Evolved node B, user equipment, and method for operation of narrow bandwidth user equipment in wide bandwidth broadband networks

What is claimed is: 1. User Equipment (UE) comprising processing circuitry to: operate, using a narrow bandwidth, in a wide bandwidth broadband network; retrieve, from a downlink subframe, channels within a primary narrow bandwidth device region (NBDR), the primary NBDR being a subset of frequency resources within a wide bandwidth subframe, the primary NBDR being allocated within a central part of a signal spectrum in which primary synchronization signals (PSS) and secondary synchronization signals (SSS) are received, and the channels including a control channel; process control channels in the primary NBDR, wherein the primary NBDR is received in a new carrier type (NCT) implemented in accordance with a standard of the 3GPP family of standards, retrieve, from the primary NBDR, configuration information for at least one secondary NBDR allocated in a different part of the signal spectrum separate from the central part of the signal spectrum, and wherein the PSS and SSS are not received in the secondary NBDR. 2. The UE of claim 1 , wherein the channels include an enhanced physical downlink control channel (ePDCCH), an enhanced physical hybrid ARQ indicator channel (ePHICH), and a physical downlink shared channel (PDSCH). 3. The UE of claim 1 , wherein cell-specific reference signals (CRSs) are suppressed on the NCT at one or more downlink subframes of a downlink frame. 4. The UE of claim 3 , wherein CRSs are suppressed on all downlink subframes of the downlink frame. 5. The UE of claim 1 , wherein the at least one secondary NBDR using frequency resources within the downlink subframe that are not used by the primary NBDR. 6. The UE of claim 5 , wherein the processing circuitry is further configured to: process baseband signals to receive primary NBDR information; generate a carrier signal offset for the at least one secondary NBDR and adjust a receiver to a center frequency of the at least one secondary NBDR. 7. The UE of claim 5 , further configured to: retrieve information for more than one secondary NBDR; select a preferred secondary NBDR from the more than one secondary NBDR; and notify an evolved Node B (eNodeB) of the selection. 8. An evolved Node B (eNodeB) to communicate with a narrow bandwidth device in a wide bandwidth broadband network, the eNodeB comprising: a configuration module arranged to configure a primary narrow bandwidth device region (NBDR) of a downlink subframe, and allocate a downlink control channel within the primary NBDR; and a transceiver module arranged to transmit the downlink subframe to the narrow bandwidth device on subcarriers of a first carrier type, wherein the first carrier type is a new carrier type (NCT) implemented in accordance with a standard of the 3GPP family of standards; transmit at least one secondary NBDR in a region separate from the primary NBDR; and transmit primary synchronization signals (PSS) and secondary synchronization signals (SSS) in the primary NBDR and refrain from transmitting PSS and SSS in the secondary NBDR. 9. The eNodeB of claim 8 , wherein the eNodeB is further configured to exclude transmission of cell-specific reference signals (CRSs) on carriers of the first carrier type. 10. The eNodeB of claim 8 , wherein the configuration module is further arranged to allocate, within the primary NBDR, an enhanced physical data control channel (ePDCCH), an enhanced physical hybrid ARQ indicator channel (ePHICH), and a physical downlink shared channel (PDSCH). 11. The eNodeB of claim 8 , wherein the primary NBDR is allocated in a central part of a signal bandwidth spectrum. 12. The eNodeB of claim 8 , wherein the primary NBDR has a bandwidth lower than a total signal bandwidth available for transmission at eNodeB. 13. The eNodeB of claim 8 , wherein control signaling is used to assign the at least one secondary NBDR. 14. The eNodeB of claim 11 , wherein the primary NBDR is aligned with a synchronization signal in the central part of the signal bandwidth spectrum. 15. A method for communicating with a narrow bandwidth device in a wide bandwidth broadband network, the method comprising: configuring, at an evolved Node B (eNodeB), a primary narrow bandwidth device region (NBDR) of a downlink subframe, the primary NBDR being located in a central portion of a signal bandwidth spectrum in which primary synchronization signals (PSS) and secondary synchronization signals (SSS) are transmitted; configuring, at the eNodeB, a secondary NBDR in a different part of the signal bandwidth spectrum separate from the central portion and in which PSS and SSS are not transmitted; allocating, within the primary NBDR, an enhanced physical downlink control channel (ePDCCH); transmitting the downlink subframe to the narrow bandwidth device using subcarriers of a first carrier type, wherein the first carrier type is a new carrier type (NCT) implemented in accordance with a standard of the 3GPP family of standards; avoiding transmission of cell-specific reference signals (CRSs) on subcarriers of the first carrier type. 16. The method of claim 15 , wherein the allocating further comprises allocating an enhanced physical hybrid ARQ indicator channel (ePHICH) and a physical downlink shared channel (PDSCH). 17. The method of claim 15 , wherein the primary NBDR has a bandwidth which is lower than or equal to the total signal bandwidth available for signal transmission. 18. The method of claim 15 , further comprising aligning the primary NBDR with a synchronization signal in the central portion of the signal bandwidth spectrum. 19. The method of claim 15 , further comprising: including information for the at least one secondary NBDR within the primary NBDR. 20. The method of claim 19 , wherein the information for the at least one secondary NBDR comprises at least one a user equipment (UE) assignment of secondary NBDRs, a secondary NBDR frequency hopping pattern, and a value indicating a number of secondary NBDRs. 21. A method for communicating, by a narrow bandwidth device, in a wide bandwidth broadband network, the method comprising: receiving a primary narrow bandwidth device region (NBDR) having allocated therein an enhanced physical data control channel (ePDCCH), an enhanced physical hybrid ARQ indicator channel (ePHICH), and a physical downlink shared channel (PDSCH), the primary NBDR having a bandwidth of 3 megahertz (MHz) or less and the primary NBDR being a subset of frequency resources within a wide bandwidth subframe with a bandwidth of at least 10 MHz and including a portion of the bandwidth in which primary synchronization signals (PSS) and secondary synchronization signals (SSS) are received; and retrieving configuration information, from the primary NBDR, for at least one secondary NBDR wherein the PSS and SSS are not received in the secondary NBDR. 22. The method of claim 21 , further comprising: selecting a preferred secondary NBDR from the at least one secondary NBDR; and notifying an evolved Node B (eNodeB) of the selection. 23. The method of claim 21 , further comprising: generating a carrier signal offset for the at least one secondary NBDR relative to the subcarrier of the primary NBDR; and adjusting a radio frequency (RF) receiver to a center frequency of the secondary NBDR.