WirelessMAN- Advanced T13-001-00 ITRI Specification (2013-09-01) ITRI Proprietary Copyright 2013 ITRI. All Rights Reserved. Note: This Document has been created according to the ITU-R transposition process in document IMT/ADV-24R1 and the authorization given by IEEE to ITRI as a Transposing Organization in Certification B.
Contents Chapter 1 Chapter 2 Chapter 3 Introduction Copyright Notice, Use Restrictions, Disclaimer, and Limitation of Liability General Description 3.1 Overview 3.2 Scope Chapter 4 Specification 4.1 Outline 4.1.2 IEEE Std 802.16.1-2012 4.1.3 IEEE Std 802.16.1a-2013 4.1.4 IEEE Std 802.16.1b-2012 4.2 Detailed Specification 4.2.1 Reference Models 4.2.2 Normative References 4.2.3 Definitions 4.2.4 Abbreviations and acronyms 4.2.5 Packet Convergence Sublayer 4.2.6 Interface 4.2.7 MAC control messages 4.2.8 Test Vectors 4.2.9 Supported Frequency Bands 4.2.10 Radio Specifications 4.2.11 Default capability class and parameters Page 2
Chapter 1 Introduction The ITRI is a scientific, not-for-profit organization that conducts development and industrial promotion of a multitude of technologies including broadband wireless platforms based upon IEEE Standard 802.16. ITRI works closely with operators, academia, and regulators to ensure that ITRI developed systems meet customer and government requirements. This specification is intended for developing interoperable WirelessMAN Advanced broadband wireless access systems. The objective is to provide and promote the commercialization of the WirelessMAN Advanced systems among the manufacturers, operators, academia, and research institutes. Chapter 2 Copyright Notice, Use Restrictions, Disclaimer, and Limitation of Liability Copyright 2013 ITRI. All rights reserved. Except as otherwise provided herein the ITRI owns the copyright in this document and reserves all rights herein. This document is available for download from ITRI and may be duplicated for internal use by the ITRI members, provided that all copies contain all proprietary notices and disclaimers included herein. Other parties may duplicate this document upon express written consent of the ITRI. Except for the foregoing, this document may not be duplicated, in whole or in part, or distributed without the express written authorization of the ITRI. By making this document available for a wide variety of uses, the ITRI does not waive any rights in copyright to this document. Certain information and materials in this document (as identified below) belong to IEEE which owns the copyright in them. The use of such information and materials of IEEE shall be in accordance with the notices, disclaimers and other standards or requirements of use as determined by IEEE. Use of this document is subject to the disclaimers and limitations described below. Use of this document constitutes acceptance of the following terms and conditions: THIS DOCUMENT IS PROVIDED AS IS AND WITHOUT WARRANTY OF ANY KIND. TO THE GREATEST EXTENT PERMITTED BY LAW, ITRI DISCLAIMS ALL EXPRESS, IMPLIED AND STATUTORY WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF TITLE, NONINFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ITRI DOES NOT WARRANT THAT THIS DOCUMENT IS COMPLETE OR WITHOUT ERROR AND DISCLAIMS ANY WARRANTIES TO THE CONTRARY. ITRI has not investigated or made an independent determination regarding title or noninfringement of any technologies that may be incorporated, described or referenced in this document. Use of this document or implementation of any technologies described or referenced herein may therefore infringe undisclosed third-party patent rights or other intellectual property rights. The user is solely responsible for making all assessments relating to title and noninfringement of any technology, standard, or specification referenced in this document and for obtaining appropriate authorization to use such technologies, standards, and specifications, including through the payment of any required license fees. Page 3
NOTHING IN THIS DOCUMENT CREATES ANY WARRANTIES OF TITLE OR NONINFRINGEMENT WITH RESPECT TO ANY TECHNOLOGIES, STANDARDS OR SPECIFICATIONS REFERENCED OR INCORPORATED INTO THIS DOCUMENT. The ITRI reserves the right to modify or amend this document. Chapter 3 General Description 3.1 Overview The GCS is developed by the Institute of Electrical and Electronics Engineers, Inc. 3.2 Scope This specifies the ITRI transposition of GCS. Page 4
Chapter 4 Specifications 4.1 Outline System Global Core Specification is comprised of IEEE 802.16-2016.1,, IEEE Std 802.16.1a-2013, and IEEE Std 802.16.1b-2012. The clauses in the specification are summarized in the following table 4.1. Table 4.1 Clauses IEEE Std 802.16 Clause: Subject IEEE Std 802.16.1-2012 IEEE Std 802.16.1aj-2013 IEEE Std 802.16.1b-2012 Clause 1.4: Reference models Clause 2: Normative references Clause 3: Definitions Base Specification Base Specification Base Specification Amended Amended Clause 4: Abbreviations and acronyms Clause 5.2: Packet Convergence Sublayer Clause 6: WirelessMAN- Advanced Air Interface Annex B: MAC Control Messages Annex C: Test Vectors Annex D: Supported Frequency Bands Annex E: Radio Specifications Annex F: Default Capability Class and parameters Base Specification Base Specification Base Specification Base Specification Base Specification Base Specification Base Specification Base Specification Amended Amended Amended Amended Amended IEEE Std 802.16: Standard for local and metropolitan area networks Air interface for broadband wireless access systems This standard specifies the air interface, including the medium access control layer (MAC) and physical layer (PHY), of combined fixed and mobile point-to-multipoint broadband wireless access (BWA) systems. The MAC is structured to support multiple PHY specifications, each of which is suited to a particular operational environment. Page 5
IEEE Std 802.16 is composed of IEEE Std 802.16.1-2012, IEEE Std 802.16.1a-2013, and IEEE Std 802.16.1b-2012. Page 6
4.1.2 IEEE Std 802.16.1-2012 This standard specifies the air interface, including the medium access control layer (MAC) and physical layer (PHY), of combined fixed and mobile point-to-multipoint broadband wireless access (BWA) systems. The MAC is structured to support multiple PHY specifications, each of which is suited to a particular operational environment. 4.1.3 IEEE Std 802.16.1a-2013 This amendment specifies the air interface, with enhancements designed to meet the requirements of the IMT-Advanced standardization activity. Based upon the WirelessMAN- OFDMA specification of IEEE Std 802.16.1-2012, this amendment provides continuing support for higher reliability networks. 4.1.4 IEEE Std 802.16.1b-2012 This amendment specifies the air interface, with enhancements designed to meet the requirements of the IMT-Advanced standardization activity. Based upon the WirelessMAN- OFDMA specification of IEEE Std 802.16.1-2012, this amendment provides continuing support for Machine-to-Machine Applications. 4.2 Detailed specification Normative Reference: The detailed specification text for the radio interface is provided in Annexes 1, 2, and 3 as referred to in the following subsections. As the text referred to below within the Clauses of Annexes 1, 2, or 3 is unchanged, the reader can download a copy of the GCS text using the hyperlinks. 4.2.1 Reference models Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Clause 1.4 4.2.2 Normative references Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Page 7
Annex 1: IEEE Std 802.16.1-2012, Clause 2 4.2.3 Definitions Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Clause 3 Annex 2: IEEE Std 802.16.1a-2013, Clause 3 Annex 3: IEEE Std 802.16.1b-2012, Clause 3 4.2.4 Abbreviations and acronyms Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Clause 4 Annex 2: IEEE Std 802.16.1a-2013, Clause 4 4.2.5 Packet Convergence Sublayer Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Clause 5.2 4.2.6 Interface Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Clause 6 Annex 2: IEEE Std 802.16.1a-2013, Clause 6 Page 8
Annex 3: IEEE Std 802.16.1b-2012, Clause 6 4.2.7 MAC Control messages Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Annex B Annex 2: IEEE Std 802.16.1a-2013, Annex B Annex 3: IEEE Std 802.16.1b-2012, Annex B, 4.2.8 Test Vectors Informative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Annex C 4.2.9 Supported Frequency Bands The text in this section is a transposition of Annex D in the GCS that provides additional detailed information on supported frequency bands of to reflect regional differences. The purpose of this section is to provide the list of ITRI Release 1 Band Class Groups (BCGs) along with the supported channel bandwidths. In the ITRI Release numbering scheme, ITRI Release 1 reflects the gradual enhancement of the radio performance relates to the fulfillment of IMT-Advanced requirements. Table 1 lists R1 The channel bandwidth sizes, all R 1 BCGs, by default, support 5, 10 and 15 MHz channel bandwidth sizes. Support of other channel bandwidth sizes for R 1 is considered in a case by case basis. Table 1. List of Band Classes Band Class Frequency Range (MHz) Channel Bandwidth Size (MHz) Page 9
Group Uplink Downlink Du ple x Mo de Rel eas e 3. 5 5 7 8 8. 7 5 10 1 5 1.A1 TD D 1.0 Y TD D 1.0 Y Y Y TD D 1.0 Y Y Y 733-748 788-803 TD D 1.0 Y Y Y 930-940 TD D 1.0 Y Y Y 940-950 TD D 1.0 Y Y Y Page 10
950-969 TD D 1.0 Y Y Y 3.C1 TD D 1.0 Y Y Y TD D 1.0 Y Y Y TD D 1.0 Y Y Y 1840-1850 TD D 1.0 Y Y Y Page 11
1850-1865 TD D 1.0 Y Y Y Page 12
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For each Band Class Group, Mobile Stations are required to support operation over entire band as specified by ITRI channel center frequency case-by-case. Base Stations are required to support at least three consecutive channels and only one channel bandwidth size. 4.2.9.1 Radio Frequency (RF) channel arrangement 4.2.10 Radio Specifications The text in this section is a transposition of Annex E in the GCS that provides additional detailed information on generic unwanted emission characteristics of WirelessMAN- Advanced base stations and mobile stations to reflect regional differences. 4.2.10.1 Definitions, Symbols and Acronyms 4.2.10.1.1 Definitions This section uses the following additional definition: Integration Bandwidth: Integration Bandwidth refers to the frequency range over which the emission power is integrated. 4.2.10.1.2 Symbols This section provides the list of symbols used throughout the document along with their descriptions. f f c f cn Δf frequency in MHz unless specified otherwise. center frequency in MHz unless specified otherwise. RF channel center frequency number absolute value of frequency offset of frequency f from the center frequency of the channel ( f c-f ). The offset is in MHz unless specified otherwise. F c center frequency step Page 14
F sta rt start frequency for a specific band, N ra n g e PTx PTx,max range values for the n parameter measured transmit power into antenna in dbm measured maximum transmit power into antenna in dbm RFChannel n center frequency of RF Channel n F UL-le F UL-ue F ue F DL-le F DL-ue Lower edge of uplink portion of the band Upper edge of uplink portion of the band Upper edge of the band (either uplink or downlink whichever larger) Lower edge of downlink portion of the band Upper edge of downlink portion of the band 4.2.10.1.3 Acronyms and abbreviations This section uses the following additional acronyms and abbreviations: ACR BCG ChBW RF Pnom adjacent channel rejection band class group channel bandwidth radio frequency nominal max output power measured at antenna port(s); total for multiple antennas 4.2.10.2 Power Classes The purpose of this section is to specify the Power Class options for ITRI Release 1. 4.2.10.2.1 Mobile Station Table 2 provides the list of Mobile Station Power Classes per Band Class Groups. Band Class Group Power Class 1 Table 2. Mobile Station Power Classes Pnom (dbm) Power Class 2 Pnom (dbm) Power Class 3 Pnom (dbm) Power Class 4 Pnom (dbm) Power Class 5 Pnom (dbm) Page 15
1.A1 Reserved 20 23 26 Reserved 1.A2 Reserved 20 23 26 Reserved 1.A3 Reserved 20 23 26 Reserved 1.A4 Reserved 20 23 26 Reserved 2.B1 Reserved 20 23 26 Reserved 2.B2 Reserved 20 23 26 Reserved 2.B3 Reserved 20 23 26 Reserved 3.C1 Reserved 20 23 26 Reserved 3.C2 Reserved 20 23 26 Reserved 3.C4 Reserved 20 23 26 Reserved 3.C5 Reserved 20 23 26 Reserved Page 16
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4.2.10.3 Radio specifications 4.2.10.3.1 Out of Band and Spurious Emission Regions The default out of band emission, where Channel Spectral Mask specifications is applicable, is the absolute value of ±250% of channel bandwidth size from channel center frequency or lower and upper bound of the target band whichever is smaller. For frequencies beyond out of band region, the Spurious Emission specifications are applicable. 4.2.10.3.1 Mobile Station The purpose of this section is to provide radio specification for Mobile Station. 4.2.10.3.1.1 Default Specifications 4.2.10.3.1.1.1 Default Channel Spectral Mask Unless otherwise specified in other sub sections of Section 0 for specific bands, the spectrum masks of Table 3, Table 4 and Table 6 are applicable. No f, offset from channel center (MHz) Table 3. Channel Mask for 5 MHz Bandwidth Integration Bandwidth (khz) Maximum Allowed Emission Level (dbm/integration Bandwidth) as measured at the antenna port 1 2.5 f < 3.5 50-13 2 3.5 f < 7.5 1000-10 3 7.5 f < 8.5 1000-13 4 8.5 f < 12.5 1000-25 Note: The first measurement position with a 50 khz filter is at f equals to 2.525 MHz; the last is at f equals to 3.475 MHz. The first measurement position with a 1 MHz filter is at f equals to 4.0 MHz; the last is at f equals to 12.0 MHz. No Offset from channel center (MHz) Table 4. Channel Mask for 10 MHz Bandwidth Integration Bandwidth (khz) Maximum Allowed Emission Level (dbm/integration Bandwidth) as measured at the antenna port 1 5 f < 6 100-13 Page 18
2 6 f < 10 1000-10 3 10 f < 15 1000-13 4 15 f < 25 1000-25 Note: The first measurement position with a 100 khz filter is at f equals to 5.050 MHz; the last is at f equals to 5.950 MHz. The first measurement position with a 1 MHz filter is at f equals to 6.5 MHz; the last is at f equals to 24.5 MHz. No Offset from channel center (MHz) Table 5. Channel Mask for 15 MHz Bandwidth Integration Bandwidth (khz) Maximum Allowed Emission Level (dbm/integration Bandwidth) as measured at the antenna port 1 10 f < 11 200-13 2 11 f < 15 1000-10 3 15 f < 30 1000-13 4 30 f < 50 1000-25 Note: The first measurement position with a 100 khz filter is at f equals to 10.050 MHz; the last is at f equals to 10.950 MHz. The first measurement position with a 1 MHz filter is at f equals to 11.5 MHz; the last is at f equals to 49.5 MHz. 4.2.10.3.1.1.2 Default Spurious Emission Unless otherwise specified in sub sections of Section 0 for specific bands, the default spurious emission specifications of Table 6 are applicable. Table 6. Default Spurious Emissions; Relevant to FUL-le +ChBW/2 fc FUL-ue- ChBW/2 No Spurious frequency (f) range Measurement bandwidth Maximum Emission Level (dbm) 1 9 khz f < 150 khz 1 khz -36 2 150 khz f < 30 MHz 10 khz -36 3 30 MHz f < 1000 MHz 100 khz -36 4 1 GHz f < 5 x Fue 30 khz If 2.5xChBW <= f < 10xChBW 300 khz If 10xChBW MHz<= f < 12xChBW 1 MHz If 12xChBW <= f -30 Page 19
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Base Station The purpose of this section is to provide radio specification recommendations for Base Station. The specifications of this section are recommendations only and are not required or intended to be a basis for certification of Base Stations..1 Default Specifications.1.1 Default Channel Spectral Mask The spectrum masks of Table 7 and Table 8 are applicable to all bands and all regions unless specific mask for a band or a region is specified in other relevant sub section of Section. No Offset f from channel center (MHz) Table 7. Channel Mask for 5 MHz Bandwidth Integration Bandwidth (khz) Maximum Allowed Emission Level (dbm/integration Bandwidth) as measured at the antenna port 1 2.5 f <7.5 100-7-7( f-2.55)/5 2 7.5 f 12.5 100-14 Notes: 1. f is the absolute value of separation in MHz between the carrier frequency and the centre of the measuring filter. No 2. The first measurement position with a 100 khz filter is at f equals to 2.550 MHz; the last is at f equals to 12.450 MHz. 3. Integration Bandwidth refers to the frequency range over which the emission power is integrated. Offset f from channel center (MHz) Table 8. Channel Mask for 10 MHz Bandwidth Integration Bandwidth (khz) Maximum Allowed Emission Level (dbm/integration Bandwidth) as measured at the antenna port 1 5 f <10 100-7-7( f-5.05)/5 2 10 f <15 100-14 3 15 f 25 1000-13 Page 22
Notes: No 1. f is the absolute value of separation in MHz between the carrier frequency and the centre of the measuring filter. 2. The first measurement position with a 100 khz filter is at f equals to 5.05 MHz; the last is at f equals to 14.95 MHz. The first measurement position with a 1 MHz filter is at f equals to 15.5 MHz; the last is at f equals to 24.5 MHz. 3. Integration Bandwidth refers to the frequency range over which the emission power is integrated. Offset f from channel center (MHz) Table 9. Channel Mask for 15 MHz Bandwidth Integration Bandwidth (khz) Maximum Allowed Emission Level (dbm/integration Bandwidth) as measured at the antenna port 1 5 f <10 100-7-7( f-5.05)/5 2 10 f <15 100-14 3 15 f 35 1000-13 Notes: 1. f is the absolute value of separation in MHz between the carrier frequency and the centre of the measuring filter. 2. The first measurement position with a 100 khz filter is at f equals to 10.05 MHz; the last is at f equals to 14.95 MHz. The first measurement position with a 1 MHz filter is at f equals to 15.5 MHz; the last is at f equals to 34.5 MHz. 3. Integration Bandwidth refers to the frequency range over which the emission power is integrated..1.2 Default Spurious Emission Unless otherwise specified in other sub sections of Section for specific bands, the default spurious emission specifications of Table 10 are applicable. Table 10. Default Spurious Emissions; Relevant to FDL-le +ChBW/2 fc FDL-ue- ChBW/2 No Spurious frequency (f) range Measurement bandwidth Page 23 Maximum Emission Level (dbm) 1 9 khz f < 150 khz 1 khz -36 2 150 khz f < 30MHz 10 khz -36 3 30 MHz f < 1000 MHz 100 khz -36 4 1 GHz f < 5 x Fue 30 khz If 2.5xChBW <= f < 10xChBW -30
300 khz If 10xChBW <= f < 12xChBW 1 MHz If 12xChBW <= f.2 Band Class 1.2.1 Band Class Group 1.A.2.1.1 Channel Spectral Mask The Spectrum Emission Mask for 5 and 10 MHz bandwidth is specified in Table 11 and Table 12. Table 11. Channel Mask for 5 MHz (BCG 1.A) No Frequency offset from centre Allowed emission level Measurement bandwidth 1 2.5 f < 3.5 MHz 13 dbm 50 khz 2 3.5 f < 12.5 MHz 13 dbm 1 MHz Table 12. Channel Mask for 10 MHz (BCG 1.A) No Frequency offset from centre Allowed emission level Measurement bandwidth 1 5 f < 6 MHz 13 dbm 100 khz 2 6 f < 25 MHz 13 dbm 1 MHz.2.1.2 Transmitter Spurious Emission specification Table 13. Base station spurious emission limit, Category A (BCG 1.A) No Band Allowed emission level Measurement bandwidth Note 1 30 MHz-1 GHz 13 dbm 100 khz Bandwidth as in Recommendation ITU-R SM.329-10, 4.1 2 1 GHz-13.45 GHz 1 MHz Upper frequency as in Recommendation ITU-R SM.329-10, 2.5, Table 1 Table 14. Base station spurious emissions limit, Category B (BCG 1.A) No Band Measurement bandwidth Allowed emission level 1 9 khz f < 150 khz 1 khz -36 dbm Page 24
2 150 khz f < 30 MHz 10 khz -36 dbm 3 30 MHz f < 1 000 MHz 100 khz 36 dbm 4 1 GHz f < 13.45 GHz 30 khz If 2.5 BW <= f c f < 10 BW 300 khz If 10 BW <= f c f < 12 BW 1 MHz If 12 BW <= f c f 30 dbm No Table 15. Additional Spurious Emissions (BCG 1.A) Spurious frequency (f) range (MHz) Measurement bandwidth (MHz) Maximum Emission Level (dbm) 1 791 f 821 1-52 3 876 f 915 1-51 4 921 f 925 1-47 5 925 f 960 1-52 6 1710 f 1785 1-51 7 1805 f 1880 1-52.3 Band Class 3.3.1 Band Class Group 3.C.3.1.1 Channel Spectral Mask 4.2.11 Default capability class and parameters Normative Reference: This section is transposed with no change to the GCS as provided by the GCS Proponent. Annex 1: IEEE Std 802.16.1-2012, Annex F Page 25
Annex 1 IEEE Std 802.16.1-2012. Annex 2 IEEE Std 802.16.a-2013. Annex 3 IEEE Std 802.16.1b-2012. Page 26