System and method for selecting sample streams in direct sequence spread spectrum communications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-001/707
H04B-007/216
H04B-007/204
출원번호
US-0684886
(2000-10-06)
발명자
/ 주소
McDonough,John G.
출원인 / 주소
Texas Instruments Incorporated
인용정보
피인용 횟수 :
3인용 특허 :
20
초록▼
A RAKE receiver with demodulating fingers is presented having the capability to assign a specific sample stream, from among a plurality of received sample streams, to any of the demodulating fingers. The demodulating finger includes a MUX to receive the plurality of sample streams. Commands from a
A RAKE receiver with demodulating fingers is presented having the capability to assign a specific sample stream, from among a plurality of received sample streams, to any of the demodulating fingers. The demodulating finger includes a MUX to receive the plurality of sample streams. Commands from a controller to the MUX of a demodulating finger select a specific sample stream to be demodulated by that demodulating finger. Since each demodulating finger receives all the sample streams, and any sample stream can be selected, the receiver has the flexibility of optimally varying the assignment of demodulating fingers to sample streams. A method for selecting a sample stream for demodulation, from among a plurality of sample streams, is also provided.
대표청구항▼
The invention claimed is: 1. In a direct sequence spread spectrum (DSSS) communications receiver, a system for demodulating information channels in a plurality of sample streams, the system comprising: a controller having an output to select a sample stream; and a plurality of demodulating fingers,
The invention claimed is: 1. In a direct sequence spread spectrum (DSSS) communications receiver, a system for demodulating information channels in a plurality of sample streams, the system comprising: a controller having an output to select a sample stream; and a plurality of demodulating fingers, each demodulating finger having sample stream inputs to accept the plurality of sample streams, a selection input connected to the controller output to accept sample stream selection commands, and each demodulating finger demodulating information channels to provide soft symbols from the selected sample stream at a soft symbol output; wherein each demodulating finger includes a multiplexer having a plurality of inputs connected to the demodulating finger sample stream inputs to accept the plurality of sample streams, a select input connected to the demodulating finger selection input to accept the sample stream selection commands, and an output to provide the selected sample stream. 2. The system of claim 1 wherein each demodulating finger further includes: a plurality of finger channels, wherein each finger channel includes a sample stream input coupled to the multiplexer output to accept the selected sample stream, a code input to accept an uncovering code, each finger channel demodulating an information channel in the selected sample stream in response to the accepted uncovering code to provide soft symbols at a soft symbol output connected to the demodulating finger soft symbol output. 3. The system of claim 2 further comprising: a code generator having an output to provide uncovering codes; and wherein each demodulating finger further includes a code input connected to the code generator output to accept uncovering codes; and wherein the code input of each finger channel is connected to the demodulating finger code input to accept uncovering codes. 4. The system of claim 1 in which the plurality of sample streams are converted from a plurality of accepted carriers; and wherein each demodulating finger accepts the plurality of sample streams converted from the plurality of carriers. 5. The system of claim 4 wherein the controller selects a sample stream for each of the demodulating fingers from the plurality of sample streams. 6. The system of claim 5 in which three sample streams are respectively converted from a first, second, and third carrier; wherein the controller assigns a first sample stream, from the first carrier, to a first demodulating finger from the plurality of demodulating fingers; wherein the controller assigns a second sample stream, from the second carrier, to a second demodulating finger from the plurality of demodulating fingers; and wherein the controller assigns a third sample stream, from the third carrier, to a third demodulating finger from the plurality of demodulating fingers. 7. The system of claim 5 in which three sample streams are respectively converted from a first, second, and third carrier; wherein the controller assigns a first sample stream, from the first carrier, to a first demodulating finger from the plurality of demodulating fingers; and wherein the controller assigns the first sample stream, from the first carrier, to a second demodulating finger from the plurality of demodulating fingers. 8. The system of claim 7 wherein the controller assigns the first sample stream, from the first carrier, to a third demodulating finger from the plurality of demodulating fingers. 9. The system of claim 1 in which a first carrier is received with at least a first and second multipath delay, and in which the first carrier first and second multipath delays are converted into a first sample stream with at least a first and second delay; wherein the controller assigns the first sample stream first delay to a first demodulating finger from the plurality of demodulating fingers; and wherein the controller assigns the first sample stream second delay to a second demodulating finger from the plurality of demodulating fingers. 10. In a direct sequence spread spectrum (DSSS) communications receiver, a demodulating finger for demodulating information channels in a plurality of sample streams, the demodulating finger comprising: sample stream inputs to accept the plurality of sample streams; a selection input to accept sample stream selection commands; a multiplexer having a first input connected to the demodulating finger sample stream inputs to accept the plurality of sample streams, a second input connected to the demodulating finger selection input to accept the sample stream selection commands, and an output to provide the selected sample stream; and a soft symbol output to provide soft symbols from demodulated information channels in a selected sample stream. 11. The demodulating finger of claim 10 further comprising: a plurality of finger channels, wherein each finger channel includes a sample stream input coupled to the multiplexer output to accept the selected sample stream, a code input to accept an uncovering code, each finger channel demodulating an information channel in the selected sample stream in response to the accepted uncovering code to provide soft symbols at a soft symbol output connected to the demodulating finger soft symbol output. 12. The demodulating finger of claim 11 wherein each demodulating finger further includes: a code input to accept a plurality of uncovering codes; and wherein the code input of each finger channel is connected to the demodulating finger code input to accept an uncovering code. 13. The demodulating finger of claim 10 in which the plurality of sample streams correspond to a plurality of converted carriers; and wherein the demodulating finger accepts the plurality of sample streams converted from the plurality of carriers. 14. The demodulating finger of claim 13 in which a first, second, and third sample stream are respectively converted from a first, second, and third carrier; wherein the demodulating finger accepts the sample stream selection commands for the selection of a sample stream from the group including first, second, and third sample streams.
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