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May 2009 Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Power and Spectrum Efficient PHY Proposal for.

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Presentation on theme: "May 2009 Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Power and Spectrum Efficient PHY Proposal for."— Presentation transcript:

1 May 2009 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Power and Spectrum Efficient PHY Proposal for g] Date Submitted: [ 01 May, 2009] Source: [Khanh Tuan Le] Company [Texas Instruments] [Per Torstein Roine] Company [Texas Instruments] Address [Gaustadalleen 21, 0349 Oslo, Norway] Voice: [ ], Re: [] Abstract: [Power and spectrum efficient PHY proposal based on GFSK for g. Definition of multiple channels to support FHSS and Adaptive Frequency Agility.] Purpose: [Technical proposal. Presented to the g SUN Task Group for consideration.] Notice: This document has been prepared to assist the IEEE P It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release: The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P Khanh Tuan Le (TI)

2 Power and Spectrum Efficient PHY Proposal for 802.15.4g
May 2009 Power and Spectrum Efficient PHY Proposal for g IEEE 802 Interim Meeting 12th May 2009, Montreal Khanh Tuan Le Khanh Tuan Le (TI)

3 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Introduction This proposal is based upon the preliminary proposal as submitted in the document IEEE g “Preliminary Proposal for a Multi-Regional Sub-GHz PHY for g” Focus on user requirements, available frequency spectrum and applicable regulations for systems operating in the license exempt frequency bands Khanh Tuan Le (TI) <author>, <company>

4 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Proposal Structure Common Baseline Modulation Format, Channel Spacing and Data Rates Forward Error Correction (FEC), Data Whitening and Packet Format Regional Regulations and Channelization Khanh Tuan Le (TI) <author>, <company>

5 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Technical Baseline Modulation Format Channel Spacing Data Rates Data rates: 100 kbps (default): 2-GFSK, BT=0.5, modulation index 0.9 50 kbps : 2-GFSK, BT=0.5, modulation index TBD 200 kbps: 4-GFSK, BT=0.5, modulation index 0.3 Channel Separation: 250 kHz Multiple channels Frequency Hopping Spread Spectrum (FHSS) Adaptive Frequency Agility (AFA) with Listen Before Talk (LBT) Flexible trade-off between communication range and data rate Khanh Tuan Le (TI) <author>, <company>

6 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Gaussian Frequency Shift Keying (GFSK) Modulation Format Channel Spacing Data Rates Constant amplitude modulation FSK family Use of power efficient transmitter architectures and circuitry Gaussian shaping improves spectral efficiency. GFSK can be efficiently implemented on silicon radios and is widely used today 2-GFSK (1 bit/symbol) / 4-GFSK (2 bit/symbol) Khanh Tuan Le (TI) <author>, <company>

7 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Frequency Hopping Spread Spectrum (FHSS) Modulation Format Channel Spacing Data Rates Well known and proven technique Required by some regional regulations (e.g. in the USA) for high transmit power levels Widely used in the USA Limited use in Europe because frequency hopping does not enable higher transmit power. Duty cycle or LBT also apply for FH systems. Can be used for co-existence of multiple networks Can enable high aggregate throughput Inherent frequency diversity mechanism Required performance to facilitate frequency hopping is efficiently supported by semiconductor radio devices today Khanh Tuan Le (TI) <author>, <company>

8 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Simple Low Overhead FEC FEC Packet Format Whitening As support for very long packets is mandatory, a simple low-overhead FEC should be defined for optional use to improve the packet error rate Proposal: (128,120,4) extended Hamming code SECDED: Corrects single bit, detect double bit errors Double bit error detection does not improve PER, but is useful for early receive termination when packet is corrupted Can also be viewed and implemented as (127,120,3) BCH, extended by an extra parity bit Generator polynomials: x7+x3+1 (BCH) and x+1 (extra parity) After 15 octets of PHY data, one octet containing parity check bits (PCB) is inserted Khanh Tuan Le (TI) <author>, <company>

9 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Packet Format FEC Packet Format Whitening Khanh Tuan Le (TI) <author>, <company>

10 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Data Whitening (Optional) FEC Packet Format Whitening Whitening is done after FEC octet insertion Same LFSR polynomial is used for whitening all the time The whitening LFSR is initialized to an unique value based on the channel number (and data rate) used for the packet This would enable retransmissions on the following channels to use different whitening for protection from packet data with poor whitening performance Data whitening should be optional Khanh Tuan Le (TI) <author>, <company>

11 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Background Modulation Format Channel Spacing Data Rates Focus on low system power consumption Low power reception and listening High transmit power efficiency Battery operation possible (low average and peak current) Spectral (and spectrum) efficiency increasingly more important Larger and more advanced networks require higher (peak) and scalable data rates Proven technology Reliable networks using FSK and GFSK today Multi channel support Semiconductor technology requirements Power optimized and cost efficient system solutions Flexibility Khanh Tuan Le (TI) <author>, <company>

12 Transmitter Architectures Modulation Format Channel Spacing Data Rates
May 2009 Transmitter Architectures Modulation Format Channel Spacing Data Rates Khanh Tuan Le (TI)

13 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 MHz ISM Band in Europe Regional Regulations Channelization MHz ERC/REC (Feb-2009) Khanh Tuan Le (TI) <author>, <company>

14 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Channel Plan Regional Regulations Channelization MHz Frequency Band: MHz Frequency sub-bands and allowed max output power: MHz (600 kHz): 25 mW / +14 dBm MHz (500 kHz): 25 mW / +14 dBm MHz (250 kHz): 500 mW / +27 dBm Sub-band channel separation: 250 kHz Number of channels: 5 Channel center frequencies: MHz and MHz MHz and MHz MHz Enable Adaptive Frequency Agility (AFA) with Listen-Before-Talk (LBT) Khanh Tuan Le (TI) <author>, <company>

15 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Channel Plan Illustration Regional Regulations Channelization MHz Center Freq Max Output Power MHz 25 mW (+14 dBm) MHz MHz MHz MHz 500 mW (+27 dBm) Khanh Tuan Le (TI) <author>, <company>

16 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Transmitter Requirements Regional Regulations Channelization MHz Absolute minimum requirements regulated by the EN * standard Maximum output power Transient power Adjacent Channel Power (ACP) Spurious Emissions Application requirements Minimum output power at maximum setting IEEE : ”... capable of transmitting at least –3 dBm” * Draft ETSI EN V2.3.1 ( ) Khanh Tuan Le (TI) <author>, <company>

17 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Receiver Requirements Regional Regulations Channelization MHz Absolute minimum requirements regulated by the EN standard Receiver Category 2 Sensitivity Maximum usable sensitivity Adjacent Channel Selectivity Not specified by EN for Category 2 receivers Blocking or desensitization Saturation Intermodulation rejection Application requirements IEEE : -92/-85 dBm or better Khanh Tuan Le (TI) <author>, <company>

18 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 MHz ISM Band in The USA Regional Regulations Channelization MHz Frequency band: MHz FCC Part Utilization of the whole 26 MHz band Max output power: 1 W (+30 dBm) or 500 mW (+27 dBm) Dynamic power control Frequency Hopping Spread Spectrum (FHSS) Khanh Tuan Le (TI) <author>, <company>

19 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 MHz ISM Band in The USA Regional Regulations Channelization MHz # Channels Channel Spacing [kHz] Modulation Data Rate [kbps] Max Output Power [dBm] 100 (2 x 50) 250 2-GFSK 50 +30 100 4-GFSK 200 Can facilitate max +30 dBm output power if needed. Multiple sets of (offset) channels could be defined to support at least two networks in the same area The main coexistence mechanism would still be the use of different hopping sequences Although networks share the same frequency range, coexistence is improved by good far-away selectivity, as the networks have a high probability of large frequency spacing at any given moment in time Multipath fading mitigation and coexistence with other networks are maximized utilizing the entire frequency band Khanh Tuan Le (TI) <author>, <company>

20 Regional Regulations Channelization 902-928 MHz
May 2009 Channel Plan for MHz Regional Regulations Channelization MHz Guard band (500 kHz) on each side Multiple co-existing networks possible Khanh Tuan Le (TI)

21 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Co-existence of Multiple FH Networks Regional Regulations Channelization MHz Khanh Tuan Le (TI) <author>, <company>

22 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 MHz ISM Band in China Regional Regulations Channelization MHz This proposal is presented as a possible technical solution. The suitability of this frequency band for SUN applications needs to be confirmed and aligned with the appropriate Chinese standardization bodies. The Chinese Short Range Device Regulations Frequency band: MHz Utilization of the whole 40 MHz band Max output power: 50 mW (+17 dBm) Dynamic power control Frequency Hopping Spread Spectrum (FHSS) Khanh Tuan Le (TI) <author>, <company>

23 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 MHz ISM Band in China Regional Regulations Channelization MHz # Channels Channel Spacing [kHz] Modulation Data Rate [kbps] Max Output Power [dBm] 150 (3 x 50) 250 2-GFSK 50 +17 100 4-GFSK 200 Multiple sets of (offset) channels could be defined to support several co-existing networks in the same area The main coexistence mechanism would still be the use of different hopping sequences Although networks share the same frequency range, coexistence is improved by good far-away selectivity, as the networks have a high probability of large frequency spacing at any given moment in time Multipath fading mitigation and coexistence with other networks are maximized utilizing the entire frequency band Khanh Tuan Le (TI) <author>, <company>

24 Regional Regulations Channelization 470-510 MHz
May 2009 Channel Plan for MHz Regional Regulations Channelization MHz Guard band (1.25 MHz) on each side Multiple co-existing networks possible Khanh Tuan Le (TI)

25 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 2.4 GHz ISM Band Regional Regulations Channelization 2.4 GHz The proposed technical baseline can also be used at the 2.4 GHz ISM band More channels available Frequency Hopping Spread Spectrum (FHSS) Max output power regulated by regional regulatory requirements Relative low data rate might be preferred to maximize achievable range Khanh Tuan Le (TI) <author>, <company>

26 doc.: IEEE 802.15-<doc#>
<month year> doc.: IEEE <doc#> May 2009 Thank you! Khanh Tuan Le (TI) <author>, <company>


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