Multiplex communications – Channel assignment techniques – Adaptive selection of channel assignment technique
Reexamination Certificate
2000-06-28
2004-07-06
Sam, Phirin (Department: 2661)
Multiplex communications
Channel assignment techniques
Adaptive selection of channel assignment technique
C370S343000
Reexamination Certificate
active
06760342
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to a channelizer for a multi-carrier receiver and, more particularly, to a channelizer for a multi-carrier receiver that employs an array of digital sub-band tuners, FFTs, an array of quadrature mirror filters, or a filter tree.
2. Discussion of the Related Art
Wireless telecommunications systems, particularly cellular telephone communications systems, employ strategically placed base stations having transceivers that receive and transmit signals over a particular carrier frequency band to provide wireless communications between two parties. Depending on the particular area, each base station will include a certain number of receivers that receive the signals, and provide digital signal processing so that the signal is transmitted to the desired destination. Each receiver scans the frequency band of interest until it locks onto a signal in that band. The frequency band is usually at about 800 MHz and higher with a bandwidth of 200 KHz or more. An example with a bandwidth of 75 MHz centered at about 1750 MHz will be used in this description.
A typical receiver for this application will include an antenna that receives the signals and a duplexer that limits the received signals to the desirable carrier frequency range in which the signals are transmitted. The frequency band limited signal received by the antenna is then applied to a low noise amplifier (LNA) where it is amplified to an amplitude suitable for subsequent processing. The band limited and amplified signal is then applied to a frequency down-converter that mixes the received signal with a local oscillator (LO) signal to generate a lower intermediate frequency (IF) signal that can be readily processed by the DSP devices. A bandpass filter (BPF) is typically employed in the frequency down-converter to limit the IF signal to the particular frequency band of the received signal. The filtered IF signal is then applied to an analog-to-digital converter (ADC) that converts the IF signal to a representative digital signal that is then processed by the DSP devices. The receiver may be designed to process signals for many protocols and standards, including time division multiple access (TDMA), code division multiple access (CDMA), enhanced data rate for global evolution (EDGE), Gaussian minimal shift keying (GMSK), etc., depending on the particular application.
The known receiver described above for wireless telecommunications has only been capable of processing a single signal or a single channel at any given time. Thus, a separate receiver has been required in the base station for each separate signal being processed. Because certain base stations may have to receive and transmit many signals for multiple users simultaneously, these base stations must include enough receivers to satisfy this requirement, or service is lost. Because each receiver includes the various components that perform the signal receiving operation discussed above, high traffic base stations include a large amount of receiver hardware, and thus are costly. As cellular telephone communications increases, base stations will be required to provide more simultaneous access, or more base stations will be required, thus significantly increasing costs in these systems.
What is needed is a wireless telecommunications system receiver that operates over a relatively wide bandwidth, and is capable of processing multiple signals in different frequency bands simultaneously. To process multiple signals simultaneously, the basic components, including the LNA, the frequency down-converter and the ADC, of the receiver need to be redesigned to provide the performance specifications and requirements necessary. Compared to the single channel receiver previously mentioned, the multiple channel receiver must continuously handle a much wider range of frequencies and larger range of power levels. In addition, the multiple channel receiver must be insensitive to potential cross-channel interference. It is therefore an object of the present invention to provide such a receiver having high performance components.
SUMMARY OF THE INVENTION
In accordance with the teachings of the present invention, a channelizer for a multi-carrier receiver is disclosed that includes a plurality of digital sub-band tuners (DSBTs). Each DSBT digitally filters individual carrier data streams from a digital multi-carrier data stream based on a programmable center frequency. Each DSBT further digitally filters the individual carrier data streams based on a programmable bandwidth. The DSBTs can be allocated based on modulation format, center frequency, or both. The channelizer is therefore able to process narrow-band carrier data streams as well as wide-band carrier data streams. One embodiment of the channelizer has a plurality of sub-channelizers and a switch matrix. The sub-channelizers filter sub-sets of carrier data streams from a multi-carrier data stream. The switch matrix is coupled to the sub-channelizers and routes the individual data streams to the sub-channelizers in a desired configuration.
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Skones William M.
Smith Ronald P.
Harness & Dickey & Pierce P.L.C.
Northrop Grumman Corporation
Sam Phirin
LandOfFree
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