Distributed antenna system for MIMO signals

What is claimed is: 1. A method comprising: receiving at least one set of multiple input multiple output (MIMO) channel signals at an original MIMO frequency from at least one signal source at a master unit of a distributed antenna system, at least one set of the MIMO channel signals including at least a first MIMO channel signal and a second MIMO channel signal; generating a local oscillator signal at the master unit; frequency converting the at least one of the first MIMO channel signal and the second MIMO channel signal from an original MIMO frequency to a different frequency different from a first legacy service frequency band using the local oscillator signal at the master unit; receiving at least one non-MIMO signal that has a frequency in the first legacy service band at the master unit; processing the at least one converted MIMO channel signal and the at least one non-MIMO signal at the master unit; combining the at least one non-MIMO signal in the first legacy frequency band along with the first MIMO channel signal, the second MIMO channel signal, and the local oscillator signal into a combined signal at the master unit; transmitting the combined signal across an optical link to a remote unit; processing together the at least one non-MIMO signal in the first legacy service frequency band and the at least one of the first MIMO channel signal and the second MIMO channel signal at the remote unit; and frequency converting the at least one converted MIMO channel signal from the different frequency different from the first legacy service frequency band back to the original MIMO frequency for transmission over at least one antenna. 2. The method of claim 1 , comprising: receiving the local oscillator signal from the remote unit at conversion circuitry; and using the local oscillator signal to frequency convert the at least one of the first MIMO channel signal and the second MIMO channel signal from the different frequency different from the first legacy service frequency band back to the original MIMO frequency. 3. The method of claim 1 , comprising: using the local oscillator signal to generate other frequency signals for use in converting at least a second one of the first MIMO channel signal and the second MIMO channel signal to another different frequency different from the first legacy service frequency band from the original MIMO frequency. 4. The method of claim 1 , comprising: frequency converting both the first MIMO channel signal and the second MIMO channel signal to different frequencies at the master unit; and frequency converting the first MIMO channel signal to a frequency that is different from a frequency of the second MIMO channel signal at the master unit. 5. The method of claim 4 , comprising: frequency converting all of the MIMO channel signals back to the original MIMO frequency for transmission over the at least one antenna. 6. The method of claim 1 , comprising: transceiving both uplink signals and downlink signals between the remote unit and the master unit across at least one fiber-optic cable. 7. The method of claim 1 , wherein frequency converting the at least one converted MIMO channel signal from the different frequency different from the first legacy service frequency band back to the original MIMO frequency occurs at the at least one remote unit. 8. The method of claim 1 , wherein frequency converting the at least one converted MIMO channel signal from the different frequency different from the first legacy service frequency band back to the original MIMO frequency occurs at least one extension unit in communication with the at least one remote unit. 9. The method of claim 1 , further comprising: wherein the first legacy service frequency band is lower in frequency than the original MIMO frequency of the at least one set of MIMO channel signals; and frequency converting the at least one of the first MIMO channel signal and the second MIMO channel signal from the original MIMO frequency to a lower different frequency that is different from the first legacy service frequency band at the master unit. 10. The method of claim 1 , further comprising: wherein the first legacy service frequency band is higher in frequency than the original MIMO frequency of the at least one set of MIMO channel signals; and frequency converting the at least one of the first MIMO channel signal and the second MIMO channel signal from the original MIMO frequency to a higher different frequency that is different from the first legacy service frequency band at the master unit. 11. The method of claim 1 , further comprising: receiving at least one additional set of MIMO channel signals at another original MIMO frequency different from the original MIMO frequency of the at least one set of MIMO signals at the master unit; frequency converting at least one of the first and second MIMO channel signals of the additional set of MIMO channel signals to another different frequency different from the first legacy service frequency band from the another original MIMO frequency at the master unit; and combining the at least one additional set of MIMO channel signals for transmission at the master unit. 12. The method of claim 1 , further comprising: frequency converting the at least one of the first and the second converted MIMO channel signals of the at least one additional set from the frequency different from the first legacy service frequency band back to the another original MIMO frequency for transmission over the at least one antenna at a plurality of extension units coupled to at least one remote unit. 13. The method of claim 1 , further comprising: frequency converting the at least one of the first MIMO channel signal and the second MIMO channel signal of the additional set of MIMO channel signals to another different frequency that is different from the original MIMO frequency of the at least one set of MIMO channel signals at the master unit; and combining the at least one set of MIMO channel signals for transmission at the master unit. 14. The method of claim 1 , further comprising: wherein at least one of the first MIMO channel signal and the second MIMO channel signal is maintained at the original MIMO frequency; and transmitting at least one of the first MIMO channel signal and the second MIMO channel signal at the original MIMO frequency over the at least one antenna at the remote unit. 15. A method comprising: receiving a plurality of sets of multiple input multiple output (MIMO) channel signals at respective original first and second MIMO frequencies at a master unit of a distributed antenna system, each set of the MIMO channel signals including at least a first MIMO channel signal and a second MIMO channel signal; generating a local oscillator signal at the master unit; frequency converting the at least one of the first MIMO channel signals from the original first MIMO frequency to a first different frequency different from a first legacy service frequency band using the local oscillator signal at the master unit; frequency converting the at least one of the second MIMO channel signals from the original second MIMO frequency to a second different frequency different from a second legacy service frequency band based on the local oscillator signal at the master unit; receiving a plurality of non-MIMO signals that have original frequencies in at least the first legacy service frequency band and the second legacy service frequency band at the master unit; processing the plurality of non-MIMO signals using the band processing circuit component at the master unit;