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本文(ITU-R F 384-11-2012 Radio-frequency channel arrangements for medium- and high-capacity digital fixed wireless systems operating in the 6 425-7 125 MHz band《运行于6425-7125 MHz频段的中大容量数.pdf)为本站会员(boatfragile160)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ITU-R F 384-11-2012 Radio-frequency channel arrangements for medium- and high-capacity digital fixed wireless systems operating in the 6 425-7 125 MHz band《运行于6425-7125 MHz频段的中大容量数.pdf

1、 Recommendation ITU-R F.384-11(03/2012)Radio-frequency channel arrangements for medium- and high-capacity digital fixed wireless systems operating in the 6 425-7 125 MHz bandF SeriesFixed serviceii Rec. ITU-R F.384-11 Foreword The role of the Radiocommunication Sector is to ensure the rational, equi

2、table, 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 Radiocommunicatio

3、n 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 Resolutio

4、n 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 datab

5、ase 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 Fixed se

6、rvice 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 SM S

7、pectrum 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, 2012 ITU 2012 All rights rese

8、rved. No part of this publication may be reproduced, by any means whatsoever, without written permission of ITU. Rec. ITU-R F.384-11 1 RECOMMENDATION ITU-R F.384-11 Radio-frequency channel arrangements for medium- and high-capacity digital fixed wireless systems operating in the 6 425-7 125 MHz band

9、 (1963-1966-1974-1982-1986-1990-1995-1999-2003-2006-2007-2012) Scope This Recommendation provides radio-frequency channel arrangements for fixed wireless systems operating in the upper 6 GHz band (6 425-7 125 MHz), which may be used for high-, medium- and low-capacity fixed systems. The channel sepa

10、ration recommended in the main text are 40, 30, 20, 10 and 5 MHz with the interleaved arrangements with possible use of the co-channel arrangements; recommended arrangements with 14, 7 and 3.5 MHz channel separations in combination with the 30 MHz arrangement are also provided in Annex 2. The use of

11、 multi-carrier transmission based on these arrangements is also considered in the Annex 1 providing detailed description of this application. The ITU Radiocommunication Assembly, considering a) that fixed wireless systems (FWSs) with medium and high capacity should prove to be feasible in the upper

12、6 GHz band, if due care is exercised in the planning of radio paths to reduce multipath effects; b) that it is sometimes desirable to be able to interconnect, at radio frequencies, FWSs on international links in the upper 6 GHz band; c) that a common RF channel arrangement for FWS offers considerabl

13、e advantages; d) that the use of digital modulation (see Recommendation ITU-R F.1101) permits the use of the RF channel arrangement for the transmission of a bit rate of the order of 140 Mbit/s or synchronous digital hierarchy (SDH) bit rates; e) that for these digital radio systems, further economi

14、es are possible by accommodating up to eight go and return channels on a single antenna with suitable performance characteristics; f) that many interfering effects can be reduced substantially by a carefully planned arrangement of the radio frequencies in FWS employing several RF channels; g) that s

15、ingle- and multi-carrier digital FWS are both useful concepts to achieve the best technical and economic trade-off in system design; h) that digital techniques such as cross-polar interference cancellers (XPIC) may significantly contribute to the cross-polar discrimination improvement factor (XIF, d

16、efined in Recommendation ITU-R F.746), thus counteracting the multipath-induced propagation depolarization; j) that when very high-capacity links (e.g. twice Synchronous Transfer Mode-1 (STM-1) are required, further economy may be achieved using system bandwidths wider than the recommended channel s

17、eparation, associated to highly efficient modulation formats, 2 Rec. ITU-R F.384-11 recommends 1 that the preferred RF channel arrangement for up to eight go and eight return channels, each accommodating a bit rate of the order of 140 Mbit/s, or synchronous digital hierarchy bit rates (see Note 2),

18、and operating at frequencies in the upper 6 GHz band, should be derived as follows: Let f0be the frequency of the centre of the band of frequencies occupied (MHz), fnbe the centre frequency of one RF channel in the lower half of the band (MHz), nf be the centre frequency of one RF channel in the upp

19、er half of the band (MHz), then the frequencies of individual channels are expressed by the following relationships: lower half of the band: fn= f0 350 + 40 n MHz upper half of the band: nf = f0 10 + 40 n MHz where: n = 1, 2, 3, 4, 5, 6, 7 or 8; 1.1 that, in the section over which the international

20、connection is arranged, 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; 1.2 that different polarizations may be used alternately for adjacent RF channels in the same half of the band; 1.3 that the go and return channels on a

21、 given section should preferably use polarizations as shown below and in Fig. 1a (see Note 2 and Note 3): Go Return H(V) 1 3 5 7 1 3 5 7 V(H) 2 4 6 8 2 4 6 8 1.4 that for improving the spectral efficiency the co-channel arrangement in Fig. 1b) may also be used for digital FWS; 1.5 that when very hig

22、h-capacity links (e.g. twice STM-1) are required and network coordination permits, with the agreement of the administrations concerned, the use of any two adjacent 40 MHz channels specified in recommends 1 is possible, for wider bandwidth systems, with the centre frequency lying in the central point

23、 of the distance between the two 40 MHz adjacent channels; FIGURE 1a Radio-frequency alternated channel arrangement for high capacity fixed wireless systems (All frequencies in MHz) F.0384-01a340 34034013 57 1 3 5 72468 2 4 6 840 60foChannelnumberV (H)H (V)Rec. ITU-R F.384-11 3 FIGURE 1b Radio-frequ

24、ency co-channel arrangement for high capacity fixed wireless systems (All frequencies in MHz) F.0384-01b340 3403401357 1 3 5 740 60foChannelnumberV (H)H (V)2468 2 4 6 82 that the preferred radio-frequency channel arrangement for up to 16 go and 16 return channels, each accommodating digital plesioch

25、ronous or synchronous medium capacity rates shown in Fig. 2, should be obtained by interleaving additional channels between those of the main pattern of recommends 1 and should be expressed by the following relationship: lower half of the band: fn= f0 350 + 20 n MHz upper half of the band: nf = f0 1

26、0 + 20 n MHz where: n = 1, 2, 3, . . . 15, 16; 2.1 that, in the section over which international connection is arranged, all the go channels should be in one half of the band and all the return channels in the other half of the band; 2.2 that different polarizations may be used alternately for adjac

27、ent RF channels in the same half of the band; co-channel frequency reuse may be used where appropriate; FIGURE 2 Radio-frequency for medium capacity fixed wireless systems (All frequencies in MHz) F.0384-02340 34034013 15 1 3 1520 40foChannelnumberV (H)21462 14 163 that if multi-carrier transmission

28、 (Note 4) is employed, the overall number of n carriers will be regarded as a single channel. The centre frequency of that channel should be derived from recommends 1, recommends 1.6 or recommends 4.2, disregarding the actual centre frequencies of the individual carriers, which may vary, for technic

29、al reasons, according to practical implementations. Operation of multi-carrier systems is addressed in greater detail in Annex 1; 4 that the preferred RF channel arrangement for up to ten go and ten return 30 MHz channels, each accommodating a bit rate of the order of 155 Mbit/s, or SDH bit rates (s

30、ee Note 1), should be derived as follows: 4 Rec. ITU-R F.384-11 Let f0be the frequency of the centre of the band of frequencies occupied (MHz), fnbe the centre frequency of one RF channel in the lower half of the band (MHz), nf be the centre frequency of one RF channel in the upper half of the band

31、(MHz), then the frequencies of individual channels are expressed by the following relationships: lower half of the band: fn= 0f 340 + 30 n MHz upper half of the band: nf = 0f + 30 n MHz where: n = 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10. n = 11 may also be considered, taking into account the limited centre

32、-gap (10 MHz) between channels 11 and 1 and the overlapping with channel 1 of the 20 MHz channel arrangement in recommends 2. However, its usage might add further flexibility in coordinating congested areas of the network; 4.1 that when the equipment and network characteristics permit, co-channel fr

33、equency reuse can be employed, with the agreement of the administrations concerned, for improving spectral efficiency; 4.2 that 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 conce

34、rned, the use of any two adjacent 30 MHz channels specified in recommends 4 is possible, for wider bandwidth system, with centre frequency lying in the central point of the distance between the two 30 MHz adjacent channels; 4.3 that RF channel arrangements with 14 MHz, 7 MHz and 3.5 MHz may be obtai

35、ned by a suitable channel subdivision coherent with the 30 MHz RF channels as shown in Annex 2; 5 that the preferred RF channel arrangement for up to 32 go and 32 return 10 MHz channels, each accommodating digital synchronous medium capacity rates, should be expressed by the following relationships:

36、 lower half of the band: fn= f0 340 + 10 n MHz upper half of the band: nf = f0+ 10 n MHz where: n = 1, 2, 3, . . . 31, 32; 6 that the preferred RF channel arrangement for up to 64 go and 64 return 5 MHz channels, each accommodating digital synchronous medium capacity rates, should be expressed by th

37、e following relationships: lower half of the band: fn= f0 340 + 5 n MHz upper half of the band: nf = f0+ 5 + 5 n MHz where: n = 1, 2, 3, . . . 63, 64; 7 that the preferred centre frequency f0, is 6 770 MHz; in addition, other centre frequencies may be used by agreement between the administrations co

38、ncerned; Rec. ITU-R F.384-11 5 8 that RF channel arrangements with 20 MHz, 10 MHz, and 5 MHz may also be alternatively obtained by subdividing the 40 MHz RF channels of the arrangement in recommends 1. NOTE 1 Actual gross bit rates including overhead may be as much as 5% or more higher than net tran

39、smission rates. NOTE 2 When common transmit-receive antennas are used and channel 8 is used together with channel 1, either in the arrangement of Fig. 1a or in the even more problematic arrangement of Fig. 1b, special branching and filters arrangement may be needed for limiting mutual impairments an

40、d permitting their common operation. NOTE 3 In previous versions of this Recommendation, the alternative arrangement of polarization, shown below, has been recommended and used in past deployment of analogue systems up to 2 700 channels. Such an arrangement is possibly maintained in the migration to

41、 digital systems and may still be in use by agreement between the administrations concerned: Go ReturnH(V) 1 3 5 7 2 4 6 8 V(H) 2 4 6 8 1 3 5 7 NOTE 4 A multi-carrier system is a system with n (where n 1) digitally modulated carrier signals simultaneously transmitted (or received) by the same RF equ

42、ipment. The centre frequency should be regarded as the arithmetic average of the n individual carrier frequencies of the multi-carrier system. Annex 1 Description of a multi-carrier system A multi-carrier system is a system with n (where n 1) digitally modulated carrier signals simultaneously transm

43、itted (or received) by the same RF equipment. For high capacity multi-carrier transmission, the centre frequency of the channel should coincide with one of the corresponding frequencies of the basic channel arrangements given in recommends 1, recommends 1.6 or recommends 4.2. The channel spacing may

44、 be an integer multiple of the basic values defined by recommends 1, 2 or 4. Compatibility with existing configurations has to be taken into account when choosing the appropriate alternative. Examples of co-polar frequency reuse channel arrangements using a two-carrier system with 64-QAM are shown i

45、n Fig. 3. Each carrier is modulated with 155.52 Mbit/s (STM-1). The centre frequencies of the channel arrangement in Fig. 3a) are derived from recommends 1 by setting n = 2, 4, 6, 8. Channel spacing is 80 MHz. Each RF-channel contains 2 2 carriers allocated at 17.5 MHz around the centre frequency us

46、ing both polarizations. This was preferable when analogue to digital transition was in progress. Figure 3b) shows an interleaved channel arrangement where centre frequencies are derived from recommends 1.6 by combining channels with n = 1 and 2, 3 and 4, 5 and 6, 7 and 8. This channel arrangement is

47、 preferred because it provides more symmetrical guardbands at the band edges. 6 Rec. ITU-R F.384-11 FIGURE 3 Example of radio-frequency channel arrangements for a 2 2 155.52 Mbit/s (4 STM-1) fixed wireless system operating with 80 MHz channel spacing in the upper 6 GHz band (All frequencies in MHz)

48、F.0384-03803406 500 6 580 6 660 6 7406 7706 840 7 0806 920 7 000803406 480 6 560 6 640 6 7206 7706 820 7 0606 900 6 980a) Channel arrangement preferred if compatibility with analogue radio-relay systems is requiredb) Channel arrangement preferred if compatibility with analogue radio-relay systems is

49、 not requiredAnnex 2 14 MHz, 7 MHz and 3.5 MHz arrangements referred to in recommends 4.3 Narrow-band 14 MHz, 7 MHz and 3.5 MHz channels are obtained formally subdividing each of the 30 MHz channels provided in recommends 4 using the residual 2 MHz as internal guardbands between each 30 MHz slot as shown in Fig. 4. The whole set of channels centre frequencies may be obtained by the following relationships: a) for systems with a carrier spacing of 14 MHz: lower half of the band: fn = f0 340 + 9 + n*14

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