1、 ETSI TR 125 951 V14.0.0 (2017-04) Universal Mobile Telecommunications System (UMTS); FDD Base Station (BS) classification (3GPP TR 25.951 version 14.0.0 Release 14) TECHNICAL REPORT ETSI ETSI TR 125 951 V14.0.0 (2017-04)13GPP TR 25.951 version 14.0.0 Release 14Reference RTR/TSGR-0425951ve00 Keyword
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9、5.951 version 14.0.0 Release 14Intellectual Property Rights IPRs essential or potentially essential to the present document may have been declared to ETSI. The information pertaining to these essential IPRs, if any, is publicly available for ETSI members and non-members, and can be found in ETSI SR
10、000 314: “Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards“, which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web server (https:/ipr.etsi.org/). Pursuant to the ETSI IPR Policy, no inves
11、tigation, including IPR searches, has been carried out by ETSI. No guarantee can be given as to the existence of other IPRs not referenced in ETSI SR 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document. Foreword This Technical Report
12、 (TR) has been produced by ETSI 3rd Generation Partnership Project (3GPP). The present document may refer to technical specifications or reports using their 3GPP identities, UMTS identities or GSM identities. These should be interpreted as being references to the corresponding ETSI deliverables. The
13、 cross reference between GSM, UMTS, 3GPP and ETSI identities can be found under http:/webapp.etsi.org/key/queryform.asp. Modal verbs terminology In the present document “should“, “should not“, “may“, “need not“, “will“, “will not“, “can“ and “cannot“ are to be interpreted as described in clause 3.2
14、of the ETSI Drafting Rules (Verbal forms for the expression of provisions). “must“ and “must not“ are NOT allowed in ETSI deliverables except when used in direct citation. ETSI ETSI TR 125 951 V14.0.0 (2017-04)33GPP TR 25.951 version 14.0.0 Release 14Contents Intellectual Property Rights 2g3Foreword
15、 . 2g3Modal verbs terminology 2g3Foreword . 6g31 Scope 7g3- References 7g33 Definitions, symbols and abbreviations . 7g34 General . 7g35 System scenarios 7g35.1 Indoor Environment . 7g35.1.1 Path Loss Model . 7g35.2 Mixed Indoor Outdoor Environment . 8g35.2.1 Propagation Model 8g35.3 Minimum couplin
16、g loss (MCL) 9g3MCL for Local Area scenario . 9g35.4 FDD Base Station Classification for Medium range BS class 10g35.4.1 Proposal for Medium range (micro) BS class output power . 10g35.4.1.1 Discussion . 10g3Proposal 10g35.5 FDD Base Station Classification for Local area BS class 10g35.5.1 Proposal
17、for Local area (pico) BS class output power 10g35.5.1.1 Discussion . 10g3Proposal 11g36 Base station classes 11g3Base station class criteria 11g3Text proposal for 4.2 Base station classes . 11g37 Changes for the Release 6 in addition to Release 5 12g37.1 Changes in 25.104 12g37.1.1 Frequency error .
18、 12g37.1.1.1 New requirement . 12g37.1.1.2 Text proposal for 6.3.1 Minimum requirement . 12g3Adjacent Channel Leakage power Ratio (ACLR) . 13g37.1.3 Reference sensitivity level 14g37.1.4 Spectrum emission mask 14g37.1.5 Adjacent Channel Selectivity (ACS) 14g3Blocking characteristics 14g37.1.7 Interm
19、odulation characteristics . 16g37.1.8 Demodulation in static propagation conditions. 18g37.1.9 Demodulation of DCH in multipath fading conditions . 18g37.1.10 Demodulation of DCH in moving propagation conditions . 18g37.1.11 Demodulation of DCH in birth/death propagation conditions 18g37.1.12 Output
20、 power dynamics 18g37.1.13 Spurious emissions . 19g37.1.14 Transmit intermodulation . 21g37.1.15 Transmit modulation . 21g37.1.16 Receiver dynamic range 21g37.1.17 Receiver spurious emissions . 22g37.1.18 Base station maximum output power 22g37.2 Changes in 25.133 22g37.2.1 Received total wideband p
21、ower 22g3Changes in 25.141 . 23g3ETSI ETSI TR 125 951 V14.0.0 (2017-04)43GPP TR 25.951 version 14.0.0 Release 148 Impacts to other WGs . 24g3- Backward Compatibility. 24g3Annex A (informative): Simulation results 25g3A.1 Micro base stations in FDD mode 25g3A.1.1 Receiver sensitivity 25g3A.1.1.1 Macr
22、o to micro multi-operator case 25g3A.1.1.2 Simulation results . 26g3A.1.1.3 Simulation parameters 27g3A.1.1.4 Macro-Micro on adjacent frequencies 28g3A.1.1.4.1 Speech 8 kbps 28g3A.1.1.4.2 Data 144 kbps 28g3A.1.1.5 Micro-Micro scenario on adjacent frequencies . 29g3A.1.2 Blocking, ACS, and Intermodul
23、ation . 29g3A.1.2.1 Macro to micro multi-operator case 29g3A.1.2.2 Simulation results . 31g3A.1.2.2.1 Blocking performance . 33g3A.1.2.2.2 Adjacent Channel Selectivity 33g3A.1.2.2.3 Intermodulation Characteristics 33g3A.1.2.3 Simulation parameters 34g3A.2 Pico base stations in FDD mode . 34g3A.2.1 M
24、ixed microcell-picocell scenario . 34g3A.2.2 Receiver sensitivity 35g3A.2.2.1 Simulation parameters 35g3A.2.2.2 Simulation results . 37g3A.2.2.3 Noise rise for UL in Picocell environment . 38g3A.2.2.4 UL noise rise calculation for the picocell BS 38g3A.2.2.5 Reference sensitivity level 40g3A.2.3 Dyn
25、amic range, ACS, Blocking and Intermodulation 41g3A.2.3.1 Simulation parameters 41g3A.2.3.2 Dynamic range 41g3A.2.3.3 ACS 42g3A.2.3.4 Blocking characteristics 42g3A.2.3.5 Intermodulation characteristics . 46g3A.3 Maximum output power for Medium range BS class 47g3A.3.1 Simulation results #1 47g3A.3.
26、1.1 Simulation scenario. 47g3A.3.1.2 Simulation results . 47g3A.3.1.3 Proposal 48g3A.3.2 Simulation results #2 49g3A.3.2.1 Simulation scenario. 49g3A.3.2.2 Simulation results . 49g3A.3.2.3 Proposal 50g3A.4 Maximum output power for Local area BS class . 51g3A.4.1 Simulation results #1 51g3A.4.1.1 Sim
27、ulation scenario. 51g3A.4.1.2 Simulation results . 51g3A.4.1.3 Proposal . 53g3A.4.2 Simulation results #2 53g3A.4.2.1 Simulation scenario. 53g3A.4.2.2 Simulation results . 54g3A.4.2.3 Proposal 55g3Annex B (informative): Radio Network Planning Considerations 56g3B.1 Adjacent frequency Interference 56
28、g3B.1.1 General . 56g3B.1.2 Example analysis for localized interference . 56g3B.1.3 Deployment guidelines to reduce interference . 57g3ETSI ETSI TR 125 951 V14.0.0 (2017-04)53GPP TR 25.951 version 14.0.0 Release 14B.2 Intra-frequency interference . 58g3B.2.1 General . 58g3B.2.2 Example analysis for
29、localized interference . 58g3B.2.2.1 UL issue 58g3B.2.2.2 DL issue 59g3B.2.3 Deployment guidelines to reduce interference . 60g3Annex C (informative): Change History 61g3History 62g3ETSI ETSI TR 125 951 V14.0.0 (2017-04)63GPP TR 25.951 version 14.0.0 Release 14Foreword This Technical Specification h
30、as been produced by the 3rdGeneration Partnership Project (3GPP). The contents of the present document are subject to continuing work within the TSG and may change following formal TSG approval. Should the TSG modify the contents of the present document, it will be re-released by the TSG with an ide
31、ntifying change of release date and an increase in version number as follows: Version x.y.z where: x the first digit: 1 presented to TSG for information; 2 presented to TSG for approval; 3 or greater indicates TSG approved document under change control. Y the second digit is incremented for all chan
32、ges of substance, i.e. technical enhancements, corrections, updates, etc. z the third digit is incremented when editorial only changes have been incorporated in the document. ETSI ETSI TR 125 951 V14.0.0 (2017-04)73GPP TR 25.951 version 14.0.0 Release 141 Scope This document is a Technical Report on
33、 Release 6 work item “FDD Base Station Classification”. - References The following documents contain provisions which, through reference in this text, constitute provisions of the present document. References are either specific (identified by date of publication, edition number, version number, etc
34、.) or non-specific. For a specific reference, subsequent revisions do not apply. For a non-specific reference, the latest version applies. 1 3GPP TS 25.104 “BS Radio transmission and Reception (FDD)” 2 3GPP TS 25.133 “Requirements for Support of Radio Resource Management (FDD)” 3 3GPP TS 25.141 “Bas
35、e Station (BS) conformance testing (FDD)” 4 3GPP TR 25.942 “RF System Scenarios” 5 UMTS 30.03 6 3GPP TR 25.905 “Vocabulary for 3GPP Specifications” 3 Definitions, symbols and abbreviations For the purposes of the present document, the definitions, symbols and abbreviations given in TR 21.905 6 apply
36、. 4 General Current TSG RAN WG4 specifications have been done according to the requirements for the general purpose base stations (NodeBs) applications. For the UTRA evolution requirement specifications for other types of base stations are needed as well to take into account different use scenarios
37、and radio environments. In this technical report, base station classification is described and requirements for each base station class are derived. 5 System scenarios This section describes the system scenarios for UTRA operation that are considered when defining base station classes. It also inclu
38、des typical radio parameters that are used to derive requirements. 5.1 Indoor Environment 5.1.1 Path Loss Model The indoor path loss model expressed in dB is in the following form, which is derived from the COST 231 indoor model: L = 37 + 20 Log10I + kwiLwi+ 18.3 n(n+2)/(n+1)-0.46) where: ETSI ETSI
39、TR 125 951 V14.0.0 (2017-04)83GPP TR 25.951 version 14.0.0 Release 14R transmitter-receiver separation given in metres kwinumber of penetrated walls of type i Lwiloss of wall type i n number of penetrated floors Two types of internal walls are considered. Light internal walls with a loss factor of 3
40、.4 dB and regular internal walls with a loss factor of 6.9 dB. If internal walls are not modelled individually, the indoor path loss model is represented by the following formula: L = 37 + 30 Log10I + 18.3 n (n+2)/(n+1)-0.46) where: R transmitter-receiver separation given in metres; n number of pene
41、trated floors Slow fading deviation in pico environment is assumed to be 6 dB. 5.2 Mixed Indoor Outdoor Environment 5.2.1 Propagation Model Distance attenuation inside a building is a pico cell model as defined in Chapter 5.1.1. In outdoors UMTS30.03 model is used 5. Attenuation from outdoors to ind
42、oors is sketched in Figure 5.1 below. In figure star denotes receiving object and circle transmitting object. Receivers are projected to virtual positions. Attenuation is calculated using micro propagation model between transmitter and each virtual position. Indoor attenuation is calculated between
43、virtual transmitters and the receiver. Finally, lowest pathloss is selected for further calculations. Only one floor is considered. The total pathloss between outdoor transmitter and indoor receiver is calculated as L = Lmicro+ LOW+ kwiLwi+ a * R , where: Lmicro Micro cell pathloss according UMTS30.
44、03 Outdoor to Indoor and Pedestrian Test Environment pathloss model LOW outdoor wall penetration loss dB R virtual transmitter-receiver separation given in metres; kwi number of penetrated walls of type I; Lwi loss of wall type I; a = 0.8 attenuation dB/m Slow fading deviation in mixed pico-micro en
45、vironment shall be 6 dB. Propagation from indoors to outdoors would be symmetrical with above models. ETSI ETSI TR 125 951 V14.0.0 (2017-04)93GPP TR 25.951 version 14.0.0 Release 14BS MS Virtual positions Figure 5.1: Simulation scenario and propagation model. Parameters related to propagation models
46、 are summarised in Table 5.1. Table 5.1: Parameters related to mixed indoor outdoor propagation model Parameter value Inside wall loss 6.9 dB Outside wall loss 10 dB Slow fading deviation in indoors 6 dB Slow fading deviation in outdoors 6 dB Building size 110 x 110 meters Street size 110 x 15 meter
47、s Room size 22 x 25 meters Number of rooms 5 rooms in 4 rows Corridor size 110 x 5 meters Number of corridors 2 Size of entrance point 5 meters Number of base stations 4 6 BS coordinates tba 5.3 Minimum coupling loss (MCL) Minimum Coupling Loss (MCL) is defined as the minimum distance loss including
48、 antenna gain measured between antenna connectors. MCL for Local Area scenario The minimum coupling loss between Ues is independent of the scenario, therefore the same minimum coupling loss is assumed for all environments. Local area BSs are usually mounted under the ceiling, on wall or some other e
49、xposed position. In 4 chapter 4.1.1.2 a minimal separation of 2 metres between UE and indoor BS is assumed. Free space path loss is defined in 4 as: Path loss dB = 38.25 + 20 log10(d m) Taking into account 0 dBi antenna gain for Local area BS and UE and a body loss of 1 dB at the terminal, a MCL of 45.27 dB is obtained. The additional 2 dB cable loss at the BS as proposed in TR 25.942 is not considered. ETSI ETSI TR 125 951 V14.0.0 (2017-04)103GPP TR 25.951 version 14.0.0 Release 14The assumed MCL values are summarised in table