May 2015 Submission doc.: 05-15-1082-04-00aj Shiwen He, Haiming Wang PPDU Format for IEEE 802.11aj (45GHz) Authors/contributors: Date: 2015-05-19 Presenter:

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May 2015 Submission doc.: aj Shiwen He, Haiming Wang PPDU Format for IEEE aj (45GHz) Authors/contributors: Date: Presenter: Shiwen HE Slide 1

May 2015 Submission doc.: aj Shiwen He, Haiming Wang Abstract This presentation describes the PPDU format for IEEE aj (45GHz) Control PHY. This presentation describes the PPDU format for IEEE aj (45GHz) SC/OFDM PHY. Slide 2

May 2015 Submission doc.: aj Shiwen He, Haiming Wang Control PHY PPDU Format The control PHY frame is composed of the QMG control PHY STF, QMG control PHY CEF, QMG control PHY SIG, QMG control PHY Data field, and possibly AGC and TRN-R/T subfields. The QMG Control PHY Short Training field (STF) is composed of a series repetitions of the sequence ZCZ of length 256. The QMG Control PHY Channel Estimation field (CEF) is illustrated in Figure 1 for 540 MHz channel. Figure 1 Format of Control PHY PPDU Slide 3 Figure 1 CEF for QMG Control PHY 540 MHz Channel Bandwidth

May 2015 Submission doc.: aj Shiwen He, Haiming Wang SC PPDU Format A SC PPDU frame is composed of the QMG SC PHY STF, the QMG SC PHY CEF, the QMG SC PHY SIG field, the optional QMG SC PHY SCTF, the SC data block and the optional training fields The QMG SC PHY Short Training field (STF) is composed of a series repetitions of the sequence ZCZ of length 256. The QMG SC PHY Channel Estimation field (CEF) is illustrated in Figure 4 and Figure 5 for 540 MHz channel bandwidth and 1080 MHz channel bandwidth, respectively. The optional training fields may be used for Beam-forming of SC Figure 3 Format of SC PPDU Slide 4 Figure 4 CEF for QMG SC PHY 540 MHz Channel Bandwidth Figure 5 CEF for QMG SC PHY 1080 MHz Channel Bandwidth

May 2015 Submission doc.: aj Shiwen He, Haiming Wang SC PPDU Format A SC PPDU frame is composed of the QMG SC PHY STF, the QMG SC PHY CEF, the QMG SC PHY SIG field, the optional QMG SC PHY SCTF, the SC data block and the optional training fields Note: All fields are transmitted with SC transmission. For 1080MHz SC transmission, the STF fields, the CEF fields and the SIG fields are transmitted with duplicated style. In this situation the mask of the spectrum is illustrated in Figure 6. Figure 3 Format of SC PPDU Slide 5 Figure 6 Spectrum mask in duplicated transmission for 1080 MHz Channel Bandwidth

May 2015 Submission doc.: aj Shiwen He, Haiming Wang SC PPDU Format A SC PPDU frame is composed of the QMG SC PHY STF, the QMG SC PHY CEF, the QMG SC PHY SIG field, the optional QMG SC PHY SCTF, the SC data block and the optional training fields The QMG SC PHY SCTF is composed of 2 repetitions of the sequence ZCZ 512 (n) of length 512 with a 128 CP. The QMG SC PHY SCTF is only used for 1080MHz SC transmission. In this situation the mask of the spectrum is illustrated in Figure 7. Figure 3 Format of SC PPDU Slide 6 Figure 7 Spectrum mask in QMG PHY SCTF transmission for 1080 MHz Channel Bandwidth

May 2015 Submission doc.: aj Shiwen He, Haiming Wang OFDM PPDU Format A MIMO OFDM PPDU frame is composed of the OFDM PHY STF fields, the OFDM PHY CEF field, the QMG OFDM PHY SIG field, the OFDM Long Training Field (MCTF), OFDM symbols and the optional training fields The QMG OFDM PHY Short Training field (STF) is composed of a series repetitions of the ZCZ sequence of length 256. The QMG OFDM PHY Channel Estimation field (CEF) is illustrated in Figure 9 and Figure 10 for 540 MHz channel bandwidth and 1080 MHz channel bandwidth, respectively. The optional training fields may be used for Beam-forming of OFDM Figure 8 Format of OFDM PPDU Slide 7 Figure 9 CEF for QMG OFDM PHY 540 MHz Channel Bandwidth Figure 10 CEF for QMG OFDM PHY 1080 MHz Channel Bandwidth

May 2015 Submission doc.: aj Shiwen He, Haiming Wang Thanks for your attention. Slide 8