628 Table 75 Spectrum Emission Mask for 5 MHz Bandwidth 628
75频谱发射模板为5 MHz的带宽
1IEEE L802.16-09/0087r1
2
1
2To:Roger Marks
Chair, IEEE 802.16 Working Group3
4r.b.marks@ieee.org
5
6cc: Roger Marks
7Vice President - Technology Standards, WiMAX Forum
8roger.marks@wimaxforum.org
9
10Tim Hewitt
Chair, Regulatory Working Group, WiMAX Forum11
12tim.hewitt@wimaxforum.org
13Reference: IEEE L802.16-09/0085r1
14
15August 28, 2009
16
17Subject: WiMAX Forum TWG Contribution to development of Candidate IMT-Advanced RIT based on IEEE 802.1618
19
20
Dear Dr. Marks,21
22
Thank you for the liaison statement of 16 July (IEEE L802.16-09/0085r1) informing the WiMAX 23
24Forum of IEEE 802.16’s activities regarding IMT-Advanced submission and preparations, calling
25our attention to the Call for Comments and Contributions on IMT-Advanced Submission (IEEE 26L802.16-09/0079), and referencing our previous statement (L802.16-09/0045) of 29 April.27
Following up that prior contribution, the WiMAX Forum Technical Working Group (TWG) 28
29would like to submit the attached draft contribution (Annex A) in response to IEEE L802.16-
3009/0079. This contribution, in particular, proposes responses to open items in [DRAFT] SUBMISSION OF A CANDIDATE IMT-ADVANCED RIT BASED ON IEEE 802.16 (PART I) 31
32(L802.16-09/0050d1).
33
Depending on the outcome of IEEE 802.16 Session #63, TWG may provide other contributions 34
35for IEEE 802.16 Session #63.5 in advance of the ITU-R WP 5D meeting of October 2009. 36
37Thank you very much for your attention to this matter of mutual importance.38
39
40Sincerely,
41
42Wonil Roh, wonil.roh@samsung.com and
43Vladimir Yanover vladimir.yanover@alvarion.com
44Chairs, WiMAX Forum Technical Working Group (TWG)
1IEEE L802.16-09/0087r12
1ANNEX A: BAND CLASSES, POWER CLASSES AND EMISSION MASK TABLE OF
2CONTENTS
3INTRODUCTION........................................................................................................................84REFERENCES.............................................................................................................................95DEFINITIONS, SYMBOLS AND ACRONYMS.....................................................................10
6DEFINITIONS............................................................................................................................107SYMBOLS...................................................................................................................................108ACRONYMS...............................................................................................................................109FREQUENCY BANDS...............................................................................................................11
10POWER CLASSES.....................................................................................................................12
11MOBILE STATION...................................................................................................................12
12BASE STATION.........................................................................................................................1213SPECTRUM MASK...................................................................................................................13
14MOBILE STATION...................................................................................................................13
15BAND CLASS 3..........................................................................................................................1416TDD..............................................................................................................................................1417FDD..............................................................................................................................................1518BAND CLASS 5..........................................................................................................................1619TDD..............................................................................................................................................1620FDD..............................................................................................................................................1721BAND CLASS 6..........................................................................................................................1922FREQUENCY SUB-BAND 1710-1770/2110-2170 MHZ.........................................................19
23FREQUENCY SUB-BAND OTHER THAN 1710-1770/2110-2170 MHZ..............................20
24BAND CLASS 7..........................................................................................................................2125TDD..............................................................................................................................................2126FDD..............................................................................................................................................2327BAND CLASS 8..........................................................................................................................2528BASE STATION.........................................................................................................................2729BAND CLASS 3..........................................................................................................................2830TDD..............................................................................................................................................2831FDD..............................................................................................................................................2932BAND CLASS 5..........................................................................................................................3133TDD..............................................................................................................................................3134FDD..............................................................................................................................................3135BAND CLASS 6..........................................................................................................................32
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1FREQUENCY SUB-BAND 1710-175570/2110-215570 MHZ..................................................322FREQUENCY SUB-BAND OTHER THAN 1710-1770/2110-2170 MHZ..............................323BAND CLASS 7..........................................................................................................................34
4
1IEEE L802.16-09/0087r1
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1LIST OF TABLES
2TABLE 1. LIST OF BAND CLASSES......................................................................................11
3TABLE 2. MOBILE STATION POWER CLASSES...............................................................12
4TABLE 3. GENERAL SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH.......135TABLE 4. GENERAL SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH.....136TABLE 5. GENERAL SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH.....137TABLE 6. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 3148TABLE 7. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 3149TABLE 8. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 31510TABLE 9. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 31511TABLE 10. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 312......................................................................................................................................................15
13TABLE 11. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 314......................................................................................................................................................16
15TABLE 12. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 51616TABLE 13. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 517......................................................................................................................................................17
18TABLE 14. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 5 (3402.5 19? FC ? 3497.5)............................................................................................................................18
20TABLE 15. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 5 (3405 21? FC ? 3495)...............................................................................................................................19
22TABLE 16. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 6 (1710-231770/2110-2170 MHZ)................................................................................................................19
24TABLE 17. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 6 (1710-251770/2110-2170 MHZ)................................................................................................................19
26TABLE 18. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 6 (1710-271770/2110-2170 MHZ)................................................................................................................20
28TABLE 19. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 62029TABLE 20. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 630......................................................................................................................................................20
31TABLE 21. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 632......................................................................................................................................................20
33TABLE 22. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 7 (700.5 34? FC ? 795.5)..............................................................................................................................21
35TABLE 23. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 7 (799.5 36? FC ? 859.5)..............................................................................................................................21
37TABLE 24. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 7 (703 38? FC ? 793).................................................................................................................................22
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1TABLE 25. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 7 (802 2? FC ? 857).................................................................................................................................22
3TABLE 26. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 7 (703 4? FC ? 793).................................................................................................................................22
5TABLE 27. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 7 (807 6? FC ? 852).................................................................................................................................23
7TABLE 28. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 7 (700.5 8? FC < 834.5)..............................................................................................................................23
9TABLE 29. SPECTRUM EMISSION FOR 5 MHZ BANDWIDTH BAND CLASS 7 (834.5 ? FC ?
10859.5)............................................................................................................................................23
11TABLE 30. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 7 (703 12? FC < 837).................................................................................................................................24
13TABLE 31. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 7 (837 14? FC ? 857).................................................................................................................................24
15TABLE 32. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 7 (708 16? FC < 842).................................................................................................................................24
17TABLE 33. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 7 (842 18? FC ? 852).................................................................................................................................25
19TABLE 34. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 82520TABLE 35. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 821......................................................................................................................................................25
22TABLE 36. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 823......................................................................................................................................................26
24TABLE 37. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH..........................2725TABLE 38. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH........................2726TABLE 39. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH........................2727TABLE 40. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 32828TABLE 41. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 3 – 29JAPAN.........................................................................................................................................28
30TABLE 42. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 331......................................................................................................................................................28
32TABLE 43. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 3– 33JAPAN.........................................................................................................................................28
34TABLE 44. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 335......................................................................................................................................................29
36TABLE 45. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 3-37JAPAN.........................................................................................................................................29
38TABLE 46. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 3-39JAPAN.........................................................................................................................................29
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1TABLE 47. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 3-US2......................................................................................................................................................293TABLE 48. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 3-US4......................................................................................................................................................295TABLE 49. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 3-US6......................................................................................................................................................297TABLE 50. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 3308TABLE 51. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 39......................................................................................................................................................3010TABLE 52. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 311......................................................................................................................................................3012TABLE 53. RELATIVE TRANSMIT SPECTRAL POWER DENSITY MASK .................3113TABLE 54. ABSOLUTE TRANSMIT SPECTRAL POWER DENSITY MASKSPECTRAL 14EMISSION MASK.....................................................................................................................31
15TABLE 55. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 5 (1710-161755/2110-2155 MHZ)BAND CLASS 6....................................................................................32
17TABLE 56. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 5 (1710-181755/2110-2155 MHZ)BAND CLASS 6....................................................................................32
19TABLE 57. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 5 (1710-201755/2110-2155 MHZ)BAND CLASS 6....................................................................................32
21TABLE 58. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 63222TABLE 59. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 623......................................................................................................................................................3324TABLE 60. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 625......................................................................................................................................................3326TABLE 61. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 7-US27......................................................................................................................................................3428TABLE 62. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 7-US29......................................................................................................................................................3430TABLE 63. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 7-US31......................................................................................................................................................3432TABLE 64. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 73533TABLE 65. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 734......................................................................................................................................................3535TABLE 66. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 736......................................................................................................................................................3537TABLE 67. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 83538TABLE 68. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 839......................................................................................................................................................36
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1TABLE 69. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 82......................................................................................................................................................373TABLE 70. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 7-4EUROPE.....................................................................................................................................37
5TABLE 71. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 7-6EUROPE.....................................................................................................................................37
7TABLE 72. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 7-8EUROPE.....................................................................................................................................37
9
1IEEE L802.16-09/0087r1
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1Introduction
2The purpose of this contribution is to propose the response text to the following questions in IMT-3Advanced Technology Description Template – Characteristics Template (TDT) in support of Candidate IMT-Advanced RIT based on IEEE 802.16. 4
5
6Item 1: 4.2.3.2.8.3What are the frequency bands supported by the RIT? Please list.
Item 2: 4.2.3.2.11 Power classes7
8Item 3: 4.2.3.2.23.5 Does the proposal satisfy a specific spectrum mask? Provide details.9
As a baseline, this contribution uses the WiMAX Forum Mobile Release 1.0 and 1.5 specifications 10
11relevant to Items 1 and 3 above as provided in WiMAX Forum Mobile Certification Profile ( and ) and 12Radio Specification () documents and proposes additional text to properly cover all aspects of the three 13items.
14
15On Item 3, spectrum emission masks for the following four Test Scenarios as specified in Report ITU-R 16M.2135 () are provided.
17
18•Indoor Hotspot: 3.4 GHz
19•Urban Micro-cell: 2.5 GHz
20•Urban Macro-cell: 2.0 GHz
21•Rural Macro-cell: 0.8 GHz
1IEEE L802.16-09/0087r1
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1References
2[1]WiMAX Forum Mobile Certification Profile R1.0, Description 1
3[2]WiMAX Forum Mobile Certification Profile R1.5, Description 2
[3]DRAFT-T23-005-R015v04-B, WiMAX Forum Mobile Radio Specification document 4
5[4]Working document towards a preliminary draft revision of Recommendation ITU-R M.1036-3
6- Frequency arrangements for implementation of the terrestrial component of International Mobile
Telecommunications (IMT) in the bands identified for IMT in the Radio Regulations (RR)7
8[5]Report ITU-R M.2135, GUIDELINES FOR EVALUATION OF RADIO INTERFACE
9TECHNOLOGIES FOR IMT-ADVANCED
1IEEE L802.16-09/0087r1
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1Definitions, Symbols and Acronyms2Definitions
3This section provides the list of definitions used through out the document.
4
5Integration Bandwidth: Integration Bandwidth refers to the frequency range over which the emission
6power is integrated.
7Symbols
8This section provides the list of symbols used through out the document along with their descriptions.
9
10ffrequency in MHz unless specified otherwise. f11center frequency in MHz unless specified otherwise.c
12Δfabsolute value of frequency offset of frequency f from the center frequency of the channel (|f-f|). c
The offset is in MHz unless specified otherwise. 13
14PTxmeasured transmit power into antenna in dBmPTx,maxmeasured maximum transmit power into antenna in dBm15
16Pnom declared maximum conducted transmit power17Acronyms
18This section provides the list of acronyms and abbreviations used through out the document.
19
BSbase station20
BWchannel bandwidth size21
MSmobile station22
PSD power spectral density23
24
1IEEE L802.16-09/0087r1
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1Frequency bands
2The purpose of this section is to address the IMT-Advance TDT item 4.2.3.2.8.3(What are the frequency
3bands supported by the RIT? Please list.) for IEEE 802.16 based candidate.
4Table 1 provides the list of band classes.5Table 1. List of Band Classes
12300-24002300-2400TDD
22305-2320, 2345-23602305-2320, 2345-2360TDD
2345-23602305-2320FDD
32496-26902496-2690TDD
2496-25722614-2690FDD
43300-34003300-3400TDD
5L3400-36003400-3600TDD
3400-35003500-3600FDD
5H3600-38003600-3800TDD
61710-17702110-2170FDD
1920-19802110-2170FDD
1710-17552110-2155FDD[*]FDD1710-17851805-1880
[*]FDD1850-19101930-1990
[*]FDD1710-1785, 1920-19801805-1880, 2110-2170
[*]FDD1850-1910, 1710-17701930-1990, 2110-2170
7698-862698-862TDD
776-787746-757FDD
788-793, 793-798758-763, 763-768FDD
788-798758-768FDD
698-862698-862TDD/FDD[*]FDD824-849869-894
[*]FDD880-915925-960
[*]698-716, 776-793728-746, 746-763FDD
81785-1805, 1880-1920, 1910-193, 1785-1805, 1880-1920, 1910-TDD
2010-2025193, 2010-2025, 1900-1920, 1900-1920
9450-470450-470TDD[*]450.0-457.5462.5-470.0FDD
6
1IEEE L802.16-09/0087r1
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1Power Classes
2The purpose of this section is to address the IMT-Advance TDT item 2: 4.2.3.2.11 (Power classes) for 3IEEE 802.16 based candidate.
4Mobile Station
5Table 2 provides the list of Mobile Station Power Classes.
6Table 2. Mobile Station Power Classes
Power Class 120
Power Class 223
Power Class 326
7
8In Table 2, Pnom is the declared maximum conducted transmit power. 9
10In power classes of Table 2, tolerances are not included. In general, tolerances associated to Pnom
11depends on various parameters including MCS level, spectrum band span (associated to band edge) etc.
12Generic and band specific tolerances associated to these parameters may be considered.
13Base Station
14[Editor Note: TBD]
15
1IEEE L802.16-09/0087r1
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1Spectrum Mask
2The purpose of this section is to address the IMT-Advance TDT item 4.2.3.2.23.5 (Does the proposal
3satisfy a specific spectrum mask? Provide details) for IEEE 802.16 based candidate.
Note that, in this section, spectrum emission masks for the following four Test Scenarios as specified in 4
5Report ITU-R M.[IMT.EVAL] () is provided.
6
7•Indoor Hotspot: 3.4 GHz (3.4-3.6 GHz)
8•Urban Micro-cell: 2.5 GHz (2.5-2.690 GHz)
9•Urban Macro-cell: 2.0 GHz (1.710-2.170 GHz)10•Rural Macro-cell: 0.8 GHz (698-862 MHz)
11
12The information in section is applicable to all power classes of Section .
13
14Mobile Station
15Unless otherwise specified in sub sections of Section for specific bands, the general spectrum masks of 16Table 3, Table 4 and Table 5 are applicable.
17Table 3. General Spectrum Emission Mask for 5 MHz Bandwidth12.5 to < 3.550-13.00
21000-13.003.5 to ? 12.5
18
19Table 4. General Spectrum Emission Mask for 10 MHz Bandwidth15 to < 6100-13.00
21000-13.006 to ? 25
20
21Table 5. General Spectrum Emission Mask for 20 MHz Bandwidth110 to <11200-13.00
21000-13.0011 to ? 50
22
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1Band Class 3
2TDD
3The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 6.
4Table 6. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 3
12.5 to <3.550-13
23.5 to <7.51000-13
37.5 to <8500If
PTx ? +23 and (2547.5 ? f ? 2622.5) c
then
-23-2.28(?f -7.5)
else
-16.0048 to <10.41000-25
51000If 10.4 to ? < 12.5
PTx ? +23 and (2547.5 ? f ? 2622.5)c
then
-21-1.68(?f - 8)
else
-25
5
6The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 7.
Table 7. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 37
15 to <6100-13.00
26 to <101000-13.00
310 to <111000-13-12(?f -10)411 to <151000-25.00
515 to <201000If
PTx ?+23 dBm and (2550 ? f ? 2620) c
then
-21 - 32(?f –10.5)/19
else
-25
61000If 20 to ? -25
PTx ? +23 dBm and (2550 ? f ? 2620) c
then
-37.00
else
1IEEE L802.16-09/0087r1
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-25
1
2The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 8.3Table 8. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 3110 to <11200-13.00
211 to <151000-13.00
315 to <161000-13-12(?f -15)
41000-25.0016 to ? <50
4
5FDD
6The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 9.
Table 9. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 37
12.5 to <3.550-13
23.5 to <7.51000-13
37.5 to <8500-16.00
48 to <10.41000-25
51000-2510.4 to ? < 12.5
8
9The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 10.10Table 10. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 315 to <6100-13.00
26 to <101000-13.00
310 to <111000-13-12(?f -10)
411 to <151000-25.00
515 to <201000-25
61000-2520 to ? -25
11
12The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 11.
1IEEE L802.16-09/0087r1
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1Table 11. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 3
110 to <11200-13.00
211 to <151000-13.00
315 to <161000-13-12(Df -15)?
41000-25.0016 to ? <50
2
3Band Class 5
TDD4
5The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 12.
Table 12. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 56
Measurement
bandwidthIntegration
Bandwidth
2.5 to < 3.530 kHz
-33.5-15(?f-2.5)
3.5 to < 7.51 MHz
-33.5-1(?f-3.5)
7.5 to < 8.51 MHz
-37.5-10(?f-7.5)
-47.51 MHz8.5 to ? 12.5
78Notes:
91. f is the absolute value of separation in MHz between the carrier frequency and the centre of the
10measuring filter.
112.The first measurement position with a 30 kHz filter is at ?f equals to 2.515 MHz; the last is at ?f
equals to 3.485 MHz.12
133.The first measurement position with a 1 MHz filter is at ?f equals to 4 MHz; the last is at ?f equals to 12
MHz. As a general rule, the resolution bandwidth of the measuring equipment should be equal to the 14
15measurement bandwidthIntegration Bandwidth. To improve measurement accuracy, sensitivity and
efficiency, the resolution bandwidth can be different from the measurement bandwidthIntegration 16
Bandwidth. When the resolution bandwidth is smaller than the measurement bandwidthIntegration 17
18Bandwidth, the result should be integrated over the measurement bandwidthIntegration Bandwidth in order
to obtain the equivalent noise bandwidth of the measurement bandwidthIntegration Bandwidth.19
4.Note that equivalent PSD type mask can be derived by applying 10*log ((5 MHz)/(30 kHz))= 22.2 dB and 20
10*log((5 MHz)/(1 MHz))= 7 dB scaling factor for 30 kHz and 1 MHz measurement bandwidthIntegration 21
Bandwidth respectively.22
23
24The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 13.
1IEEE L802.16-09/0087r1
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1Table 13. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 5
Measurement
bandwidthIntegration
Bandwidth
5.0 to <7.0 30 kHz
-33.5-9(?f-5.0)
7.0 to <15.01 MHz
-36.5-0.5(?f-7.0)
15.0 to <17.01 MHz
-40.5-5(?f-15.0)
-50.51 MHz17.0 to ?25.0
23Notes:
41.f is the absolute value of separation in MHz between the carrier frequency and the centre of the
5measuring filter.
62.The first measurement position with a 30 kHz filter is at ?f equals to 510.015 MHz; the last is at ?f
equals to 6.985 MHz.7
83.The first measurement position with a 1 MHz filter is at ?f equals to 7.5 MHz; the last is at ?f
equals to 24.5 MHz. As a general rule, the resolution bandwidth of the measuring equipment 9
should be equal to the measurement bandwidthIntegration Bandwidth. To improve measurement 10
accuracy, sensitivity and efficiency, the resolution bandwidth can be different from the 11
measurement bandwidthIntegration Bandwidth. When the resolution bandwidth is smaller than 12
the measurement bandwidthIntegration Bandwidth, the result should be integrated over the 13
measurement bandwidthIntegration Bandwidth in order to obtain the equivalent noise bandwidth 14
of the measurement bandwidthIntegration Bandwidth.15
164.Equivalent PSD type mask can be derived by applying 10*log ((10 MHz)/(30 kHz))= 25.2 dB and
1710*log((10 MHz)/(1 MHz))= 10 dB scaling factor for 30 kHz and 1 MHz measurement 18bandwidthIntegration Bandwidth respectively.
19FDD
20The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 14.
1IEEE L802.16-09/0087r1
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1Table 14. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 5 (3402.5 ? f? c
23497.5)
Measurement
bandwidthIntegration
Bandwidth
2.5 to <3.530 kHz
-33.5-15(?f-2.5)
3.5 to <7.51 MHz
-33.5-1(?f-3.5)
7.5 to <8.51 MHz
-37.5-10(?f-7.5)
-47.51 MHz8.5 to ?12.5
11Notes:
21. f is the absolute value of separation in MHz between the carrier frequency and the centre of the
3measuring filter.
42.The first measurement position with a 30 kHz filter is at ?f equals to 2.515 MHz; the last is at ?f
5equals to 3.485 MHz.
63.The first measurement position with a 1 MHz filter is at ?f equals to 4 MHz; the last is at ?f equals to 12 7MHz. As a general rule, the resolution bandwidth of the measuring equipment should be equal to the
8measurement bandwidthIntegration Bandwidth. To improve measurement accuracy, sensitivity and 9efficiency, the resolution bandwidth can be different from the measurement bandwidthIntegration
10Bandwidth. When the resolution bandwidth is smaller than the measurement bandwidthIntegration
11Bandwidth, the result should be integrated over the measurement bandwidthIntegration Bandwidth in order 12to obtain the equivalent noise bandwidth of the measurement bandwidthIntegration Bandwidth.
134.Note that equivalent PSD type mask can be derived by applying 10*log ((5 MHz)/(30 kHz))= 22.2 dB and
1410*log((5 MHz)/(1 MHz))= 7 dB scaling factor for 30 kHz and 1 MHz measurement bandwidthIntegration
15Bandwidth respectively.
16
17The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 15.
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1Table 15. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 5 (3405 ? f? 3495)c
Measurement
bandwidthIntegration
Bandwidth
5.0 to <7.0 30 kHz
-33.5-9(?f-5.0)
7.0 to <15.01 MHz
-36.5-0.5(?f-7.0)
15.0 to <17.01 MHz
-40.5-5(?f-15.0)
-50.51 MHz17.0 to ?25.0
23Notes:
41.f is the absolute value of separation in MHz between the carrier frequency and the centre of the
5measuring filter.
62.The first measurement position with a 30 kHz filter is at ?f equals to 510.015 MHz; the last is at ?f
equals to 6.985 MHz.7
83.The first measurement position with a 1 MHz filter is at ?f equals to 7.5 MHz; the last is at ?f equals to 24.5
MHz. As a general rule, the resolution bandwidth of the measuring equipment should be equal to the 9
measurement bandwidthIntegration Bandwidth. To improve measurement accuracy, sensitivity and 10
11efficiency, the resolution bandwidth can be different from the measurement bandwidthIntegration
Bandwidth. When the resolution bandwidth is smaller than the measurement bandwidthIntegration 12
13Bandwidth, the result should be integrated over the measurement bandwidthIntegration Bandwidth in order 14to obtain the equivalent noise bandwidth of the measurement bandwidthIntegration Bandwidth.
4.Equivalent PSD type mask can be derived by applying 10*log ((10 MHz)/(30 kHz))= 25.2 dB and 10*log((10 15
16MHz)/(1 MHz))= 10 dB scaling factor for 30 kHz and 1 MHz measurement bandwidthIntegration Bandwidth
respectively.17
18Band Class 6
19Frequency Sub-band 1710-1770/2110-2170 MHz20
21The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 16.
22Table 16. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 6 (1710-1770/2110-232170 MHz)
12.5 to < 3.550-13
21000-133.5 to ? 12.5
24
25The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 17.
26Table 17. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 6 (1710-1770/2110-
2170 MHz)27
15 to < 6100-13.00
21000-13.006 to ? 25
1IEEE L802.16-09/0087r1
2
1
2The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 18.
3
4Table 18. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 6 (1710-1770/2110-52170 MHz)
110 to <11200-13.00
21000-13.0011 to ?<50
6
7Frequency Sub-band other than 1710-1770/2110-2170 MHz8The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 19.
Table 19. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 69
12.5 to <3.550-13.00
23.5 to < 7.51000-10.00
37.5 to <8.51000-13.00
41000-25.008.5 to ?<12.5
10
11The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 20.
12
Table 20. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 613
15 to <6100-13.00
26 to <101000-10.00
310 to <151000-13.00
41000-25.0015 to ?<25
14
15The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 21.
16
Table 21. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 617
110 to <11200-13.00
1IEEE L802.16-09/0087r1
2
211 to <151000-10.00
315 to <301000-13.00
41000-25.0030 to ?<50
1
2Band Class 7
3TDD
4Table 22 and Table 23 specify the spectrum emission mask with 5 MHz channel bandwidth.
Table 22. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 7 (700.5 5? f? 795.5)c
12.5 to <2.630-13.0
22.6 to ?12.5100-13.0
67Notes:
81. f is the separation between the carrier frequency and the centre of the measuring filter.
92.The first measurement position with a 30 kHz filter is at ?f equals to 2.515 MHz; the last is at ?f
10equals to 2.585 MHz. The first measurement position with a 100 kHz filter is at ?f equals to 2.650 11MHz; the last is at ?f equals to 12.450 MHz.
12
13Table 23. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 7 (799.5 ? f? 859.5)c
12.5 to <7.551.6
27.5 to ?12.52-10.0
1415Notes:
161. f is the separation between the carrier frequency and the centre of the measuring filter.
172.The measurement position with a 5 MHz filter is at ?f equals to 5 MHz. The first measurement 18position with a 2 MHz filter is at ?f equals to 8.5 MHz; the last is at ?f equals to 11.5 MHz. 19
20
21Table 24 and Table 25 specify the spectrum emission mask with 10 MHz channel bandwidth.
1IEEE L802.16-09/0087r1
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1
1Table 24. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 7 (703 ? f? 793)c
15.0 to <5.130-13.0
25.1 to ?25.0100-13.0
23Notes:
41. f is the separation between the carrier frequency and the centre of the measuring filter.
52.The first measurement position with a 30 kHz filter is at ?f equals to 5.015 MHz; the last is at ?f
6equals to 5.085 MHz. The first measurement position with a 100 kHz filter is at ?f equals to 5.150 7MHz; the last is at ?f equals to 24.950 MHz.
8Table 25. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 7 (802 ? f? 857)c
15 to <1051.6
210 to ?252-10.0
910Notes:
111. f is the separation between the carrier frequency and the centre of the measuring filter.
122.The measurement position with a 5 MHz filter is at ?f equals to 7.5 MHz. The first measurement 13position with a 2 MHz filter is at ?f equals to 11 MHz; the last is at ?f equals to 24 MHz. 1415Table 26 and Table 27 specify the spectrum emission mask with 20 MHz channel bandwidth.
16
Table 26. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 7 (703 17? f? 793)c
110.0 to <10.130-13.0
210.1 to ?50.0100-13.0
1IEEE L802.16-09/0087r1
2
12Notes:
31. f is the separation between the carrier frequency and the centre of the measuring filter.
42.The first measurement position with a 30 kHz filter is at ?f equals to 10.015 MHz; the last is at ?f
5equals to 10.085 MHz. The first measurement position with a 100 kHz filter is at ?f equals to
610.150 MHz; the last is at ?f equals to 50.950 MHz.
7Table 27. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 7 (807 ? f? 852)c
110 to <1551.6
215 to ?502-10.0
89Notes:
101. f is the separation between the carrier frequency and the centre of the measuring filter.
112.The measurement position with a 5 MHz filter is at ?f equals to 12.5 MHz. The first measurement 12position with a 2 MHz filter is at ?f equals to 16 MHz; the last is at ?f equals to 49 MHz.
13FDD
14Table 28 and Table 29 specify the spectrum emission mask with 5 MHz channel bandwidth.
15Table 28. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 7 (700.5 ? f< 834.5)c
12.5 to <2.630-13.0
22.6 to ?12.5100-13.0
1617Notes:
181. f is the separation between the carrier frequency and the centre of the measuring filter.
192.The first measurement position with a 30 kHz filter is at ?f equals to 2.515 MHz; the last is at ?f
20equals to 2.585 MHz. The first measurement position with a 100 kHz filter is at ?f equals to 2.650 21MHz; the last is at ?f equals to 12.450 MHz.
22
23Table 29. Spectrum Emission for 5 MHz Bandwidth Band Class 7 (834.5 ? f? 859.5)c
12.5 to <7.551.6
27.5 to ?12.52-10.0
1IEEE L802.16-09/0087r1
2
12Notes:
31. f is the separation between the carrier frequency and the centre of the measuring filter.42.The measurement position with a 5 MHz filter is at ?f equals to 5 MHz. The first measurement 5position with a 2 MHz filter is at ?f equals to 8.5 MHz; the last is at ?f equals to 11.5 MHz.
6
7Table 30 and Table 31 specify the spectrum emission mask with 10 MHz channel bandwidth.8
Table 30. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 7 (703 9? f< 837)c
15.0 to <5.130-13.0
25.1 to ?25.0100-13.0
10Notes:
111. f is the separation between the carrier frequency and the centre of the measuring filter.122.The first measurement position with a 30 kHz filter is at ?f equals to 5.015 MHz; the last is at ?f
13equals to 5.085 MHz. The first measurement position with a 100 kHz filter is at ?f equals to 5.150
14MHz; the last is at ?f equals to 24.950 MHz.
15Table 31. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 7 (837 ? f? 857)c
15 to <1051.6
210 to <152-10.0
315 to ?251-25.0
1617Notes:
181. f is the separation between the carrier frequency and the centre of the measuring filter.192.The measurement position with a 5 MHz filter is at ?f equals to 7.5 MHz. The first measurement 20position with a 2 MHz filter is at ?f equals to 11 MHz; the last is at ?f equals to 14 MHz. The first
21measurement position with a 1 MHz filter is at ?f equals to 15.5 MHz; the last is at ?f equals to 24.5
22MHz.
23
24Table 32 and Table 33 specify the spectrum emission mask with 20 MHz channel bandwidth.25Table 32. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 7 (708 ? f< 842)c
110.0 to <10.130-13.0
1IEEE L802.16-09/0087r1
2
210.1 to ?50.0100-13.0
12Notes:
31. f is the separation between the carrier frequency and the centre of the measuring filter.42.The first measurement position with a 30 kHz filter is at ?f equals to 10.015 MHz; the last is at ?f
5equals to 10.085 MHz. The first measurement position with a 100 kHz filter is at ?f equals to
610.150 MHz; the last is at ?f equals to 49.950 MHz.
7Table 33. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 7 (842 ? f? 852)c
110 to <1551.6
215 to <202-10.0
320 to ?501-25.0
89Notes:
101. f is the separation between the carrier frequency and the centre of the measuring filter.112.The measurement position with a 5 MHz filter is at ?f equals to 12.5 MHz. The first measurement 12position with a 2 MHz filter is at ?f equals to 16 MHz; the last is at ?f equals to 19 MHz. The first 13measurement position with a 1 MHz filter is at ?f equals to 20.5 MHz; the last is at ?f equals to 49.5
MHz.14
15Band Class 8
16The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 34.17Table 34. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 812.5 to < 3.550-13
21000-133.5 to ? 12.5
18
19The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 35.20Table 35. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 815 to < 6100-13.00
21000-13.006 to ? 25
21
22The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 36.23
1IEEE L802.16-09/0087r1
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1Table 36. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 8
110 to <11200-13.00
211 to <151000-10.00
315 to <301000-13.00
41000-25.0030 to ?<50
2
3
1IEEE L802.16-09/0087r1
2
1Base Station
2Unless otherwise specified in sub sections of Section for specific bands, Tthe general spectrum masks of
3Table 37, Table 38 and Table 39TBD, TBD and TBD are applicable to all bands and all regions u.nless specific mask for a band or a region is specified in a relevant sub section of Section .4
5Table 37. Spectrum Emission Mask for 5 MHz Bandwidth
Segment Integration Allowed Emission Level (dBm/Integration Bandwidth) Frequency offset ?f
NumberBandwidth as measured at the antenna portfrom channel
(kHz)center (MHz)
12.5 to <7.5100-7-7(?f-2.55)/5
2100-147.5 to ?12.5
67Notes:
81. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 9measuring filter.
102. The first measurement position with a 100 kHz filter is at ? f equals to 2.550 MHz; the last is at ? f equals to 1112.450 MHz.
123. Integration Bandwidth refers to the frequency range over which the emission power is integrated.
13
14Table 38. Spectrum Emission Mask for 10 MHz Bandwidth
Segment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth) NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
15 to <10100-7-7(f-?5.05)/5
210 to <15100-14
31000-1315 to ?25
1516Notes:
171. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 18measuring filter.
192. The first measurement position with a 100 kHz filter is at ? f equals to 5.05 MHz; the last is at ? f equals to 2014.95 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. 21
3. Integration Bandwidth refers to the frequency range over which the emission power is integrated.22
23
24Table 39. Spectrum Emission Mask for 20 MHz BandwidthSegment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth) NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
110 to <15100-7-7(f-?10.05)/5
215 to <20100-14
31000-13 20 to ?50
1IEEE L802.16-09/0087r1
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12Notes:
31. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 4measuring filter.
52. The first measurement position with a 100 kHz filter is at ? f equals to 10.05 MHz; the last is at f equals to ?
619.95 MHz. The first measurement position with a 1 MHz filter is at ?f equals to 20.5 MHz; the last is at ?f 7equals to 49.5 MHz.
83. Integration Bandwidth refers to the frequency range over which the emission power is integrated.
9
10
11
12[Editor Note: General mask tables are TBD.] 13Band Class 3
14TDD
15The Spectrum Emission Mask of Table 40, Table 42 and Table 44 apply to US region. 16The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 40 and Table 41.
17Table 40. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 3
Measurement
bandwidthIntegration
Bandwidth
,13 dBm50 kHz2.5 ? ?f < 3.5 MHz
,13 dBm1 MHz3.5 ? ?f ?< 12.5 MHz
18Table 41. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 3 – Japan
Frequency offset from centreAllowed emission levelMeasurement bandwidth
1 MHz7.5 MHz ? ?f < 12.25,?151.4 × (?f ?7.5) dBm
,22 dBm1 MHz12.25 ? ?f < 22.5 MHz
19
20The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 42 and Table 43.
21Table 42. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 3
Measurement
bandwidthIntegration
Bandwidth
,13 dBm100 kHz5 ? ?f < 6 MHz
,13 dBm1 MHz6 ? ?f ? < 25 MHz
22Table 43. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 3– Japan
Frequency offset from Allowed emission levelMeasurement bandwidth
centre
,22 dBm1 MHz15 ? ?f < 25 MHz
23
24The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 44.
1IEEE L802.16-09/0087r1
2
1Table 44. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 3
Measurement
bandwidthIntegration
Bandwidth
,13 dBm200 kHz10 ? ?f < 11 MHz
,13 dBm1 MHz11 ? ?f ?< 50 MHz
2
3The Spectrum Emission Mask of Table 45 and Table 46 apply to Japan region. 4Table 45. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 3-JapanFrequency offset from centreAllowed emission levelIntegration Bandwidth
1 MHz7.5 MHz ? ?f < 12.25,15?1.4 × (?f ?7.5) dBm
, 22dBm1 MHz12.25 ? ?f ? 22.5 MHz
5Table 46. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 3-Japan
Frequency offset from Allowed emission levelIntegration Bandwidth
centre
, 22dBm1 MHz15 ? ?f ? 25 MHz
6
7
8FDD
9The Spectrum Emission Mask of Table 47, Table 48 and Table 49 apply to US region. 10Table 47. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 3-US
Allowed emission levelIntegration BandwidthFrequency offset from centre
,13 dBm50 kHz2.5 ? ?f < 3.5 MHz
,13 dBm1 MHz3.5 ? ?f ? 12.5 MHz
11
12Table 48. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 3-US
Allowed emission levelIntegration BandwidthFrequency offset from centre
,13 dBm100 kHz5 ? ?f < 6 MHz
,13 dBm1 MHz6 ? ?f ? 25 MHz
13
14Table 49. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 3-US
Allowed emission levelIntegration BandwidthFrequency offset from centre
,13 dBm200 kHz10 ? ?f < 11 MHz
,13 dBm1 MHz11 ? ?f ? 50 MHz
15The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 50.
1IEEE L802.16-09/0087r1
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1Table 50. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 3Segment Integration Allowed Emission Level (dBm/Integration Bandwidth) Frequency offset ?f
NumberBandwidth as measured at the antenna portfrom channel
(kHz)center (MHz)
12.5 to 7.5100-7.0-7(?f-2.55)/5
27.5 to 12.5100-14.0
23Notes:
44.f is the absolute value of separation in MHz between the carrier frequency and the centre of the
5measuring filter.
65.The first measurement position with a 100 kHz filter is at ?f equals to 2.550 MHz; the last is at ?f equals to 712.450 MHz.
86.Integration Bandwidth refers to the frequency range over which the emission power is integrated.
9
10The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 51.
11Table 51. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 3Segment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth) NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
15 to 10100-7.0-7(f-?5.05)/5
210 to 15100-14.0
315 to 251000-13.0
1213Notes:
144. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 15measuring filter.
165.The first measurement position with a 100 kHz filter is at ?f equals to 5.05 MHz; the last is at ?f equals to 1714.95 MHz. The first measurement position with a 1 MHz filter is at ?f equals to 15.5 MHz; the last is at ?f 18equals to 24.5 MHz.
196.Integration Bandwidth refers to the frequency range over which the emission power is integrated.
2021The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 52.
22Table 52. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 3Segment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth) NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
110 to 15100-7.0-7(f-?10.05)/5
215 to 20100-14.0
320 to 501000-13.0
1IEEE L802.16-09/0087r1
2
12Notes:
34. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 4measuring filter.
55.The first measurement position with a 100 kHz filter is at ?f equals to 10.05 MHz; the last is at f equals to ?
619.95 MHz. The first measurement position with a 1 MHz filter is at ?f equals to 20.5 MHz; the last is at ?f 7equals to 49.5 MHz.
86.Integration Bandwidth refers to the frequency range over which the emission power is integrated.
9
10Band Class 5
11TDD
12The Spectrum Emission Mask for 5, 10 and 20 MHz bandwidth sizes are specified in Table 53 and Table
1354. Table 53 specifies breakpoints of the underlying piecewise linear power spectral density mask. This 14mask is a relative mask. Table 53 specifies breakpoints of the underlying piecewise linear power spectral 15density mask. This mask is a relative mask and conditionally applicable depending on the base station
16Pnom power level. Table 54 Table 46 specifies the emission levels of an underlying piecewise step
17function appliable conditionally only to some of Pnom power levels.
18Table 53. Relative Transmit Spectral Power Density Mask
0.5*BW
0.71*BW
1.06*BWFrequency Offset
2.0*BWFrequency OffsetPower
2.5*BWFrequency Offset
39 dBm P-50dB-20 dB-27 dB-32 dB-50dBnom
Refer to 33 dBm P? ? 39 -50 dB + (39 dBm c- nom-20 dB-27 dB-32 dBTable 54TP) dBmnomable 4619
20Table 54. Absolute Transmit Spectral Power Density MaskSpectral Emission Mask
0.50 BW ? ?f < 0.71 BW
0.71 BW ? ?f < 1.06 BW
Frequency 1.06 BW ? ?f < 2.00 BW
OffsetPower2.00 BW ? ?f < 2.50 BWFrequency Offset
0.50 BW ? ?f < 0.71 BW ? ?f < 1.06 1.06 BW ? ?f < 2.00 BW ? ?f ?
0.71 BWBW2.00 BW2.50 BW33 dBm < ?Pnom Refer to Table 53Refer to Table 53Refer to Table 53-21 + x dBm/MHz? ? 39 dBm
P ?? 33 dBm -5.5 dBm/MHz-5.5 dBm/MHz-23.5 dBm/MHz-23.5 dBm/MHznom
21
Notes: 22
1.In Table 54Table 46, x = -10 log(BW/10)23
24FDD
25[Editor Note: The spectrum emission mask for this case is TBD.]
1IEEE L802.16-09/0087r1
2
1Band Class 6
2Frequency Sub-band 1710-175570/2110-215570 MHz3
4The Spectrum Emission Mask of Table 55 and Table 56 and Table 52 apply to US regionfor 5 MHz 5bandwidth is specified in Table 55.
6Table 55. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 5 (1710-1755/2110-
2155 MHz)Band Class 67
12.5 to < 3.550-13.00
21000-13.003.5 to ? 12.5
8
9The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 56.
Table 56. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 5 (1710-1755/2110-10
112155 MHz)Band Class 615 to < 6100-13.00
21000-13.006 to ? 25
12
13The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 57.
Table 57. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 5 (1710-1755/2110-14
152155 MHz)Band Class 6
Measurement
bandwidthIntegration
Bandwidth
,13 dBm200 kHz10 ? ?f < 11 MHz
,13 dBm1 MHz11 ? ?f ?< 50 MHz
16
17Frequency Sub-band other than 1710-1770/2110-2170 MHz
18
19The Spectrum Emission Mask for 5 MHz bandwidth is specified in Table 58.
Table 58. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 620
Segment Integration Allowed Emission Level (dBm/Integration Bandwidth) Frequency offset ?f
NumberBandwidth as measured at the antenna portfrom channel
(kHz)center (MHz)
12.5 to 7.5100-7.0-7(?f-2.55)/5
27.5 to 12.5100-14.0
1IEEE L802.16-09/0087r1
2
12Notes:
31. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 4measuring filter.
52.The first measurement position with a 100 kHz filter is at f equals to 2.550 MHz; the last is at f equals to ??612.450 MHz.
73.Integration Bandwidth refers to the frequency range over which the emission power is integrated.
8
9The Spectrum Emission Mask for 10 MHz bandwidth is specified in Table 59.
10Table 59. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 6
Segment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth)
NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
15 to 10100-7.0-7(f-?5.05)/5
210 to 15100-14.0
315 to 251000-13.0
1112Notes:
131. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 14measuring filter.
152.The first measurement position with a 100 kHz filter is at ?f equals to 5.05 MHz; the last is at ?f equals to 1614.95 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. 17
3.Integration Bandwidth refers to the frequency range over which the emission power is integrated.18
1920The Spectrum Emission Mask for 20 MHz bandwidth is specified in Table 60.
21Table 60. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 6Segment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth)
NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
110 to 15100-7.0-7(f-?10.05)/5
215 to 20100-14.0
320 to 501000-13.0
2223Notes:
241. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 25measuring filter.
262.The first measurement position with a 100 kHz filter is at ?f equals to 10.05 MHz; the last is at ?f equals to 2719.95 MHz. The first measurement position with a 1 MHz filter is at ?f equals to 20.5 MHz; the last is at ?f 28equals to 49.5 MHz.
293.Integration Bandwidth refers to the frequency range over which the emission power is integrated.
30
31
1IEEE L802.16-09/0087r1
2
1Band Class 7
2The Spectrum Emission Mask of Table 61, Table 62 and Table 63 apply to US region.
3Table 61. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 7-USSegment Frequency Integration Allowed Emission Level (dBm/Integration NumberBandwidth Bandwidth) as measured at the antenna offset ?f
(kHz)portfrom channel
center (MHz)
12.5 to < 2.630-13
22.6 to ?12.5100-13
4Notes:
51. f is the separation between the carrier frequency and the centre of the measuring filter.
62. The first measurement position with a 30 kHz filter is at ? f equals to 2.515 MHz; the last is at ? f 7equals to 2.585 MHz. The first measurement position with a 100 kHz filter is at ?f equals to 2.650 8MHz; the last is at ?f equals to 12.450 MHz.
9Table 62. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 7-USSegment Frequency offset Integration Allowed Emission Level (dBm/Integration
NumberBandwidth Bandwidth) as measured at the antenna ?f from channel
(kHz)portcenter (MHz)
15.0 to < 5.130-13
25.1 to ? 25.0100-13
1011Notes:
121. f is the separation between the carrier frequency and the centre of the measuring filter.
132. The first measurement position with a 30 kHz filter is at ? f equals to 5.015 MHz; the last is at ? f 14equals to 5.085 MHz. The first measurement position with a 100 kHz filter is at ?f equals to 5.150 15MHz; the last is at ?f equals to 24.950 MHz.
16Table 63. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 7-USSegment Frequency offset Integration Allowed Emission Level (dBm/Integration
NumberBandwidth Bandwidth) as measured at the antenna ?f from channel
(kHz)portcenter (MHz)
110.0 to <10.130-13
210.1 to ? 50.0100-13
17
The Spectrum Emission Mask of Table 70, Table 71 and Table 72 apply to Europe region.18
1920Notes:
211. f is the separation between the carrier frequency and the centre of the measuring filter.
222. The first measurement position with a 30 kHz filter is at ? f equals to 10.015 MHz; the last is at ? f 23equals to 10.085 MHz. The first measurement position with a 100 kHz filter is at ?f equals to 2410.150 MHz; the last is at ?f equals to 50.950 MHz. 25
1IEEE L802.16-09/0087r1
2
1
2THE SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH IS SPECIFIED IN TABLE 64.3Table 64. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 7
ALLOWED EMISSION LEVELMEASUREMENT FREQUENCY OFFSET FROM
BANDWIDTHCENTRE
~13 DBM50 KHZ2.5 ? ?F < 3.5 MHZ
~13 DBM1 MHZ3.5 ? ?F < 12.5 MHZ
4
5THE SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH IS SPECIFIED IN TABLE65.6
7Table 65. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 7
ALLOWED EMISSION LEVELMEASUREMENT FREQUENCY OFFSET FROM
BANDWIDTHCENTRE
~13 DBM100 KHZ5 ? ?F < 6 MHZ
~13 DBM1 MHZ6 ? ?F < 25 MHZ
8
9THE SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH IS SPECIFIED IN TABLE1066.
11Table 66. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 7
ALLOWED EMISSION LEVELMEASUREMENT FREQUENCY OFFSET FROM
BANDWIDTHCENTRE
~13 DBM200 KHZ10 ? ?F < 11 MHZ
~13 DBM1 MHZ11 ? ?F < 50 MHZ
12
13[EDITOR NOTE: THE SPECTRUM EMISSION MASK FOR THIS SECTION NEEDS TO BE 14REVISITED BASED ON REVIEW OF ECC GUIDELINES. TBD]FDD15
[EDITOR NOTE: THE SPECTRUM EMISSION MASK FOR THIS SECTION NEEDS TO BE 16
17DEVELOPED BASED ON PARTITIONING OF US SUB-BANDS (698-805 MHZ) AND EU SUB-
BAND (DIGITAL DIVIDEND 798-862 MHZ). TBD]18
19
20BAND CLASS 8
21
THE SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH IS SPECIFIED IN TABLE 67.22
23TABLE 67. SPECTRUM EMISSION MASK FOR 5 MHZ BANDWIDTH BAND CLASS 8
1IEEE L802.16-09/0087r1
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SEGMENFREQUENCY INTEGRATIOALLOWED EMISSION LEVEL T N (DBM/INTEGRATION BANDWIDTH) AS OFFSET ?F
NUMBERBANDWIDTH MEASURED AT THE ANTENNA PORTFROM CHANNEL
(KHZ)CENTER (MHZ)
12.5 TO 7.5100-7.0-7(?F-2.55)/5
27.5 TO 12.5100-14.0
1
2NOTES:
3,F IS THE ABSOLUTE VALUE OF SEPARATION IN MHZ BETWEEN THE CARRIER 4FREQUENCY AND THE CENTRE OF THE MEASURING FILTER.5THE FIRST MEASUREMENT POSITION WITH A 100 KHZ FILTER IS AT ?F EQUALS TO 62.550 MHZ; THE LAST IS AT ?F EQUALS TO 12.450 MHZ. 7INTEGRATION BANDWIDTH REFERS TO THE FREQUENCY RANGE OVER WHICH THE EMISSION POWER IS INTEGRATED.8
9
10THE SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH IS SPECIFIED IN TABLE68.11
12TABLE 68. SPECTRUM EMISSION MASK FOR 10 MHZ BANDWIDTH BAND CLASS 8SEGMENFREQUENCY INTEGRATION ALLOWED EMISSION LEVEL T BANDWIDTH (DBM/INTEGRATION BANDWIDTH) AS OFFSET ?F
NUMBER(KHZ)MEASURED AT THE ANTENNA PORTFROM
CHANNEL
CENTER (MHZ)
15 TO 10100-7.0-7(?F-5.05)/5
210 TO 15100-14.0
315 TO 251000-13.0
13
14NOTES:
15,F IS THE ABSOLUTE VALUE OF SEPARATION IN MHZ BETWEEN THE CARRIER 16FREQUENCY AND THE CENTRE OF THE MEASURING FILTER.17THE FIRST MEASUREMENT POSITION WITH A 100 KHZ FILTER IS AT ?F EQUALS TO 185.05 MHZ; THE LAST IS AT ?F EQUALS TO 14.95 MHZ. THE FIRST MEASUREMENT 19POSITION WITH A 1 MHZ FILTER IS AT ?F EQUALS TO 15.5 MHZ; THE LAST IS AT ?F 20EQUALS TO 24.5 MHZ.
21INTEGRATION BANDWIDTH REFERS TO THE FREQUENCY RANGE OVER WHICH THE 22EMISSION POWER IS INTEGRATED.
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1THE SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH IS SPECIFIED IN TABLE269.
3TABLE 69. SPECTRUM EMISSION MASK FOR 20 MHZ BANDWIDTH BAND CLASS 8SEGMENFREQUENCY INTEGRATION ALLOWED EMISSION LEVEL T BANDWIDTH (DBM/INTEGRATION BANDWIDTH) AS OFFSET ?F
NUMBER(KHZ)MEASURED AT THE ANTENNA PORTFROM
CHANNEL
CENTER (MHZ)
110 TO 15100-7.0-7(?F-10.05)/5
215 TO 20100-14.0
320 TO 501000-13.0
4Table 70. Spectrum Emission Mask for 5 MHz Bandwidth Band Class 7-EuropeSegment Integration Allowed Emission Level (dBm/Integration Bandwidth) Frequency offset ?f
NumberBandwidth as measured at the antenna portfrom channel
(kHz)center (MHz)
12.5 to <7.5100-7-7(?f-2.55)/5
2100-147.5 to ?12.5
56Notes:
71. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 8measuring filter.
92. The first measurement position with a 100 kHz filter is at ? f equals to 2.550 MHz; the last is at ? f equals to 1012.450 MHz.
113. Integration Bandwidth refers to the frequency range over which the emission power is integrated.
12
13Table 71. Spectrum Emission Mask for 10 MHz Bandwidth Band Class 7-EuropeSegment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth) NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
15 to <10100-7-7(f-?5.05)/5
210 to <15100-14
3100-13 15 to ?25
1415Notes:
161. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 17measuring filter.
182. The first measurement position with a 100 kHz filter is at ? f equals to 5.05 MHz; the last is at ? f equals to
24.95 MHz. 19
203. Integration Bandwidth refers to the frequency range over which the emission power is integrated.
21
22Table 72. Spectrum Emission Mask for 20 MHz Bandwidth Band Class 7-EuropeSegment Frequency offset Integration Allowed Emission Level (dBm/Integration Bandwidth) NumberBandwidth (kHz)as measured at the antenna port?f from channel
center (MHz)
110 to <15100-7-7(f-?10.05)/5
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215 to <20100-14
3100-1320 to ?50
12Notes:
31. f is the absolute value of separation in MHz between the carrier frequency and the centre of the 4measuring filter.
52. The first measurement position with a 100 kHz filter is at ? f equals to 10.05 MHz; the last is at f equals to ?649.95 MHz.
73. Integration Bandwidth refers to the frequency range over which the emission power is integrated.
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1IEEE L802.16-09/0087r12
1ANNEX B: PROPOSED RESPONSES TO SOME OPEN ITEMS IN “[DRAFT] SUBMISSION OF 2A CANDIDATE IMT-ADVANCED RIT BASED ON IEEE 802.16 (PART I)”
3
4.2.3.2.10.Provide details of any power control scheme included in the proposal, for example:
2
[In downlink, power levels can be set in a per-allocation basis and detail of
power setting is implementation specific.] For uplink power control, details are
provided below.
{Response to this question is not within scope of WiMAX Forum. It is suggested
to refer to the relevant sections in AWD-D1.}
– Power control step size (dB)
0.5 dB
– Power control cycles per second
Maximum one power control command per subframe that translates into 1600
Hz.
– Power control dynamic range (dB)
The power adjustment range is -0.5 dB to 1.0 dB. The minimum power control
dynamic range required is 45 dB.
– M inimum transmit power level with power control
The minimum transmit power of an MS with power control is -22 dBm assuming
23 dBm declared maximum transmit power and minimum 45 dB dynamic range.
The power levels indicated here are at the antenna port and do not reflect the
effect of antenna gain.
– A ssociated signaling and control messages.
To maintain at the BS a power density consistent with the modulation and coding
rate used by each MS, the BS may change the MS’s TX power through direct
power adjustment/control signaling.
The uplink power control is signaled as part of downlink control structure. See
the illustrations in item 4.2.3.2.7.1 and more details in section 15.3.6.2.2.4 of
[1].
4
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4.2.3.2.11Power classes
4.2.3.2.11.1 Mobile station emitted power
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4.2.3.2.11.1.1What is the radiated antenna power measured at the antenna (dBm)?
The typical conducted output transmit power, measured as the mean power delivered to
the antenna port, according to Power Class 2 of Section YYY is less than or equal to 23
dBm. The total radiated antenna power, assuming 0 dBi antenna gain is less than or
equal to 23 dBm.
4.2.3.2.11.1.2 What is the maximum peak power transmitted while in active or busy state?
The maximum peak power transmitted while in active or busy state is 23 dBm.4.2.3.2.11.1.3What is the time averaged power transmitted while in active or busy state? Provide a
detailed explanation used to calculate this time average power.
[Editor Note: TBD]
{A complete response to this TBD possibly requires SLS simulation within the
framework of ITU specified Test Environments that is currently done in IEEE.} 4.2.3.2.11.2Base station emitted power
4.2.3.2.11.2.1What is the base station transmit power per RF carrier?
Base Stations transmit power, measured as the mean power delivered to the antenna
port, depends on various factors including those related to the deployment scenario and
possible local Regulatory requirements. 4.2.3.2.11.2.2 What is the maximum peak transmitted power per RF carrier radiated from antenna?
The maximum peak transmitted power per RF carrier radiated from antenna depends
on the Base Station peak transmit power at the antenna port and the antenna gain.
The peak transmitted power per RF carrier radiated from antenna is within a range of
values properly considered to cover target deployment scenarios. This value may be
subject to local Regulatory limitations.
4.2.3.2.11.2.3What is the average transmitted power per RF carrier radiated from antenna?
[Editor Note: TBD]
{A complete response to this TBD possibly requires SLS simulation within the
framework of ITU specified Test Environments that is currently done in IEEE.} 1
2
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4NOTES:
5,F IS THE ABSOLUTE VALUE OF SEPARATION IN MHZ BETWEEN THE CARRIER 6FREQUENCY AND THE CENTRE OF THE MEASURING FILTER.7THE FIRST MEASUREMENT POSITION WITH A 100 KHZ FILTER IS AT ?F EQUALS TO 810.05 MHZ; THE LAST IS AT ?F EQUALS TO 19.95 MHZ. THE FIRST MEASUREMENT 9POSITION WITH A 1 MHZ FILTER IS AT ?F EQUALS TO 20.5 MHZ; THE LAST IS AT ?F 10EQUALS TO 49.5 MHZ.
11INTEGRATION BANDWIDTH REFERS TO THE FREQUENCY RANGE OVER WHICH THE 12EMISSION POWER IS INTEGRATED.
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