Telecommunication system using multiple Nyquist zone operations

What is claimed is: 1. A telecommunication system comprising: first circuitry configured to: receive signals from at least one transmitting base station or at least one transmitting terminal device, the received signals having frequencies in a plurality of frequency bands, generate, from the received signals, a plurality of sets of aliased signals by sampling the received signals such that the received signals are aliased, each set of aliased signals corresponding to signals in one of the plurality of frequency bands; combine the plurality of sets of aliased signals into a combined frequency band in a common Nyquist zone, wherein each of the plurality of sets of aliased signals are non-overlapping within the common Nyquist zone; and wherein at least one signal transmitted to at least one receiving base station or at least one receiving terminal device is derived from signals extracted from the combined frequency band to a frequency band from a Nyquist zone different than the common Nyquist zone. 2. The telecommunication system of claim 1 , further comprising: second circuitry configured to: extract signals from the combined frequency band to the frequency band from a Nyquist zone different than the common Nyquist zone, and transmit, to the at least one receiving base station or the at least one receiving terminal device, signals at the frequencies corresponding to the extracted signals in the frequency band. 3. The telecommunication system of claim 2 , wherein the second circuitry is further configured to: extract at least one additional signal from the combined frequency band to at least one additional frequency band from a Nyquist zone used as the common Nyquist zone, and transmit, to the at least one receiving base station or the at least one receiving terminal device, at least one additional signal at at least one additional frequency corresponding to the extracted at least one additional signal in the at least one additional frequency band. 4. The telecommunication system of claim 3 , wherein the Nyquist zone used as the common Nyquist zone is a first Nyquist zone, and wherein the Nyquist zone different than the common Nyquist zone is a second Nyquist zone or a third Nyquist zone. 5. The telecommunication system of claim 2 , wherein the second circuitry is further configured to: extract at least one additional signal from the combined frequency band to at least one additional frequency band from an additional Nyquist zone different from the common Nyquist zone, and transmit, to the at least one receiving base station or the at least one receiving terminal device, at least one additional signal at the at least one additional frequency corresponding to the extracted at least one additional signal in the at least one additional frequency band. 6. The telecommunication system of claim 5 , wherein the Nyquist zone used as the common Nyquist zone is a first Nyquist zone, wherein the Nyquist zone different than the common Nyquist zone is a second Nyquist zone, and wherein the additional Nyquist zone different than the common Nyquist zone is a third Nyquist zone. 7. The telecommunication system of claim 5 , wherein the Nyquist zone different than the common Nyquist zone is not adjacent to the additional Nyquist zone different than the common Nyquist zone. 8. The telecommunication system of claim 5 , wherein the first circuitry is configured to: down-convert the received signals to at least one intermediate frequency; receive the down-converted signals from the down-conversion stage; select down-converted signals in the first frequency band, wherein the first frequency band corresponds to the Nyquist zone different than the common Nyquist zone; receive the down-converted signals from the down-conversion stage; select down-converted signals in the second frequency band, wherein the second frequency band corresponds to the additional Nyquist zone different than the common Nyquist zone; and combine the selected signals in the first and second frequency bands, wherein the first section is configured to sample the combined down-converted signals. 9. The telecommunication system of claim 2 , wherein the second circuitry is configured to: convert the digital signals to be transmitted using a second sampling rate different from the first sampling rate. 10. The telecommunication system of claim 2 , wherein the telecommunication system comprises a repeater; and wherein the first circuitry is configured to: receive downlink signals from a donor antenna; and receive uplink signals from a coverage antenna; wherein the second circuitry is configured to: transmit the downlink signals using an additional coverage antenna; and transmit the uplink signals using an additional donor antenna. 11. The telecommunication system of claim 2 , wherein the telecommunication system comprises a distributed antenna system comprising: a master unit configured to receive downlink signals from the at least one transmitting base station in the plurality of frequency bands; and a remote unit communicatively coupled to the master unit, the remote unit configured to transmit the downlink signals extracted from the combined frequency band to the at least one receiving terminal device; wherein the master unit comprises the first circuitry; and wherein the remote unit comprises the second circuitry. 12. The telecommunication system of claim 1 , wherein the common Nyquist zone is a first Nyquist zone and the Nyquist zone different than the common Nyquist zone is a second Nyquist zone or a third Nyquist zone. 13. The telecommunication system of claim 1 , wherein the first circuitry is further configured to generate digital signals by sampling the received signals at a first sampling rate. 14. The telecommunication system of claim 1 , wherein the telecommunication system comprises a repeater. 15. A method comprising: receiving signals from at least one transmitting base station or at least one transmitting terminal device, the received signals having frequencies in a plurality of frequency bands; generating, from the received signals, a plurality of sets of aliased signals by sampling the received signals such that the received signals are aliased, each set of aliased signals corresponding to signals in one of the plurality of frequency bands; combining the plurality of sets of aliased signals into a combined frequency band in a common Nyquist zone, wherein each of the plurality of sets of aliased signals are non-overlapping within the common Nyquist zone; extracting at least one signal from the combined frequency band to a Nyquist zone different than the common Nyquist zone; and transmitting, to at least one receiving base station or at least one receiving terminal device, at least one signal at a frequency corresponding to the extracted at least one signal in the frequency band. 16. The method of claim 15 , further comprising: extracting at least one additional signal from the combined frequency band, and transmitting, to the at least one receiving base station or the at least one receiving terminal device, the extracted at least one additional signal at at least one additional frequency in at least one additional frequency band from the common Nyquist zone. 17. The method of claim 15 , further comprising: extracting at least one additional signal from the combined frequency band to at least one additional frequency band from an additional Nyquist zone different from the common Nyquist zone, and transmitting, to the at least one receiving base stati