RU2002100247A - METHOD FOR MANAGING ANTENNA DIRECTIONS DIAGRAM, ANTENNA SYSTEM AND RADIO COMMUNICATION - Google Patents

Claims (29)

1. The way to control the radiation pattern of antenna means (1), made with the possibility of application for mobile communications, containing N emitters (12 ₁ -12 _N ), configured spirally, where N is an integer greater than 1, and configured to receive or receive and transmitting radio-frequency RF signals, wherein N emitters (12 ₁ -12 _N ) are configured to connect to a common receiver (Rx), characterized in that at least one characteristic of at least one received signal is measured from at least one of the radiation units and control at least one of the parameters by the phase (φ _n ) and the amplitude (A _n ) of the received signals and / or signals for transmission for at least one of the emitters (12 ₁ -12 ₄ ) depending on the measured characteristics of the received signal. 2. The method according to claim 1, characterized in that when measuring at least one characteristic of at least one received signal, measure at least one of the characteristics, signal level and phase of at least one received signal. 3. The method according to claim 2, characterized in that the signal level of the received signals is measured for at least two emitters (12 ₁ -12 ₄ ). 4. The method according to claim 2 or 3, characterized in that the phase of the received signals is measured for at least two emitters (12 ₁ -12 ₄ ). 5. The method according to any one of claims _{1 to 4} , characterized in that they control at least one parameter of the received signals / signals for transmission for each element (12 ₁ -12 ₄ ) of the antenna depending on the measured characteristics of the received signal. 6. The method according to any one of claims 1 to 5, characterized in that the said at least one parameter is additionally changed between a series of set values of the at least one parameter, and the signals received in the elements are measured (12 ₁ - 12 ₄ ) antennas, for different values of said at least one parameter, and set said at least one parameter of received signals / signals for transmitting at least for a predetermined period of time depending on said measured signal characteristic. 7. The method according to claim 6, characterized in that when changing said at least one parameter, said at least one parameter is changed from a first value to a second value at least once. 8. The method according to any one of claims 1 to 7, characterized in that said at least one characteristic of said at least one received signal is measured separately for each element (12 ₁ -12 ₄ ) of the antenna. 9. The method according to any one of claims 1 to 7, characterized in that they further summarize the signals received in the said emitters (12 ₁ -12 ₄ ), and the measurement of at least one characteristic is performed on the total signal. 10. The method according to any one of claims 6 to 9, characterized in that said at least one parameter is changed one at a time for each element (12 ₁ -12 ₄ ) of the antenna. 11. The method according to any one of claims 1 to 10, characterized in that they control the at least one parameter according to the algorithm used in the transceiver circuits of the radio communication device. 12. The method according to any one of claims 1 to 11, characterized in that the said at least one parameter is changed between the values to provide at least two differently directed lobes of the antenna radiation pattern, the signal levels received by the emitters are measured (12 ₁ -12 _N) in at least two differently directed lobes of the antenna diagram, and establish the at least one parameter value giving the highest signal strength at least for a predetermined time period. 13. The method according to p. 12, characterized in that two of the at least two differently directed lobes of the antenna radiation pattern are essentially oppositely directed. 14. The method according to any one of claims 1 to 13, characterized in that the measurement and control are repeated after a predetermined or randomly selected time period. 15. An antenna system for receiving or receiving and transmitting radio frequency RF signals, adapted for use in mobile communications, comprising N emitters (12 ₁ -12 _N ) configured spirally, where N is an integer greater than 1, and an excitation device (40) an antenna, wherein each of the emitters has an antenna excitation part (13 ₁ -13 _N ) connected to the antenna excitation device (40), while N emitters (12 ₁ -12 _N ) are configured to connect to a common receiver through the antenna excitation device, characterized in that the device (40) driving the antenna comprises means (47, 45, 42 ₁ -42 _N , 54 ₁ -54 _N ) for controlling at least one of the parameters by the phase (φ _n ) and amplitude (A _n ) of the received signals and / or signals for transmitting at least one of the elements (12 ₁ -12 _N ) of the antenna. 16. The antenna system according to clause 15, characterized in that it further comprises means (48 ₁ -48 _N ) for detecting and measuring (47) at least one characteristic of the signal received in at least one of the emitters (12 ₁ -12 _N ), wherein the means (48 ₁ -48 _N ) for detecting and measuring (47) are connected to the means (47, 42 ₁ -42 _N , 54 ₁ -54 _N ) for controlling at least one of the mentioned parameters . 17. The antenna system according to clause 16, wherein the means (48 ₁ -48 _N ) detection configured to detect a signal between at least one emitter (12 ₁ -12 _N ) and its connection (41 ₁ - 41 _N ) with said antenna driving means (40). 18. The antenna system according to clause 16, characterized in that it further comprises an adder / divider (43) of power connected to N emitters (12 ₁ -12 _N ) possibly through means (45, 42 ₁ -42 _N , 54 ₁ -54 _N ) controlling said at least one parameter, and which must be connected to the transceiver circuits of the radio communication device, wherein the detection means (48 ₁ -48 _N ) are configured to detect a signal present between the power adder / divider (43) and the means ( 47, 42 ₁ -42 _N ) control of at least one of the mentioned parameters. 19. The antenna system according to clause 16, characterized in that it further comprises an adder / divider (43) of power connected to N emitters (12 ₁ -12 _N ), possibly through control means (47, 45, 42 ₁ -42 _N ) the at least one parameter mentioned, and which must be connected to the transceiver circuits of the radio communication device, the detection means (48 ₁ -48 _N ) being configured to detect a signal present between the power adder / divider (43) and said transceiver circuits. 20. The antenna system according to any one of paragraphs.15-19, characterized in that the antenna excitation device (40) comprises a fixed antenna excitation circuit (45) having N ports (41 ₁ -41 _N ), each of which is connected to one of N emitters (12 ₁ -12 _N ), and the antenna excitation device 40 further comprises M means (42 ₁ -42 _M ) for controlling said at least one parameter, each of said M means (42 ₁ -42 _M ) is connected to one of the M ports (46 _i -46 _M ) of the antenna excitation of a fixed antenna excitation circuit (45), where M is an integer greater than 1. 21. The antenna system according to any one of paragraphs.15-20, characterized in that the means (47, 45, 42 ₁ -42 _N , 54 ₁ -54 _N ) for controlling said at least one parameter comprise an algorithm. 22. The antenna system according to item 21, wherein the said algorithm is contained in a digital signal processor of a radio communication device. 23. The antenna system according to any one of paragraphs.15-22, characterized in that it contains a device N-lead antenna. 24. A radio communication device comprising a housing, a user interface and receiving circuits or receiving and transmitting circuits connected to an antenna system, characterized in that it comprises an antenna system according to any one of claims 15-23. 25. The radio communication device according to paragraph 24, wherein the N emitters (12 ₁ -12 _N ) are configured on a carrier that is rotationally attached to the housing. 26. The radio communication device according to paragraph 24, wherein the N emitters (12 ₁ -12 _N ) are configured on a carrier connected to the housing in a sliding manner. 27. A radio communication device according to any one of paragraphs.24-26, characterized in that the means (47, 45, 42 ₁ -42 _N , 54 ₁ -54 _N ) for controlling said at least one parameter are supported by said medium. 28. The radio communication device according to any one of paragraphs.24-27, characterized in that it is a portable communication device. 29. The radio communication device according to claim 28, wherein the portable radio communication device is a portable telephone.