Calibration method and system

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A calibration method for calibrating a device under test with regard to at least one of phase or amplitude characteristics, with the following steps: providing a device under test having several transceivers and antenna elements allocated to said transceivers; providing a measurement unit having at least one measurement antenna unit configured to measure the radiated power of said device under test in the far-field region of said device under test; turning on at least two antenna elements at the same time with at least one of a steering phase and a steering amplitude in the beginning such that a null or a side lobe of the radiation pattern generated is directed towards said measurement antenna unit so that the measurement antenna unit is located in a position that is deemed, under ideal conditions relating to a model, to allocate to a null provided between two neighbored side lobes or a side lobe; adjusting the phase or amplitude of at least one antenna element while the at least one other antenna element remaining stable; recording the adjusted phase value or the adjusted amplitude value that causes lowest measured gain of the radiated power; saving the setup corresponding to said lowest measured gain; and repeating the adjusting and recording steps for at least one other antenna element until a threshold value for said measured gain is reached. 2. The calibration method according to claim 1 , wherein the predefined steering phase or the predefined steering amplitude and said recorded adjusted value are subtracted from each other in order to obtain appropriate calibration coefficients. 3. The calibration method according to claim 1 , wherein the phase or amplitude of a group of antenna elements is adjusted simultaneously. 4. The calibration method according to claim 1 , wherein said phase calibration steps are repeated for additional beam directions in order to obtain a global maximum or a global minimum. 5. The calibration method according to claim 1 , wherein said amplitude calibration steps are repeated for additional side lobes of the radiation pattern in order to obtain a global minimum. 6. The calibration method according to claim 1 , wherein the calibration steps are repeated at different temperatures. 7. The calibration method according to claim 1 , wherein the phase is shifted and nulls of said radiation pattern are measured. 8. The calibration method according to claim 1 , wherein the amplitude is shifted and side lobes of said radiation pattern are measured. 9. The calibration method according to claim 1 , wherein the phase or amplitude is adjusted such that said device under test has a main lobe directing towards said measurement antenna unit. 10. The calibration method according to claim 1 , wherein the phase is calibrated initially such that the amplitude calibration takes place once the phase is calibrated. 11. A calibration method for calibrating a device under test with regard to phase and amplitude characteristics, with the following steps: providing a device under test having several transceivers and antenna elements allocated to said transceivers; providing a measurement unit having at least one measurement antenna unit configured to measure the radiated power of said device under test in the far-field region of said device under test, the calibration method comprising the following steps for calibrating a device under test with regard to phase characteristics: turning on at least two antenna elements at the same time with a steering phase such that a peak beam, a null or a side lobe of the radiation pattern generated is directed towards said measurement antenna unit; adjusting the phase of at least one antenna element while the at least one other antenna element remaining stable; recording the adjusted phase value that causes highest measured gain or lowest measured gain of the radiated power; saving the setup corresponding to said highest measured gain or said lowest measured gain; and repeating the adjusting and recording steps for at least one other antenna element until a threshold value for said measured gain is reached, and the calibration method comprising the following steps for calibrating the device under test with regard to amplitude characteristics: turning on at least two antenna elements at the same time with a steering amplitude such that a peak beam, a null or a side lobe of the radiation pattern generated is directed towards said measurement antenna unit; adjusting the amplitude of at least one antenna element while the at least one other antenna element remaining stable; recording the adjusted amplitude value that causes highest measured gain or lowest measured gain of the radiated power; saving the setup corresponding to said highest measured gain or said lowest measured gain; and repeating the adjusting and recording steps for at least one other antenna element until a threshold value for said measured gain is reached. 12. A system for the calibration of at least one of phase and amplitude of a device under test, comprising a control unit, a measurement unit and a measurement antenna unit, said measurement antenna unit being connected to said measurement unit, said control unit having a control interface to be connected with said device under test, said system being configured to perform a method according to claim 11 . 13. A calibration method for calibrating a device under test with regard to at least one of phase or amplitude characteristics, with the following steps: providing a device under test having several transceivers and antenna elements allocated to said transceivers; providing a measurement unit having at least one measurement antenna unit configured to measure the radiated power of said device under test in the far-field region of said device under test; turning on at least two antenna elements at the same time with at least one of a steering phase and a steering amplitude in the beginning such that a peak beam of the radiation pattern generated is directed towards said measurement antenna unit; adjusting the phase or amplitude of at least one antenna element while the at least one other antenna element remaining stable; recording the adjusted phase value or the adjusted amplitude value that causes highest measured gain of the radiated power; saving the setup corresponding to said highest measured gain; and repeating the adjusting and recording steps for at least one other antenna element until a threshold value for said measured gain is reached.