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: [An Introduction of ARIB-T69 Standard for mmWave Video Transmission System] Date Submitted: [10 January, 2004] Source: [Kiyoshi Hamaguchi, Yozo Shoji and Hiroyo Ogawa] Company [Communications Research Laboratory] Address [3-4, Hikarino-Oka, Yokosuka, Kanagawa, 234-0051, Japan] Voice:[+81.46.847.5073], FAX: [+81.46.847.5079], E-Mail:[hamaguti@crl.go.jp] Re: [] Abstract: [Description of ARIB standard] Purpose: [Contribution to mmWIG at January 2004 meeting] 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. Hiroyo Ogawa, CRL

2. An Introduction of ARIB-T69 Standard for mmWave Video Transmission System Hiroyo Ogawa, CRL

3. Introduction • To know mmW system’s industry standard in Japan, this material gives you an overview of Association-of-Radio-Industries-and-Businesses (ARIB) T69 Standard, “millimeter-wave video transmission equipment for specified low-power radio station”, for one of examples. • T69 has been issued in December 14th, 2000 Hiroyo Ogawa, CRL

4. What is ARIB? • ARIB: Association of Radio Industries and Businesses • Objective: • - To conduct investigation, research & development and consultation of utilization of radio waves • - To promote realization and popularization of new radio systems in the field of telecommunications and broad-casting • 294 members, 3 supporting members (November 1, 2002) • Reference: http://www.arib.or.jp/english/index.html Hiroyo Ogawa, CRL

5. Organization of Document T69 Chapter 1 General Items 1.1 Overview 1.2 Application scope 1.3 Conformance documents Chapter 2 Standard system 2.1 Configuration of the standard system 2.2 Forms of operation of the standard system Chapter 3 Technical conditions for radio facilities 3.1 General items 3.2 Technical conditions 3.2.1 Transmitting equipment 3.2.2 Receiving equipment 3.2.3 Control equipment 3.2.4 Aerial antennas 3.2.5 Other Chapter 4 Measurement Methods Hiroyo Ogawa, CRL

6. Transmission equipment Chapter 1 -General Items- Input Receiving equipment Output Control equipment Transmission facilities (transmitter) Receiving facilities (receiver) Application scope Fig. 1.1 Configuration of radio facilities for millimeter wave image transmission Hiroyo Ogawa, CRL

7. Service distance About 10 m Transmitter installation height About 2 m (wall-mounted) Receiver installation height About 1.5 m (TV set-top installation, etc.) Antenna adjustment Manual adjustment or remote control electrical adjustment, etc. Form of transmission One-to-one or one-to-many Chapter 2 -Standard Systems- BS receiving antenna Reference example CS receiving antenna Terrestrial broadcasting antenna mmWave (60GHz band) Receiver Transmitter CATV cable TV receiver Fig. 2.1 Configuration diagram for the standard system Hiroyo Ogawa, CRL

8. Multiplexed signal [maximum required bandwidth] I- () I- () II- () II- () III- () III- () IV- () IV- () Terrestrial digital broadcasting signal [300 MHz] O O BS digital / analog broadcasting signal [470 MHz] O O O O CS (110 degree satellite) broadcasting signal [1005 MHz] O O O O CS (120 degree satellite) broadcasting signal [2050 MHz] O O CATV broadcasting signal [700 MHz] O O User band signal (Note 1) [220 MHz] O O O O Local oscillator frequency (Note 2) [≦10 MHz] O O O O O O O O Chapter 3 -Technical conditions for radio facilities- • 8 multiplexing schemes and individual specified frequency bands Table 3.1. Multiplexed signals and schemes Hiroyo Ogawa, CRL

9. Chapter 3 -Multiple Scheme I(a)- Fig. 3.1 Frequency plan for multiplexing scheme I-(a) Hiroyo Ogawa, CRL

10. Chapter 3 -Multiple Scheme I(b)- Fig. 3.2 Frequency plan for multiplexing scheme I-(b) Hiroyo Ogawa, CRL

11. Chapter 3 -Multiple Scheme II(a)- Fig. 3.3 Frequency plan for multiplexing scheme II-(α) Hiroyo Ogawa, CRL

12. Chapter 3 -Multiple Scheme II(b)- Fig. 3.4 Frequency plan for multiplexing scheme II-(b) Hiroyo Ogawa, CRL

13. Chapter 3 -Multiple Scheme III(a)- Fig. 3.5 Frequency plan for multiplexing scheme III-(α) Hiroyo Ogawa, CRL

14. Chapter 3 -Multiple Scheme III(b)- Fig. 3.6 Frequency plan for multiplexing scheme III- (b) Hiroyo Ogawa, CRL

15. Chapter 3 -Multiple Scheme IV(a),IV(b)- Fig. 3.7 Frequency plan for multiplexing scheme IV- (α) Fig. 3.8 Frequency plan for multiplexing scheme IV- (b) Hiroyo Ogawa, CRL

16. Chapter 3 -Technical Requirements- Transmitting equipment - Antenna power (Bulletin, 1989, No. 42) The antenna power (the power that is supplied from the transmitting equipment to the feed wire of the antenna system) shall be 10 mW or less. - Permissible deviation in antenna power(Facilities, Article 14) The permissible antenna power deviation, which is the maximum deviation from the specified or standard antenna power that can be permitted, is 50% higher or 70% lower. - Permissible deviation in frequency(Facilities, Article 5) The permissible frequency deviation (the maximum permissible deviation from the frequency that is assigned to the center frequency of the occupied frequency band) shall be +/-50010-6. - Permitted values of the occupied frequency bandwidth (Bulletin, 1989, No. 51) The permitted value of the occupied frequency bandwidth shall be 2.5 GHz. - Permitted value of the spurious radiation strength (Facilities, Article 7) The permitted value for the strength of spurious radiation, in the case of modulation by the usual modulation schemes, shall be 100 W or more as measured by the mean power. Concerning equipment that possesses the function of transmitting unmodulated carrier waves, evaluation shall be possible by measurement of the unmodulated carrier waves. Hiroyo Ogawa, CRL

17. Chapter 3 -Technical Requirements- Receiving equipment - Limit of secondary emissions, etc. (Facilities, Article 24) Concerning the limit at which secondarily-emitted radio waves do not interfere with the functioning of other radio equipment, when the limit is measured with a dummy antenna circuit that has electrical constants that are equal to those of the receiving antenna, the power of that circuit shall be 100 mW or less. Antennas - Antenna gain (Facilities, Article 49, item 14) The transmitting aerial antenna shall have an absolute gain of 47 dB or less. Other - Enclosure (Facilities, Article 49, item 14) The transmitter shall be accommodated within a single enclosure that cannot be opened easily. However, this restriction shall not apply to the power supply equipment, aerial antenna, power cord and accessory devices. Hiroyo Ogawa, CRL

18. Chapter 4 -Measurement Methods- The measurement methods shall be in accordance with “Characteristics Testing Methods for Equipment Technical Standard Conformance Certification of Radio Equipment,” (established by the Telecommunications Engineering Center). However, concerning items other than those specified here, the generally-used methods shall be applied. Reference Test Items concerning the Technical Standards Conformity Certification of Specified Radio Equipment (Regulations Supplementary Table 3, Examination Methods, etc. (concerning Article 4 and Article 11) ) 1.Transmitting equipment Frequency Occupied frequency bandwidth Spurious radiation strength Aerial antenna power 2. Receiving equipment Limits on secondarily-emitted radio waves, etc. 3. Other equipment Not specified. Hiroyo Ogawa, CRL

19. Conclusions • Main part of ARIB T69 Standard has been described. Hiroyo Ogawa, CRL

20. Backup slide Hiroyo Ogawa, CRL

21. Preface of ARIB Standard • The Association of Radio Industries and Businesses, whose participants include radio equipment manufacturers, telecommunication businesses, broadcasting companies and users, establishes as ‘standards’ the standard specifications and other such basic conditions concerning the radio equipment that are related to various types of systems that employ radio waves. • Standards include national technical standards that are established for the purposes of efficient frequency utilization and prevention of interference between users as well as private-sphere standard specifications that are established for purposes of ensuring the overall product quality, compatibility, etc. of radio equipment, and the convenience of radio equipment manufacturers and users. • The standards described here concern “millimeter wave video transmission equipment for specified low-power radio stations.” In order to ensure fairness and transparency at the stage of establishment, this standard was established through the consensus of the participants of this standards conference. Participants included radio equipment manufacturers, telecommunication businesses, broadcasting companies, testing organizations, users and other such interested parties, who were accepted without discrimination. • It is hoped that this standard will find active use among radio equipment manufacturers, testing organizations, users and other such parties. Hiroyo Ogawa, CRL