Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

1. Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Response to SG3c CFA – Proposed PHY Layer] Date Submitted: [July 15, 2004] Source: [Abbie Mathew] Company [Newlans, Inc.] Address [238 Littleton Road, Westford, MA 01886, USA] Voice:[617-283-1363], E-Mail:[amathew@newlans.com] Re: [Doc. 04/240r2 IEEE P802.15.SG3c Call for Applications] Abstract:[Proposed Market Drivers] Purpose: [Use as one of the sets of criteria for establishing the Alternative PHY standard for IEEE 802.15.SG3c] Notice: This document has been prepared to assist the IEEE P802.15. 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 P802.15. Abbie Mathew, Newlans

2. Selected Literature Survey .. Continued .. Abbie Mathew, Newlans

3. Selected Literature Survey Abbie Mathew, Newlans

4. Effects of Linear Polarization Horizontal Polarization Vertical Polarization Abbie Mathew, Newlans

5. Effects of Circular Polarization Abbie Mathew, Newlans

6. Frequency Allocation & Data Rate • 1 GHz wide channel • Initially offer 1 Gbps/channel • Migrate to 2 Gbps/channel • Channel space TBD • Four channels in US band plan • Four channels in Japanese band plan Abbie Mathew, Newlans

7. Duplexing Scheme • More available channels • Supports symmetric and asymmetric traffic • Enables prioritization of stations/subscribers and traffic • Highly effectively for busty traffic as well as voice • Enables advanced technologies such as mesh and adaptive antennas • Proven technology TDD Abbie Mathew, Newlans

8. 802.15.3 Traffic Types Important that we identify emerging applications and traffic types in 2006 – 2011 time frame Abbie Mathew, Newlans

9. Typical Spec For Residential Ethernet Source: Residential Ethernet, IEEE802.3 Call For Interest at IEEE Portland Plenary, July 13 ‘04 Abbie Mathew, Newlans

10. FCC Rules • Average power density ≤ 9 μW/cm2 at 3 m • Peak power density ≤ 18 μW/cm2 at 3 m • Total peak transmitter output power cannot exceed 500 mW (+27 dBm) • Spur emission specifications • 960 MHz to 40 GHz: 50 μV/m at 3 meters • 40 GHz to 57 GHz: 90 pW/cm2 at 3 meters • 64 GHz to 200 GHz: 90 pW/cm2 at 3 meters Abbie Mathew, Newlans

11. FCC Rules • Power density ≤ 1 mW/cm2 on the general population for 30 minutes averaging • Transmitter Identification • Within any one second interval of transmission, a transmitter with a peak output power equal to or greater than 0.1 mW or a peak power density equal to or greater than 3 nW/cm2 at 3 meters, must transmit a transmitter identification at least once • FCC Identifier • Manufacturer’s serial number • 24 bytes field programmable data (information to assist contacting the operator) Abbie Mathew, Newlans