Doc.: IEEE 802.11-990/082 Submission March 1999 Jamshid Khun-Jush, EricssonSlide 1 Linkage of RF Generation and Time- base Clocking Jamshid Khun-Jush Ericsson.

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doc.: IEEE /082 Submission March 1999 Jamshid Khun-Jush, EricssonSlide 1 Linkage of RF Generation and Time- base Clocking Jamshid Khun-Jush Ericsson Eurolab - Nürnberg Co-ordinator of HIPERLAN-2 Standard Area & Chair of Physical Layer Technical Specification Group

doc.: IEEE /082 Submission March 1999 Jamshid Khun-Jush, EricssonSlide 2 Non-linked Sources Worst case drift between carrier frequency source and timing clock source 40 ppm Tolerable phase shift for 16QAM (4*17 o + 8*22,5 o + 4*45 o )/16 = o Tolerable time shift Let the numbering of subcarriers be from -32 to 31 A sampling time shift (50 ns) corresponds to 26/32*180 o phase shift o tolerable phase shift results in a tolerable time shift (50ns*26.75 o *32)/(26*180 o ) = 9.15 ns Maximum burst length 9.15ns/40ppm = 229 us corresponding to 57 OFDM symbol êIt is too short and necessitates the use a (very) fast closed loop for tracking of symbol timing.

doc.: IEEE /082 Submission March 1999 Jamshid Khun-Jush, EricssonSlide 3 Linked Source Assuming a frequency acquisition accuracy in the order 2% of sub-carrier spacing With a max. frequency error 20ppm*5GHz, the 2%*(20MHz/64) frequency error after fine frequency acquisition corresponds to ê1.25 ppm frequency error which allows a much longer max. burst length and makes the use of a very slow closed loop for tracking of symbol timing possible êConclusion: The linkage of clocks enables a reduced complexity receiver implementation