Master unit, remote unit and multiband transmission system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-007/06
H04B-001/38
H04B-010/12
H04L-027/26
H04J-014/00
출원번호
US-0471032
(2012-05-14)
등록번호
US-8681916
(2014-03-25)
우선권정보
DE-10 2009 052 936 (2009-11-12)
발명자
/ 주소
Braz, Oliver
Eisenwinter, Stefan
Schmalisch, Mathias
Stefanik, Joerg
Schmid, Peter
출원인 / 주소
Andrew Wireless Systems GmbH
대리인 / 주소
Kilpatrick Townsend & Stockton LLP
인용정보
피인용 횟수 :
10인용 특허 :
5
초록▼
A master unit and a remote unit is provided for a multiband transmission system for distributing and combining signals of at least one wireless communication network and at least one digital network. A reference frequency generator is arranged in the master unit, the reference frequency generator be
A master unit and a remote unit is provided for a multiband transmission system for distributing and combining signals of at least one wireless communication network and at least one digital network. A reference frequency generator is arranged in the master unit, the reference frequency generator being designed to clock a master modem for converting the signals of the at least one digital network. The reference frequency signal emitted by the reference frequency signal is restored via a reference frequency receiver and is used for closing a remote modem that is located there for demodulation.
대표청구항▼
1. A master unit for distributing and combining signals of at least one wireless communication network and of at least one wired digital network, the master unit comprising: at least one master modem for converting a downlink data signal from the at least one wired digital network into a downlink co
1. A master unit for distributing and combining signals of at least one wireless communication network and of at least one wired digital network, the master unit comprising: at least one master modem for converting a downlink data signal from the at least one wired digital network into a downlink coded signal and converting an uplink coded signal into an uplink data signal, using a reference frequency signal for modem clocking;a master uplink interface for communication with a base station of the at least one wireless communication network;a master downlink interface for communication with the base station of the at least one wireless communication network;a master downlink combiner for combining the downlink coded signal, the reference frequency signal, and a downlink signal associated with the at least one wireless communication network, into a downlink common signal;a master uplink splitter for splitting from an uplink common signal the uplink coded signal and an uplink signal associated with the at least one wireless communication network;a reference frequency generator for generating the reference frequency signal for concurrently modem clocking the at least one master modem and clocking a frequency generator that provides mixing signals for frequency mixing the downlink signal; anda master transmission unit for transmitting the downlink common signal for receipt by at least one remote unit. 2. The master unit according to claim 1, wherein the reference frequency generator is configured to generate the reference frequency signal of low signal strength with a sufficient signal to noise ratio, taking into consideration harmonics and intermodulation products, from other frequency bands of transmission signals other than the reference frequency signal. 3. The master unit according to claim 1, wherein a spread sequence generator is connected downstream of the reference frequency generator, the spread sequence generator being configured to spread data signals of the master modem. 4. The master unit according to claim 3, wherein the spread sequence generator is configured to spread the reference frequency signal. 5. The master unit according to claim 1, wherein the master modem is configured for a QAM or an FSK modulation/demodulation. 6. The master unit according to claim 1, further comprising a plurality of frequency mixers connectable to the reference frequency generator through the frequency generator, the frequency mixers in an uplink direction being assigned to respectively one of a plurality of signal lines from the master uplink splitter and in a downlink direction are assigned to respectively one of the plurality of signal lines in the master downlink combiner, and wherein the frequency mixers are configured in the downlink direction to convert a plurality of overlapping frequency bands of transmission signals into free intermediate frequency bands and in the uplink direction to again convert a plurality of converted intermediate frequency bands. 7. The master unit according to claim 6, wherein at least one of the frequency mixers is configured, in the uplink direction, to restore converted intermediate frequency bands into original frequency bands of converted transmission signals. 8. The master unit according to claim 6, wherein at least one of the frequency mixers is configured, in the downlink direction, to convert a number n−1 of n overlapping frequency bands of the transmission signals into free intermediate frequency bands, and wherein one of these overlapping frequency bands is carried out without conversion. 9. The master unit according to claim 6, wherein the master unit is configured for an exchange of same-frequency signals of different information content that includes MIMO signals, wherein the frequency mixer for frequency conversion and frequency restoration of the same-frequency signals is assigned to the plurality of signal lines of the same-frequency signals, and wherein the other frequency bands are carried out on their frequency. 10. The master unit according to claim 1, wherein the master modem is configured for the transmission of digital baseband data on the downlink common signal. 11. A remote unit for distributing and combining signals of at least one wireless communication network and of at least one wired digital network, the remote unit comprising: at least one remote modem for converting an uplink data signal from at least one user terminal into an uplink coded signal and converting a downlink coded signal of the at least one wired digital network into a downlink data signal, using a recovered reference frequency signal for modem clocking;a remote uplink interface for communication with a network terminal of the at least one wireless communication network;a remote downlink interface for communication with the network terminal of the at least one wireless communication network;a remote uplink combiner for combining, into an uplink common signal that is provided to a remote transmission unit, the uplink coded signal and an uplink signal associated with the at least one wireless communication network, frequency mixed using the recovered reference frequency signal, and received from the remote uplink interface;a remote downlink splitter for splitting, from a downlink common signal, a reference frequency signal, the downlink coded signal, and a downlink signal associated with the at least one wireless communication network that is provided to the remote downlink interface;a reference frequency receiver for providing the recovered reference frequency signal from the reference frequency signal for modem clocking the at least one remote modem and clocking a frequency generator that provides mixing signal for frequency mixing the uplink signal and the downlink signal; andthe remote transmission unit for guiding the downlink common signal received from a master unit to the remote downlink splitter. 12. The remote unit according to claim 11, wherein the remote modem is configured for a QAM or FSK modulation/demodulation. 13. The remote unit according to claim 11, further comprising a plurality of frequency mixers connectable to the reference frequency receiver through the frequency generator, which in a downlink direction are assigned to respectively one of a plurality of signal lines from the remote downlink splitter and in an uplink direction are assigned to respectively one of the plurality of signal lines in the remote uplink combiner, wherein the frequency mixers are configured in the uplink direction to convert a plurality of overlapping frequency bands of transmission signals into free intermediate frequency bands and in the downlink direction to convert a plurality of converted intermediate frequency bands. 14. The remote unit according to claim 13, wherein at least one of the frequency mixers is configured in the downlink direction to restore converted intermediate frequency bands into the original frequency bands of converted transmission signals. 15. The remote unit according to claim 13, wherein at least one of the frequency mixers is configured in the uplink direction to convert a number n−1 of n overlapping frequency bands of the transmission signals into free intermediate frequency bands, and wherein one of these overlapping frequency bands is carried out without conversion. 16. The remote unit according to claim 15, wherein the remote unit is configured for the exchange of same-frequency signals of different information content that includes MIMO signals, wherein the frequency mixer for frequency conversion and frequency restoration of the same-frequency signals is assigned to the plurality of signal lines of the same-frequency signals, and wherein the other frequency bands are carried out on their frequency. 17. The remote unit according to claim 11, wherein the remote modem is configured for the transmission of digital baseband data on the uplink common signal. 18. The remote unit according to claim 11, further comprising a plurality of adjustable delay elements for delaying transmission signals. 19. A multiband transmission system comprising at least one master unit according to claim 1 and at least one remote unit, wherein a remote uplink interface and a remote downlink interface of the at least one remote unit are connectable to the master downlink interface and the master uplink interface of the at least one master unit via at least one central signal line. 20. The multiband transmission system according to claim 19, wherein the central signal line is an optical wave guide, to which in the remote unit and in the master unit, respectively, an optoelectrical converter unit for the respective conversion of transmission signals is assigned.
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