MIMO antenna calibration device, integrated circuit and method for compensating phase mismatch

The invention claimed is: 1. A multiple input multiple output (MIMO) calibration device for calibrating a phase relationship between at least two signals present on at least two radio frequency (RF) paths coupling a wireless communication unit and the MIMO calibration device, wherein the MIMO calibration device is operably coupleable via at least two RF paths between the wireless communication unit and an antenna arrangement; wherein the MIMO calibration device comprises: a processing module comprising one or more feedback receivers, the processing module configured to: process a coupled amount of at least one first signal from a first path operably coupleable to a first polarization of the antenna arrangement by at least performing a conversion of the at least one first signal using the one or more feedback receivers and determining at least one pilot signal from said at least one converted first signal; process a coupled amount of at least one second signal from a second path operably coupleable to at least one second polarization of the antenna arrangement, different to the first polarization, by at least performing a conversion of the at least one second signal using the one or more feedback receivers and determining the at least one pilot signal from said at least one converted second signal, wherein the at least one pilot signal is common to both the at least one first signal and the at least one second signal, and wherein the at least one pilot signal is specified in a communication standard; and determine a first phase relationship of the at least one pilot signal between the first signal having the first polarization and the second signal having the second polarization that is different than the first polarization, wherein the at least two RF paths comprise the first path and the second path. 2. The MIMO calibration device of claim 1 , wherein the at least one first signal is processed by at least one of a virtual antenna mapping (VAM) module or a 3 dB hybrid combiner. 3. The MIMO calibration device of claim 1 , wherein the at least one pilot signal comprises at least of a CPICH signal, a primary signalling channel (P-SCH) signal, a secondary signalling channel (S-SCH) signal, a synchronization signal, a tonal signal, an intermittently transmitted signal, or a high speed downlink packet access signal (HSPA+). 4. The MIMO calibration device of claim 3 , wherein the at least one pilot signal is a P-SCH signal and the MIMO calibration device uses at least one of: (i) a least mean square (LMS) adaptive filter to determine the phase relationship; or (ii) the P-SCH as a code used for automatic frequency correction (AFC) and phase relationship determination. 5. The MIMO control device of claim 1 , wherein the processing module is further configured to: receive and process a coupled amount of at least one first RF signal; and determine at least one second phase relationship of the same pilot signal between the at least two RF paths to the antenna arrangement of the processed coupled amount of the at least one first RF signal. 6. The MIMO calibration device of claim 1 , wherein the MIMO calibration device comprises or is operably coupleable to at least one phase shifter module located on at least one path associated with one of the at least two RF paths such that the at least one phase shifter module is arranged to adjust a phase shift based on at least the first phase relationship. 7. The MIMO calibration device of claim 1 , wherein the MIMO calibration device is configured to cause transmission of at least the first phase relationship to another network element to control an incoming phase relationship of the at least one pilot signal determined from at least one first signal and at least one second signal on respective polarizations of the antenna arrangement. 8. The MIMO calibration device of claim 1 , wherein the at least one first signal is processed by a VAM module, and wherein the VAM module comprises a plurality of cross-coupled complex multipliers and summation modules configured to change a phase of at least one signal operably coupleable to at least one polarization feed to antenna arrangement based on at least the first phase relationship. 9. The MIMO calibration device of claim 1 , further comprising a feedback path configured to provide at least the first phase relationship to the wireless communication unit. 10. The MIMO calibration device of claim 1 , wherein the feedback receiver is configured to receive a clock signal generated by clock circuitry to track time-based boundaries of said at least one first signal. 11. The MIMO calibration device of claim 1 , wherein each of the at least one first signal and the at least one second signal is received at or output to the antenna arrangement. 12. The MIMO calibration device of claim 1 , wherein the pilot signal is a tonal signal, and wherein the at least one pilot signal is present in both the at least one first signal and the at least one second signal at the antenna arrangement. 13. An integrated circuit for a multiple input multiple output (MIMO) calibration device for calibrating a phase relationship in real-time between two signal paths, wherein the MIMO calibration device is operably coupleable via at least two radio frequency (RF) paths between a wireless communication unit and an antenna arrangement; wherein the integrated circuit comprises: a processing module comprising one or more feedback receivers, the processing module configured to: process a coupled amount of at least one first signal from a first path operably coupleable to a first polarization of the antenna arrangement by at least performing a conversion of the at least one first signal using the one or more feedback receivers and determining at least one pilot signal from said at least one converted first signal; process a coupled amount of at least one second signal from a second path operably coupleable to at least one second polarization of the antenna arrangement, different to the first polarization, by at least performing a conversion of the at least one second signal using the one or more feedback receivers and determining the at least one pilot signal from said at least one converted second signal, wherein the at least one pilot signal is common to both the at least one first signal and the at least one second signal, and wherein the at least one pilot signal is specified in a communication standard; and determine a first phase relationship in real-time of the at least one pilot signal between the first signal having the first polarization and the second signal having the second polarization that is different than the first polarization, wherein the at least two RF paths comprise the first path and the second path. 14. The integrated circuit of claim 13 , wherein the integrated circuit further comprises a memory included within or coupled to the processing module and configured to store data samples to determine at least the first phase relationship in subsequent processing. 15. The integrated circuit of claim 13 , wherein the processing module is arranged to use a first representation of the at least one pilot signal as a reference signal to mitigate mismatch error on a second representation of the at least one pilot signal. 16. The integrated circuit of claim 13 , wherein the processing module is further configured to: determine the first phase relationship in real-time of the at least one pilot signal between the at least two RF paths between a baseband portion of the wireless communication unit and the MIMO calibration device; determine a second phase