ITU-R F 1099-5-2013 Radio-frequency channel arrangements for high- and medium-capacity digital fixed wireless systems in the upper 4 GHz (4 400-5 000 MHz) band《在高于4 GHz(4 400-5 000.pdf

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1、 Recommendation ITU-R F.1099-5(02/2013)Radio-frequency channel arrangements for high- and medium-capacity digital fixed wireless systems in the upper 4 GHz (4 400-5 000 MHz) bandF SeriesFixed serviceii Rec. ITU-R F.1099-5 Foreword The role of the Radiocommunication Sector is to ensure the rational,

2、equitable, efficient and economical use of the radio-frequency spectrum by all radiocommunication services, including satellite services, and carry out studies without limit of frequency range on the basis of which Recommendations are adopted. The regulatory and policy functions of the Radiocommunic

3、ation Sector are performed by World and Regional Radiocommunication Conferences and Radiocommunication Assemblies supported by Study Groups. Policy on Intellectual Property Right (IPR) ITU-R policy on IPR is described in the Common Patent Policy for ITU-T/ITU-R/ISO/IEC referenced in Annex 1 of Resol

4、ution ITU-R 1. Forms to be used for the submission of patent statements and licensing declarations by patent holders are available from http:/www.itu.int/ITU-R/go/patents/en where the Guidelines for Implementation of the Common Patent Policy for ITU-T/ITU-R/ISO/IEC and the ITU-R patent information d

5、atabase can also be found. Series of ITU-R Recommendations (Also available online at http:/www.itu.int/publ/R-REC/en) Series Title BO Satellite delivery BR Recording for production, archival and play-out; film for television BS Broadcasting service (sound) BT Broadcasting service (television) F Fixe

6、d service M Mobile, radiodetermination, amateur and related satellite services P Radiowave propagation RA Radio astronomy RS Remote sensing systems S Fixed-satellite service SA Space applications and meteorology SF Frequency sharing and coordination between fixed-satellite and fixed service systems

7、SM Spectrum management SNG Satellite news gathering TF Time signals and frequency standards emissions V Vocabulary and related subjects Note: This ITU-R Recommendation was approved in English under the procedure detailed in Resolution ITU-R 1. Electronic Publication Geneva, 2013 ITU 2013 All rights

8、reserved. No part of this publication may be reproduced, by any means whatsoever, without written permission of ITU. Rec. ITU-R F.1099-5 1 RECOMMENDATION ITU-R F.1099-5 Radio-frequency channel arrangements for high- and medium-capacity digital fixed wireless systems in the upper 4 GHz (4 400-5 000 M

9、Hz) band (Question ITU-R 247/5) (1994-1995-1997-1999-2007-2013) Scope This Recommendation provides radio-frequency channel arrangements for fixed wireless systems (FWSs) operating in the upper 4 GHz band (4 400-5 000 MHz), which may be used for high- and medium-capacity fixed systems, based on a 10

10、MHz common pattern. Annexes 1 and 2 provide channel arrangements in line with the main body provisions, with 20, 40, 80 MHz. Annex 3 provides an alternative arrangement with 28 MHz channels. Both co-channel and alternated arrangements are provided as well as information on multi-carrier transmission

11、 based on these arrangements. The ITU Radiocommunication Assembly, considering a) that high-capacity digital fixed wireless systems (FWSs) of 90 Mbit/s or higher rates conveying plesiochronous or synchronous digital hierarchy (PDH or SDH) signals are required in the 5 GHz radio-frequency (RF) bands;

12、 b) that the centre gaps of the individual channel arrangements and the guard spacing at the edges of the band can be chosen by non-occupancy of a suitable number of RF-channel positions in a homogeneous basic pattern; c) that the uniform basic pattern spacing should not be unjustifiably small nor s

13、o large as to jeopardize efficient use of the available spectrum; d) that the absolute frequencies of the basic pattern should be defined by a single reference frequency; e) that single- and multi-carrier digital FWS are both useful concepts to achieve the best technical and economic trade-off in th

14、e system design, recommends 1 that the preferred RF channel arrangement for high-capacity digital FWS of 90 Mbit/s or higher rates conveying PDH or SDH signals (see Note 1), operating in the 5 GHz band, should be selected from a homogeneous pattern with the following characteristics. Centre frequenc

15、ies fpof the RF channels within the basic pattern: fp= 5 000 10 p MHz p : integral 1, 2, 3 . (see Note 2); 2 that all the go channels should be in one half of the band and all the return channels should be in the other half of the band; 3 that the channel spacing XS, the centre gap YS, the guard spa

16、ces Z1S and Z2S at the edges of the band and the antenna polarization should be agreed between the administrations concerned; 4 that the alternated or co-channel arrangement plan should be used, examples of which are shown in Fig. 1; 2 Rec. ITU-R F.1099-5 5 that RF channel arrangements derived from

17、recommends 1 for the 5 GHz band and given in Annexes 1 and 2 should be regarded as part of this Recommendation; 6 that if multi-carrier transmission (see Note 3 and Annex 1, 2) is employed, the overall number of n carriers will be regarded as a single channel, the centre frequency and channel spacin

18、g of which will be that defined according to Fig. 1, disregarding the actual centre frequencies of the individual carriers, which may vary, for technical reasons, according to practical implementations. NOTE 1 Actual gross bit rates including overhead may be as much as 5% or higher than net transmis

19、sion rates. NOTE 2 Due regard should be taken of the fact that in some countries where additional RF channels interleaved between those of main patterns are required, the values of the centre frequencies of these RF channels should be given by the following equation (see Annexes 1 and 2): fp= 4 995

20、10 p MHz NOTE 3 A multi-carrier system is a system with n (where n 1) digitally modulated carrier signals simultaneously transmitted (or received) by the same RF equipment. The centre frequency should be regarded as the arithmetic average of the n individual carrier frequencies of the multi-carrier

21、system. NOTE 4 Due regard should be taken of the fact that in some countries a different radio-frequency channel arrangement, based on 28 MHz channel separation, is used (see Annex 3). FIGURE 1 Examples of channel arrangements based on recommends 1 and 2 (For definitions of X, Y, Z and S see Recomme

22、ndation ITU-R F.746) F.1099-01NNNNN 1N 1H(V)V(H)H(V)V(H)Uniform basic spacing = 10 MHzExample ofco-channelarrangementExample ofalternatedarrangement42132133121 32 4Z S2XS YSZ S1ZS2XS YSZS1Rec. ITU-R F.1099-5 3 Annex 1 RF channel arrangement for the band 4 400-5 000 MHz with channel separation of 40

23、or 80 MHz 1 40 MHz RF channel arrangement 1.1 The following RF channel arrangement provides seven go and seven return channels with a transmission capacity up to 2 155 Mbit/s for radio systems with a suitable higher level modulation and spectrum efficiency up to 7.75 bit/s/Hz. The RF channel arrange

24、ment should be as shown in Fig. 2 and should be derived as follows: let 0f be the frequency (MHz) of the centre of the band of frequencies occupied, f0= 4 700, nf be the centre frequency (MHz) of one RF channel in the lower half of the band, nf be the centre frequency (MHz) of one RF channel in the

25、upper half of the band, then the frequencies of individual channels are expressed by the following relationships: lower half of the band: nf = f0 310 + 40 n MHz upper half of the band: nf = f0 10 + 40 n MHz where: n = 1, 2, 3, 4, 5, 6 or 7. FIGURE 2 Radio-frequency channel arrangement for radio-rela

26、y systems operating in the 5 GHz band (see Note 1) (All frequencies in MHz) F.1099-024 430 4 510 4 590 4 670 4 770 4 850 4 9301357 4 624 470 4 550 4 630 4 730 4 810 4 890 4 970246 13 5 780 604 400 4 700 5 000Go (return) Return (go)Note 1 Where a fewer number (four or less) of RF channels are initial

27、ly planned or required, the go and return paired assignments may employ the same polarisation. In this case, only the even numbered or odd numbered channels are utilized. 4 Rec. ITU-R F.1099-5 1.2 All the go channels should be in one half of the band and all the return channels should be in the othe

28、r half of the band. 1.3 Different polarizations should be used in an alternated pattern for RF channels in the same half of the band or where it is possible, band re-use in the co-channel mode may be utilized. 2 80 MHz co-channel dual polarized channel arrangement The channel arrangement depicted in

29、 Fig. 3 is based upon the use of a 2-carrier system transmitting 2 2 155.52 Mbit/s (4 STM-1) via two carrier pairs using both polarizations in the co-channel arrangement. In addition to the quadruplets of carriers in both go and return sub-band, two cross-polar single carriers can be introduced as p

30、rotection channels if necessary. Due to the fact that each carrier, i.e. baseband bit stream, can be switched individually, this (n + 2)-configuration acts at least as efficiently as a (n /2 + 1)-configuration when used as frequency diversity. FIGURE 3 Radio-frequency channel arrangement for a 2 2 1

31、55.52 Mbit/s (4 STM-1) radio-relay system operating in the 5 GHz (4 400-5 000 MHz) band (All frequencies in MHz) F.1099-035 0004 400 803004 450 4 530 4 610 4 690 4 750 4 830 4 910 4 9904 700Annex 2 RF channelling arrangements for the band 4 540-4 900 MHz with channel separation of 20 or 40 MHz This

32、Annex describes a RF channelling plan for digital radio systems in the band 4 540-4 900 MHz. The arrangement provides for up to four go and four return channels each accommodating either 4 45 Mbit/s, 6 45 Mbit/s or the SDH bit rate at 2 155 Mbit/s. A 512-QAM modulation scheme allows for system opera

33、tion at STM-1 or 2 STM-1. An alternative arrangement provides up to eight go and eight return channels each accommodating either 2 45 Mbit/s, 3 45 Mbit/s or the SDH bit rate at 155 Mbit/s. Rec. ITU-R F.1099-5 5 1 The RF channel arrangement is shown in Fig. 4 and is derived as follows: Let f0be the f

34、requency at the centre of the band: 0f = 4 720 MHz nf : centre frequency of one RF channel in the lower half of the band (MHz), nf : centre frequency of one RF channel in the upper half of the band (MHz), then the centre frequencies of the individual channels are expressed by the following relations

35、hips: lower half of the band: nf = f0 195 + 40 n MHz upper half of the band: nf = f0 5 + 40 n MHz where: n = 1, 2, 3 or 4. FIGURE 4 Radio-frequency channel arrangement for the 5 GHz band (All frequencies in MHz) 1 32 4132440HV180 180 4 540 4 900F.1099-04Channel No.0f = 4 7202 An alternative arrangem

36、ent is shown in Fig. 5 and the assignments are expressed as follows: The centre frequencies of the individual channels are expressed by the following relationships: lower half of the band: nf = f0 185 + 20 n MHz upper half of the band: nf = f0+ 5 + 20 n MHz where: f0= 4 720 MHz n = 1, 2, 3, 4, 5, 6,

37、 7 or 8. 3 All the go channels should be in one half of the band and all the return channels should be in the other half of the band. 6 Rec. ITU-R F.1099-5 FIGURE 5 Alternative radio-frequency channel arrangement for the 5 GHz band (All frequencies in MHz) F.1099-05Channel No.0f = 4 7201220180 180 4

38、 540 4 900 32 434HV576815 76 8Annex 3 RF channel arrangement in the band 4 400-5 000 MHz with channel separation of 28 MHz This Annex describes a RF channelling plan for digital systems in the band 4 400-5 000 MHz. The arrangement provides for up to 10 go and 10 return channels, each accommodating e

39、ither 4 34 Mbit/s or 1 139.368 Mbit/s or the synchronous bit rates. A 64-QAM or more complex modulation scheme allows for system operation at those bit rates. 1 The RF channel arrangement is shown in Fig. 6 and is derived as follows: Let f0be the frequency at the centre of the band: f0= 4 700 MHz fn

40、be the centre frequency of one radio-frequency channel in the lower half of the band (MHz) nf be the centre frequency of one radio-frequency channel in the upper half of the band (MHz), the centre frequencies of the individual channels are expressed by the following relationships: lower half of the

41、band: nf = f0 310 + 28 n upper half of the band: nf = f0+ 2 + 28 n Rec. ITU-R F.1099-5 7 where: n = 1, 2, 3, 4, 5, 6, 7, 8, 9, 10. FIGURE 6 Radio-frequency channel arrangement for the band 4 400-5 000 MHz with a 28 MHz channel spacing F.1099-061 23456789101828 6031218300 MHz 300 MHz1 2 3 4 5 6 7 8 9

42、 10f0 = 4 700 MHz2 All the go channels should be in one half of the band and all the return channels should be in the other half of the band. 3 This RF channelling arrangement also allows transmission of SDH, STM-1 at 155 520 kbit/s signals, using an appropriate modulation method. 4 When the equipme

43、nt and network characteristics permit, co-channel frequency reuse of the arrangement can be employed, with the agreement of the administrations concerned, for improving spectral efficiency. 5 When very high capacity links (e.g. twice Synchronous Transfer Mode-1(STM-1) are required and network coordination permits, with the agreement of the administrations concerned, the use of any two adjacent 28 MHz channels specified in recommends 1 is possible, for wider bandwidth systems, with centre frequency lying in the central point of the distance between the two 28 MHz adjacent channels.

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