase shift (1, 2, 3, 36, 39, 40 ) of the transmission network. to the transmitting device to adjust the tilt. of the signal continuously The controller(80) will make the tilt angle of A number of antenna beams at the installation site can be modified remotely

Claims (9)

1. The way of driving To adjust the relative phase shifts Produced by the phase slider. A number of them are connected to a set of signaling devices. Where the means of driving include Way one To move the first part of the slider phase one relative to the second part of the slider Phase one said To adjust the phase difference Between the signal output from the Phase I and II To move the first part of the slider the second phase relative to the second part of the slider The second phase. To adjust the phase difference Between the signal output from the Second phase shift Where the second phase slider Is entered from the slider output phase one and the degree of movement of the second path It depends on the degree of movement of the first way. 2. The way of driving. According to claim 1, where the movement of the second route will Causing the simultaneous movement of part one Of the third phase slider In relation to the garden Two of the third phase slider Where the third slider It is fed from the slider output phase one. 3. Trajectory of driving As stated in claim 2, where the outputs of the second and third phase sliders are connected to the transmitter. In order to create a slanting beam When the first and second paths adjust the phase slider, 4. As stated in claim 2, where the displacement of the part one of the first phase slider is the first phase relative to the second part of the first phase shunt. Will cause Movement between the first part Of the slider the second and third phases relative to the second part of the Shift the second and third phases about twice the first phase. 5. Trajectory of driving As stated in claim 2, where the first route would include the gear set that One, which drives the rail connected to the part of the first phase shunt. Where the rotation of the first phase shifts the part one of the first phase shunt in relation to the second part of the first phase shunt. 6. Trajectory of driving As stated in claim 5, where the second part of the first phase slider will It is attached to the first phase shifter and output of the shifter. It is connected to the inputs of the second and third phase sliders by the kick rod, thus the movement of the second part of the first phase slider. Is going to move part of The second and third phase sliders in relation to the second part of the second and third phase sliders 7. Trajectory of driving As stated in claim 5, where there is a second set of gear driven by the first Which drives the rail that is connected to the second part of the first phase slider, so that the rotation of the second gear will cause the movement of the first part of the second phase slider. And the third relative to the second part of the slider The second and third phases. 8. Way of driving As stated in Clause 7, where the ratio between the first gear And the second, about 3: 1 9. The way of driving As stated in claim 1, where the way of driving includes the axle And that way one would include the first threaded part on the shaft. And the helix That works together, part one connects to Part one of the first phase slider The second trajectory includes a second threaded part on the said shaft and a thread that works together. The second part connected to the first part of the second phase slider. The whole set handles in such a way that the rotation of the shaft will cause the part of the first phase slider. The displacement is relative to the second part of the first phase slider at a multiple of the displacement of the first part. Of the slider the second phase relative to the second part of the slider the second phase 1 0. As stated in Clause 9, where the multiplier rate is 2 1 1. The way of driving As specified in claim 9, where the second helix is connected With the second part of the first phase slider And move the first part of the second phase slider through the push rod 1 2. Drive path As stated in claim 11, the push rod is a common-axis cable. Connect the output from the first phase slider. With the input to the slider the second phase 1 3. Trajectory of driving As stated in Clause 9, which includes the third phase slider, which is entered From the second output of the first phase slider Through the push rod which moves the part of the third phase slider 2 4. Antenna system suitable for use in cellular communication systems in which the antennas consist of: two or more transmitters and a mechanical-electrical path. That responds to the signal Of external supplied drive for the movement of one phase shifter Or more relative To modify the signal phase supplied to the signaling equipment, respectively, to modify the skew signal of the antenna cables. It is a differential phase shifter. 1 6. The antenna system, as described in Clause 14, is supplemented with a supply controller. Signs of driving to the mechanical-electrical path And where the mechanical-electrical path Maintained the position of The elements of each phase-shifting device relative to the fact that there is no signal to be driven from the controller 1 7. The antenna system consists of one number of antennas as described in Clause 14 and a controller for supplying the signal of the drive to the route. Mechanical - Electric to adjust the beam tilt Antenna signal signaling 1 8. Antenna systems as described in Clause 17, including the measuring trajectory for measuring The movement of the mechanical-electrical trajectory is consistent with the change in the tilting of each antenna. 1 9. The antenna system as set out in Clause 18, where the controller shall maintain Value corresponding to the tilting of each antenna. Which values will be adjusted in accordance with the information Obtained from the aforementioned measuring path. 2 0. Antenna system as described in Clause 19, where the controller includes a table showing the tilting of each antenna for the given value stored in it. 2 1. The antenna system as described in Clause 19, where the controller will be modified to Communication of the above values to external equipment 2. 2. Antenna system as described in Clause 17, where the controller is modified to accept Command from the outside source and modify each such mechanical-electrical path in accordance with that order. 2 3. The antenna system as stated in Clause 22, where the controller will include a modem that allows Communication of information and commands between the antenna system and the central control path can be performed. 2. 4. Antenna systems as described in Clause 17, where the controller can be separated from the antenna system. Antenna systems and portability 2 5. Antenna systems as defined in Clause 17, where mechanical-electrical paths include The way of driving which includes The first way to move the first part of the slider phase one relative to the second part of the slider. Phase one such To adjust the phase difference between the output signal from the Shift the first phase and the second path to move one of the slider, the second phase relative to the second part of the slider. The second phase. To adjust the phase difference between the output signal from the Second phase shift Where the second phase slider is fed from the first phase slider output and the degree of movement of the second path is dependent on the degree of movement of the first trajectory 2 6. antenna system as specified In claim 17, where the controller can adjust the tilt Each signal is independent from another antenna. 2 7. Structure for communication consists of a swivel structure and an antenna system. As stated in claim 17, where the controller is positioned at the base of the rotating mounting structure 2, 8. The communication system consists of a number of antenna systems as specified in claim 17, mounted at various points by Each controller responds to a command sent by A central control path to adjust the angle of the beam of each antenna of the antenna system. 2. 9. An antenna system consists of one or more antennas, each with a transmitting device. Two or more signs And the mechanical-electrical path That responds to the signal of the correct drive Outwardly for the movement of one or more phase shifting device elements in relation to Together to adjust the phase of the signal supplied to the transmitter device accordingly. To adjust the beam tilt Signal of the antenna beam And a portable controller for supplying signal of Drive it to the mechanical-electrical trajectory 3. 0. antenna systems as described in Clause 29, where antennas are suitable for use in Cellular Communication Systems 3 1. Antenna systems as described in Clause 29, where one or more phase shifts are different phase shifts 3 2. Antenna systems as specified in Clause 29. Holds Article 29 where the mechanical means - Electricity still maintains The position of the elements of each phase shift device relative to each other in the absence of signal. 3. The antenna system, as defined in Clause 29, consists of a number of antennas where such a controller supplies the driving signal to the mechanical-electrical trajectory for modulation. Tilt the beams of each antenna. 3. 4. The antenna system as described in Clause 29, including the measuring path for measuring the measurements. The movement of the mechanical trajectory - electricity corresponding to the change in the tilting of each antenna. 3. 5. The antenna system as specified in Clause 34, where the controller will collect the value at Corresponding to the tilt of each antenna signal Which values will be modified in accordance with the information 3 6. Antenna systems specified in Clause 35, where the controller includes the table. Show the tilting of each antenna for any value stored in the said controller. 3 7. Antenna systems as described in Clause 35, where the controller is modified to perform Communication of such values to external equipment 3. 8. Antenna systems, as described in Clause 29, which the controller has been adapted to receive. Command from the outside source and adjust each such mechanical-electrical path in accordance with such command. 3 9. Antenna system as described in Clause 38, where the controller will include the modem. That helps Communication of information commands between the antenna system and the central control path can be performed 4 0. Antenna systems as described in Clause 29, where the controller is the control unit. It is portable, which can be plugged into a connector to supply the said drive signal. To The first way to move the first part of the slider phase one relative to the second part of the slider. Phase one such To adjust the phase difference between the output signal from the Shift the first phase and the second path to move one of the slider, the second phase relative to the second part of the slider. The second phase. To adjust the phase difference between the output signal from the Second phase shift Where the second phase slider is fed from the first phase slider output and the degree of movement of the second trajectory is dependent on the degree of movement of the first path 4 2. antenna system as specified Listed in claim 33, where the controller can adjust the tilt The signal of each line is independent of the other antennas. 4 3. The communication structure consists of a rotating bracket and antenna system as required. Specified in claim 29, where the controller is positioned at the base of the rotating mounting structure 4. 4. The communication system consists of a number of antenna systems, as described in claim 29, mounted at different points. Each controller responds to a command sent from the central control path to adjust the antenna beam angle of each antenna system. 4 5. Methods of modifying the antenna beam tilt adjustment. Which method It consists of supplying the driving signal to the air duct from a portable controller; And the motion component of one or more phase shifting devices in relation to Drive signal to adjust the phase signal supplied to the corresponding transmitter 4 6. The second method is based on claim 45, consisting of the output of the drive signal from The aforementioned regulator to modify the antenna's signal tilting a number of 4 7. The second method is attached to Clause 46 that consists of the remote control of the There are a number of such controls from the Control Center 4. 8. The second method corresponds to claim 45, where relative movement of the device is shifted. Phase causes a change in the length, the distance of the signal supplied to the signaling device at 4. 9. The second method corresponds to claim 14 where the relative displacement of the device moves. Phase causes a change in the length, the distance of the signal supplied to the signaling device at 5 0. Antenna system in accordance with claim 29, where the relative movement of The phase-shifting device causes a change in the distance length of the signal supplied to the transmitting device. Relevant signs are 5. 1. An antenna system consisting of one or more antennas. Each has a transmission device. Two or more signs And the way of the camera - electricity that responds to signals of correct driving Outwardly for the movement of one or more phase-shifting components in relation to To modify the signal supplied to the signaling device, respectively, to change the Tilt the beam of the antenna signal beam And a controller for the signal of driving To the mechanical-electrical path 5 2.An antenna system complies with claim 51 where antennas are suitable for use in Cellular Communication System 5 3. Antenna system corresponding to claim 51 where one phase shift device or More than a differential phase shifter. 5. 4. Antenna system corresponding to claim 51, where mechanical-electrical paths are maintained. The position of each element of the phase shift device relative to the absence of signal of Drive from the controller 5. 5. The antenna system complying with claim 51 includes a measuring path to measure the The movement of the mechanical-electrical trajectory is corresponding to the change in the tilting of each antenna. 5 6. The antenna system in accordance with claim 51, where the controller will collect the value. Corresponding to the tilting of the signal of each air Which will be modified in accordance with the information 5. The antenna system in accordance with claim 56, where the controller includes the table. Indicates the tilting of each antenna for the given value stored in the said controller. 5 8. Antenna system in accordance with claim 56 where the controller will be modified to perform Communication of the above values to external equipment 5. 9. Antenna system corresponding to claim 51, where the controller will be modified. To receive orders from outside sources and modify each mechanical-electrical path. In accordance with Such an order 6 0. Antenna system in accordance with the clause. 51 where the controls will include A modem that allows communication of data commands Between antenna systems And the way of central control 6 1. Antenna system complying with claim 51, where such controller can carry 6 2. Antenna system complying with claim 61, where the controller As a unit A portable controller that can be plugged into a connector to supply the aforementioned drive signal. 63 Antenna systems in accordance with claim 51, where mechanical-electrical paths, including those, are Driving edges which include The first way to move the first part of the slider phase one relative to the second part of the slider. Phase one such To adjust the phase difference between the output signal from the Shift the first phase and the second path to move one of the slider, the second phase relative to the second part of the slider. The second phase. To adjust the phase difference between the output signal from the Second phase shift Where the second phase slider is fed from the first phase slider output and the degree of movement of the second path depends on the degree of motion of the first path 6. 4. The antenna system complies with claim 51 where the controller can adjust the beam tilt. Signal of each line independently with other 6 antennas. 5. The structure of the communication consists of a telescopic structure and an antenna system according to Specified in claim 51, where the controls are positioned at the base of the rotating mounting structure 6. 6. The communication system consists of a number of antenna systems identified in claim 51, mounted at different points, each of which responds to commands sent from the central control path. To adjust the angle of the beam of each antenna of the antenna system 6 7. Method of tilting adjustment of two or more antennas which The method consists of supplying a driving signal to an antenna from a normal control unit; And the motion elements of one or more phase shifting devices in relation to Drive signal to adjust the phase signal supplied to the corresponding transmitter 6 8.Methods consistent with claim 67 that include the remote control of the body. Control a certain number from Control Center 6. 9.Methods consistent with claim 67 that relate displacement of sliding devices Phase causes a change in the length, the distance of the signal supplied to the signaling device at Related