초록 ▼

In a RAKE receiver capable of detecting and combining a plurality of multipath signals, a controller for managing the assignment of the plurality of multipath signals to fingers of the RAKE receiver. The controller determines a phase difference between a selected multipath signal and a first multipa

In a RAKE receiver capable of detecting and combining a plurality of multipath signals, a controller for managing the assignment of the plurality of multipath signals to fingers of the RAKE receiver. The controller determines a phase difference between a selected multipath signal and a first multipath signal assigned to a first finger of the RAKE receiver and does not assign the selected multipath signal to a second finger of the RAKE receiver unless the phase difference is greater than one-half chip. If the phase difference is less that one-half chip, the controller assigns the stronger of the selected multipath signal and the first multipath signal to the first finger of the RAKE receiver. If the finger power falls below a certain threshold, the finger internal states (viz. channel estimate and delay estimate) are maintained while the output of the finger is not processed. If the finger power exceeds the threshold anytime within a specified time interval, the normal activities of the finger are restored. If the power remains lower than the threshold for that time period, the finger is deactivated.

대표청구항 ▼

What is claimed is: 1. A controller in a RAKE receiver that detects and combines a plurality of multipath signals, said controller comprising: a data processor and a memory associated with said data processor wherein said data processor of said controller executes computer software instructions con

What is claimed is: 1. A controller in a RAKE receiver that detects and combines a plurality of multipath signals, said controller comprising: a data processor and a memory associated with said data processor wherein said data processor of said controller executes computer software instructions contained within said memory to cause said controller to manage an assignment of said plurality of multipath signals to fingers of said RAKE receiver, wherein said controller determines a phase difference between a selected multipath signal and a first multipath signal assigned to a first finger of said RAKE receiver, and wherein said controller does not assign said selected multipath signal to a second finger of said RAKE receiver unless said phase difference is greater than one-half chip. 2. The controller as set forth in claim 1 wherein said controller does not assign said selected multipath signal to said second finger of said RAKE receiver unless said phase difference is at least one chip. 3. The controller as set forth in claim 1 wherein said controller, in response to a determination that said phase difference is less than one-half chip, assigns a stronger of said selected multipath signal and said first multipath signal to said first finger of said RAKE receiver. 4. The controller as set forth in claim 1 wherein said controller determines if a multipath signal is assigned to each finger of said RAKE receiver and, in response to a determination that no unassigned fingers are available, said controller determines a signal power of each of the multipath signals assigned to said fingers of said RAKE receiver and identifies a third finger having a weakest multipath signal assigned thereto. 5. The controller as set forth in claim 4 wherein said controller determines if a signal power of said selected multipath signal exceeds the signal power of said weakest multipath signal by at least a hysteresis threshold value. 6. The controller as set forth in claim 5 wherein said controller, in response to a determination that said signal power of said selected multipath signal exceeds the signal power of said weakest multipath signal by at least said hysteresis threshold value, assigns said selected multipath signal to said third finger. 7. The controller as set forth in claim 1 wherein said controller determines if a signal power of an assigned multipath signal assigned to a third finger of said RAKE receiver is less than a fade threshold value. 8. The controller as set forth in claim 7 wherein said controller, in response to a determination that said signal power of said assigned multipath signal is less than said fade threshold value, determines a time duration during which said assigned multipath signal has been less than said fade threshold value. 9. The controller as set forth in claim 8 wherein said controller, in response to a determination that said time duration exceeds a maximum fade duration value, deassigns said assigned multipath signal from said third finger. 10. A RAKE receiver comprising: a radio frequency (RF) front-end that receives an incoming RF signal and down-converts and digitizes said RF signal to a baseband or intermediate signal comprising a sequence of digital samples; a plurality of fingers, each of said fingers configured to process one of a plurality of multipath signals associated with said sequence of digital samples to thereby produce a correlated output; and a controller for managing an assignment of said plurality of multipath signals to said fingers of said RAKE receiver, wherein said controller determines a phase difference between a selected multipath signal and a first multipath signal assigned to a first finger of said RAKE receiver, and wherein said controller does not assign said selected multipath signal to a second finger of said RAKE receiver unless said phase difference is greater than one-half chip. 11. The RAKE receiver as set forth in claim 10 wherein said controller does not assign said selected multipath signal to said second finger of said RAKE receiver unless said phase difference is at least one chip. 12. The RAKE receiver as set forth in claim 10 wherein said controller, in response to a determination that said phase difference is less than one-half chip, assigns a stronger of said selected multipath signal and said first multipath signal to said first finger of said RAKE receiver. 13. The RAKE receiver as set forth in claim 10 wherein said controller determines if a multipath signal is assigned to each finger of said RAKE receiver and, in response to a determination that no unassigned fingers are available, said controller determines a signal power of each of the multipath signals assigned to said fingers of said RAKE receiver and identifies a third finger having a weakest multipath signal assigned thereto. 14. The RAKE receiver as set forth in claim 13 wherein said controller determines if a signal power of said selected multipath signal exceeds the signal power of said weakest multipath signal by at least a hysteresis threshold value. 15. The RAKE receiver as set forth in claim 14 wherein said controller, in response to a determination that said signal power of said selected multipath signal exceeds the signal power of said weakest multipath signal by at least said hysteresis threshold value, assigns said selected multipath signal to said third finger. 16. The RAKE receiver as set forth in claim 10 wherein said controller determines if a signal power of an assigned multipath signal assigned to a third finger of said RAKE receiver is less than a fade threshold value. 17. The RAKE receiver as set forth in claim 16 wherein said controller, in response to a determination that said signal power of said assigned multipath signal is less than said fade threshold value, determines a time duration during which said assigned multipath signal has been less than said fade threshold value. 18. The RAKE receiver as set forth in claim 17 wherein said controller, in response to a determination that said time duration exceeds a maximum fade duration value, deassigns said assigned multipath signal from said third finger. 19. For a RAKE receiver that detects and combines a plurality of multipath signals, a method for managing an assignment of the plurality of multipath signals to fingers of the RAKE receiver, the method comprising the steps of: determining a phase difference between a selected multipath signal and a first multipath signal assigned to a first finger of the RAKE receiver; determining if the phase difference is greater than one-half chip; and in response to a determination that the phase difference is not greater than one-half chip, not assigning the selected multipath signal to a second finger of the RAKE receiver. 20. The method as set forth in claim 19 further comprising the step of not assigning the selected multipath signal to the second finger of the RAKE receiver unless the phase difference is at least one chip. 21. The method as set forth in claim 19 further comprising the step, in response to a determination that the phase difference is less than one-half chip, of assigning a stronger of the selected multipath signal and the first multipath signal to the first finger of the RAKE receiver. 22. The method as set forth in claim 19 further comprising the steps of: determining if a multipath signal is assigned to each finger of the RAKE receiver; in response to a determination that no unassigned fingers are available, determining a signal power of each of the multipath signals assigned to the fingers of the RAKE receiver; and identifying a third finger having a weakest multipath signal assigned thereto. 23. The method as set forth in claim 22 further comprising the step of determining if a signal power of the selected multipath signal exceeds the signal power of the weakest multipath signal by at least a hysteresis threshold value. 24. The method as set forth in claim 23 further comprising the step, in response to a determination that the signal power of the selected multipath signal exceeds the signal power of the weakest multipath signal by at least the hysteresis threshold value, of assigning the selected multipath signal to the third finger. 25. The method as set forth in claim 19 further comprising the step of determining if a signal power of an assigned multipath signal assigned to a third finger of the RAKE receiver is less than a fade threshold value. 26. The method as set forth in claim 25 further comprising the step, in response to a determination that the signal power of the assigned multipath signal is less than the fade threshold value, of determining a time duration during which the assigned multipath signal has been less than the fade threshold value. 27. The method as set forth in claim 26 further comprising the step, in response to a determination that the time duration exceeds a maximum fade duration value, of deassigning the assigned multipath signal from the third finger.