Front Page

LTE Radio Access, Rel. RL70, Operating Documentation, Issue 01

Flexi Multiradio BTS LTE Commissioning, RNW and Transmission Parameters

DN09147584Issue 03AApproval Date 2014-11-21The information in this document applies solely to the hardware/software product (Product) specifiedherein, and only as specified herein.

This document is intended for use by Nokia Solutions and Networks' customers (You) only, and it may notbe used except for the purposes defined in the agreement between You and Nokia Solutions and Networks(Agreement) under which this document is distributed. No part of this document may be used, copied,reproduced, modified or transmitted in any form or means without the prior written permission of NokiaSolutions and Networks. If you have not entered into an Agreement applicable to the Product, or if thatAgreement has expired or has been terminated, You may not use this document in any manner and Youare obliged to return it to Nokia Solutions and Networks and destroy or delete any copies thereof.

The document has been prepared to be used by professional and properly trained personnel, and Youassume full responsibility when using it. Nokia Solutions and Networks welcome Your comments as part ofthe process of continuous development and improvement of the documentation.

This document and its contents are provided as a convenience to You. Any information or statementsconcerning the suitability, capacity, fitness for purpose or performance of the Product are given solely onan as is and as available basis in this document, and Nokia Solutions and Networks reserves the rightto change any such information and statements without notice. Nokia Solutions Networks has made allreasonable efforts to ensure that the content of this document is adequate and free of material errors andomissions, and Nokia Solutions and Networks will correct errors that You identify in this document. But,Nokia Solutions and Networks' total liability for any errors in the document is strictly limited to the correctionof such error(s). Nokia Solutions and Networks does not warrant that the use of the software in the Productwill be uninterrupted or error-free.

NO WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TOANY WARRANTY OF AVAILABILITY, ACCURACY, RELIABILITY, TITLE, NON-INFRINGEMENT,MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, IS MADE IN RELATION TO THECONTENT OF THIS DOCUMENT. IN NO EVENT WILL NOKIA SOLUTIONS AND NETWORKS BELIABLE FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT,INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OFPROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA THAT MAYARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT, EVEN IN THE CASE OFERRORS IN OR OMISSIONS FROM THIS DOCUMENT OR ITS CONTENT.

This document is Nokia Solutions and Networks proprietary and confidential information, which may not bedistributed or disclosed to any third parties without the prior written consent of Nokia Solutions andNetworks.

Nokia is a registered trademark of Nokia Corporation. Other product names mentioned in this documentmay be trademarks of their respective owners, and they are mentioned for identification purposes only.

Copyright 2014 Nokia Solutions and Networks. All rights reserved.

Important Notice on Product SafetyThis product may present safety risks due to laser, electricity, heat, and other sources of danger.

Only trained and qualified personnel may install, operate, maintain or otherwise handle thisproduct and only after having carefully read the safety information applicable to this product.

The safety information is provided in the Safety Information section in the Legal, Safety andEnvironmental Information part of this document or documentation set.Nokia Solutions and Networks is continually striving to reduce the adverse environmental effects of itsproducts and services. We would like to encourage you as our customers and users to join us in workingtowards a cleaner, safer environment. Please recycle product packaging and follow the recommendationsfor power use and proper disposal of our products and their components.If you should have questions regarding our Environmental Policy or any of the environmental services weoffer, please contact us at Nokia Solutions and Networks for any additional information.

How to Read This Report

1. IntroductionThe purpose of this document is to assist users in finding parameters, their meanings, specifications, and default values. The managed objects and parameters are listed in alphabetical order.

2. How to read this excel reportThe excel report provides a full information on the parameter dictionary. It shows the full set of parameter attributes including the change information.

The excel report consists of two main sections:- MO Class Tree- Parameter List

2. 1 MO Class TreeThis section shows the full Managed Object Class tree with the names of classes. Rows are grouped into respective class levels for structured and convenient view. Use unfold (+) and fold (-) buttons in the left panel to browse the tree.

2.2 Parameter ListThis section shows the full parameter information including the following:- abbreviated names- managed objects- parent/child parameter relationships- default values- range and step- field descriptions- change information

2.2.1 Field descriptionsField descriptions are provided in the second row of Parameter List section. Use fold (-) and unfold (+) buttons on the left panel to respectively hide and show the field descriptions.

2.2.2 Change informationChange information is a part of Parameter List section and is available in the following ways:

1. Definition on whether the parameter is new, removed, changed, or has been moved to another location in the structure (for example, to another managed object class). That definition is provided in the following columns:

- Changes between issues ... which shows the changes since the previous issue of the document.- Changes between releases ... which shows the changes since the latest issue of the document in the previous product release.

If the cell is empty, the parameter is not changed, nor new, nor removed, nor moved.Note that removed parameters are listed in the very bottom and they are marked with red font.

Filters are enabled for convenient browsing of the change categories.

2. Detailed change information showing the current and previous values of parameter attributes. That information is provided in the following columns:

- in issue ... which shows the value in the previous issue of the document.- in release ... which shows value in the latest issue of the document in the previous product release.

The columns are grouped into attribute-specific sections for structured and convenient view. Use unfold (+) and fold (-) buttons in the top bar to browse the attribute-specific change details. Use unfold all (2) and fold all (1) buttons on the left hand side of the top bar to respectively show and hide the change details for the whole report.

Note that for all parameters except new and removed ones, the field values for previous issue and previous release are always provided to show total history information. Additionally, the changed attributes of parameters are highlighted with grey color. Highlights are enabled to specify whether there is a change between issues or releases.

MO Class TreeManaged Object Class TreeManaged Object Class NameMRBTSMultiradio BTS SiteBBMODBaseband ModuleBTSSCLLTE BTS radio specific configurationLCELLLocal Cell LTELNBTSLTE Basestation RNW parametersANRPRLAutomatic Neighbor Relationship Profile LTEANRPRWAutomatic Neighbor Relationship Profile WCDMABTSSCBTS Site commissioning parametersANTLAntenna Line parametersMHAMast Head AmplifierRETRemote Electrical TiltCRGPRCell Resource Group ProfileCTRLTSTrace ControlMTRACECell Trace SessionFTMFlexi transport moduleAMGRAccount ManagerBTOOTHBluetooth ManagerCERTHCertificate HandlerETHLKEthernet link interfaceIPNOIP Node ConfigurationBFDBFD sessionBFDGRPBidirectional Forwarding Detection GroupIDNSDNS AccessIEIFPlain Ethernet network interfaceIVIFVLAN interfaceIHCPDHCP accessINTPNTP Server ConfigurationIPRMRestricted mode configurationIPRTIP Routing TablesIPRTV6IPv6 Routing TablesQOSQuality of Service configurationTWAMPTWAMP sessionIPSECCIPsec configurationL2SWILayer 2 SwitchOAMMDMaintenance DomainOAMMAMaintenance AssociationOAMMEPMaintenance Association End PointOAMPRFLink OAM ProfilePMTNLTransport Performance Management Measurement AdministrationPOEPower over EthernetPPTTPDH physical section trail termination pointSYNCClock SynchronizationSTPGSynchronization Protection GroupTACTransport admission controlLTACTransport admission control for LTETOPBToP base MOTOPFToP freq syncTOPPToP Phase SyncUNITHardware UnitWIFICNFIntegrated WiFi ConfigurationGTPUGPRS Tunnel Protocol User Plane parametersLNADJNeighbouring LTE BTSLNADJLNeighbouring LTE BTS CellLNADJGNeighbouring GERAN BTS CellLNADJWNeighbouring WCDMA BTS CellLNADJXNeighbouring CDMA 1xRTT BTS CellLNCELLTE BTS CELL RNW parametersAMLEPRActive Mode Load Equalization ProfileCARELCarrier Aggregation RelationCDFIMCDMA2000 frequency Idle Mode parametersGFIMGERAN frequency Idle Mode parametersGNFLGERAN Neighbour Frequency List parametersIAFIMIntra frequency Idle Mode parametersIRFIMInter frequency Idle Mode parametersISHPRDownlink Interference Shaping ProfileLNHOGHandover parameters to Neigbouring GERAN BTS CellLNHOHLN Handover to HRPDLNHOIFHandover parameters to Neigbouring Interfrequency LTE CellLNHOWHandover parameters to Neigbouring WCDMA BTS CellLNHOXHandover parameters to Neigbouring CDMA2000 1xRTT CellLNNEIHLN Neighbourship to HRPD CellLNRELLTE Neighbor RelationLNRELGLTE Neighbor Relation to GERANLNRELWLTE Neighbor Relation to UTRANLNRELXLTE Neighbor Relation to CDMA2000 1xRTTREDRTRedirection target parametersUFFIMUtran FDD frequency Idle Mode parametersXPARAMCDMA2000 1xXRTT ParameterLNHENBHome eNB SetLNMMELTE Mobility Management EntityMFBIPRMultiple Frequency Band Indicator ProfileMODPRMobility Default ProfileMODIMPMobility Idle Mode Default ProfileMODREDMobility Default profile for RedirectionMOPRMobility ProfileMOIMPMobility Idle Mode ProfileMOREDMobility Profile for RedirectionPMRNLPM counters configuration for radio network layerSCTPStream Control Transmission Protocol parametersULCOMPUplink coordinated multipoint setMHAMast Head AmplifierPMCADMPerformance Measurement Common AdministrationRETRemote Electrical TiltRMODRadio ModuleSMODSystem ModuleTESTTestRFRSTRF Test ResultRFTHLDRF Test ThresholdTRBLCADMTroubleshooting Common Administration

Parameter ListNote:See the How to Read This Report tabfor instructions on the usage of Parameter ListField descriptionThe Managed Object Class in which the parameter is defined.Value in the previous issue of the documentValue in the previous product releaseThere are two parameter categories: Basic and Advanced.

In Netact CM Editor there are predefined Parameter Views called Basic parameters or Advanced parameters that group parameters according to the Category.

Basic parameter category includes:- parameters which should be considered during cell deployment and must be adjusted to a particular scenario- configuration parameters (like IDs of the network elements, IP addresses etc.),- planning parameters (like neighbor definitions, frequency plan, scrambling code plan, PCI plan, RA preamble plan etc.),- parameters related to the dimensioning and parameters defining operators' strategy (e.g. traffic steering, thresholds for power control, handovers, cell reselections, high level parameters defining feature behavior etc.)

Advanced parameter category includes network optimization and fine tuning parameters (including those related to advanced or complex features). The advanced parameters can be effectively moved out of the primary focus during a regular network operation.Value in the previous issue of the documentValue in the previous product releaseFor a parameter within a structure, this field gives the abbreviated name of the structure. For standalone parameters, this field is empty.Value in the previous issue of the documentValue in the previous product releaseFor a structure, this field lists the abbreviated names of all child parameters. For standalone parameters, this field is empty.Value in the previous issue of the documentValue in the previous product releaseThe user interface name for the parameter.Value in the previous issue of the documentValue in the previous product releaseThe parameter name used in 3GPP specifications.Value in the previous issue of the documentValue in the previous product releaseThe parameter datatype.Value in the previous issue of the documentValue in the previous product releaseDescribes how many instances of the parameter can be included in the managed object.Value in the previous issue of the documentValue in the previous product releaseDescribes in detail the purpose of the parameter and includes extra information on the parameter.Value in the previous issue of the documentValue in the previous product releaseThe value range for the parameter and the value by which this parameter value increases or decreases within the range, including the unit in which this parameter is given or shown in the user interface.Value in the previous issue of the documentValue in the previous product releaseThe formula for calculating the system internal value (for example, ASN.1 value) which is used between the system components, for example, in provisioned or uploaded files.Value in the previous issue of the documentValue in the previous product releaseThe parameter value the system will use if there is no other value given.Value in the previous issue of the documentValue in the previous product releaseAdditional information (if any) on the default value.Value in the previous issue of the documentValue in the previous product releaseRadio-network-related functions (in addition to the main function) of the parameter.Value in the previous issue of the documentValue in the previous product releaseDescribes whether the parameter can be modified in the network element and what impact the modification has or conditions to fulfil.Value in the previous issue of the documentValue in the previous product releaseDescribes whether the parameter is mandatory or not.

Note: Mandatory parameters with no default value defined must be filled in.Value in the previous issue of the documentValue in the previous product releaseOther parameters that affect the parameter or upon which this parameter impacts.Value in the previous issue of the documentValue in the previous product releaseFeature or license required to modify and take advantage of this parameter. If the system does not have the necessary licenses, it ignores that parameter.Value in the previous issue of the documentValue in the previous product releaseThe management interfaces over which this parameter is transferred.Value in the previous issue of the documentValue in the previous product releaseReferences (if any) to 3GPP specifications.Value in the previous issue of the documentValue in the previous product releaseChanges between issues 03DRAFT and 03AChanges between releases RL60 and RL70Abbreviated NameMO ClassMO Class in issue 03DRAFTMO Class in release RL60Parameter CategoryParameter Category in issue 03DRAFTParameter Category in release RL60Parent StructureParent Structure in issue 03DRAFTParent Structure in release RL60Child ParametersChild Parameters in issue 03DRAFTChild Parameters in release RL60Full NameFull Name in issue 03DRAFTFull Name in release RL603GPP Name3GPP Name in issue 03DRAFT3GPP Name in release RL60Data TypeData Type in issue 03DRAFTData Type in release RL60MultiplicityMultiplicity in issue 03DRAFTMultiplicity in release RL60DescriptionDescription in issue 03DRAFTDescription in release RL60Range and stepRange and Step in issue 03DRAFTRange and Step in release RL60Formula for Getting Internal ValueFormula for Getting Internal Value in issue 03DRAFTFormula for Getting Internal Value in release RL60Default ValueDefault Value in Issue 03DRAFTDefault Value in Release RL60Default Value NotesDefault Value Notes in issue 03DRAFTDefault Value Notes in release RL60Related FunctionsRelated Functions in issue 03DRAFTRelated Functions in release RL60ModificationModification in issue 03DRAFTModification in release RL60Required on CreationRequired on Creation in issue 03DRAFTRequired on Creation in release RL60Related ParametersRelated Parameters in issue 03DRAFTRelated Parameters in release RL60Related FeaturesRelated Features in issue 03DRAFTRelated Features in release RL60InterfacesInterfaces in issue 03DRAFTInterfaces in release RL60ReferencesReferences in issue 03DRAFTReferences in release RL60amgrIdAMGRAMGRAMGR Basic parameters Basic parameters Basic parametersAccount manager identifierAccount manager identifierAccount manager identifierNumberNumberNumber111This parameter identifies the account manager. The value is always 1.This parameter identifies the account manager. The value is always 1.This parameter identifies the account manager. The value is always 1.1...1, step 11...1, step 11...1, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueNot modifiableNot modifiableNot modifiableMandatoryMandatoryMandatory LTE666 LTE User Account Management (standard) LTE666 LTE User Account Management (standard) LTE666 LTE User Account Management (standard) EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACAppldapConnectionTypeAMGRAMGRAMGR Basic parameters Basic parameters Basic parametersLDAP Server TLS access modeLDAP Server TLS access modeLDAP Server TLS access modeEnumerationEnumerationEnumeration111This parameter holds the TLS access mode for the LDAP server(s) of the BTS. Values are "secured" (allow only secured connections) and "both" (allow both unsecured and secured connections).This parameter holds the TLS access mode for the LDAP server(s) of the BTS. Values are "secured" (allow only secured connections) and "both" (allow both unsecured and secured connections).This parameter holds the TLS access mode for the LDAP server(s) of the BTS. Values are "secured" (allow only secured connections) and "both" (allow both unsecured and secured connections).TLS (0), TLS_OR_PLAIN_TEXT (1)TLS (0), TLS_OR_PLAIN_TEXT (1)TLS (0), TLS_OR_PLAIN_TEXT (1)gui ==> internalTLS ==> 0TLS_OR_PLAIN_TEXT ==> 1gui ==> internalTLS ==> 0TLS_OR_PLAIN_TEXT ==> 1gui ==> internalTLS ==> 0TLS_OR_PLAIN_TEXT ==> 1TLS (0)TLS (0)TLS (0)On-lineOn-lineOn-lineOptionalOptionalOptional LTE150 LTE OAM Transport Layer Security (standard) LTE150 LTE OAM Transport Layer Security (standard) LTE150 LTE OAM Transport Layer Security (standard) EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACAppprimaryLdapPortAMGRAMGRAMGR Advanced parameters Advanced parameters Advanced parametersPort number of the primary LDAP serverPort number of the primary LDAP serverPort number of the primary LDAP serverNumberNumberNumber111This parameter holds the port number of the primary LDAP server.This parameter holds the port number of the primary LDAP server.This parameter holds the port number of the primary LDAP server.1...65535, step 11...65535, step 11...65535, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value389389389On-lineOn-lineOn-lineOptionalOptionalOptional LTE666 LTE User Account Management (standard) LTE666 LTE User Account Management (standard) LTE666 LTE User Account Management (standard) EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACAppprimaryLdapServerAMGRAMGRAMGR Basic parameters Basic parameters Basic parametersIP address of the primary LDAP serverIP address of the primary LDAP serverIP address of the primary LDAP serverStringStringString111This parameter holds the IP address of the primary LDAP server.

Format: this is an IPv4 IP address in dotted decimal form defined in RFC 2373.

Examples:IPv4: 10.12.11.101This parameter holds the IP address of the primary LDAP server.

Format: this is an IPv4 IP address in dotted decimal form defined in RFC 2373.

Examples:IPv4: 10.12.11.101This parameter holds the IP address of the primary LDAP server.

Format: this is an IPv4 IP address in dotted decimal form defined in RFC 2373.

Examples:IPv4: 10.12.11.1017...15 characters7...15 characters7...15 charactersinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueOn-lineOn-lineOn-lineOptionalOptionalOptional LTE666 LTE User Account Management (standard) LTE666 LTE User Account Management (standard) LTE666 LTE User Account Management (standard) EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACApp EM LTE BTS RAC LTE BTS RAC RACAppNewamlePrIdAMLEPRAMLEPR Basic parameters Basic parametersActive mode load equalization profile identifierActive mode load equalization profile identifierNumberNumber11This parameter is the naming attribute of MOC AMLEPR and it uniquely identifies an instance of the Active Mode Load Equalization Profile (AMLEPR).

If the feature "Inter-frequency load equalization" is activated, a default AMLEPR profile with AMLEPR-amlePrId = 0 must exist.This parameter is the naming attribute of MOC AMLEPR and it uniquely identifies an instance of the Active Mode Load Equalization Profile (AMLEPR).

If the feature "Inter-frequency load equalization" is activated, a default AMLEPR profile with AMLEPR-amlePrId = 0 must exist.0...15, step 10...15, step 1internal_value = gui_valueinternal_value = gui_value00OperabilityOperabilityNot modifiableNot modifiableMandatoryMandatoryactAmle of LNBTS - If actAmle is set to 'true', the active mode load balancing profile (AMLEPR) must be configured with amlePrId = 0actAmle of LNBTS - If actAmle is set to 'true', the active mode load balancing profile (AMLEPR) must be configured with amlePrId = 0 LTE1841 Load Balance with Equalization (standard) LTE1841 Load Balance with Equalization (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppNewcacHeadroomAMLEPRAMLEPR Advanced parameters Advanced parametersHeadroom in CACHeadroom in CACNumberNumber11The active mode load equalization feature in direction to a certain target cell shall leave the 'active state', if the reported CAC value from this target cell is smaller than the CAC headroom for the target cells frequency layer.The active mode load equalization feature in direction to a certain target cell shall leave the 'active state', if the reported CAC value from this target cell is smaller than the CAC headroom for the target cells frequency layer.0...100 %, step 1 %0...100 %, step 1 %internal_value = gui_valueinternal_value = gui_value0 %0 %On-lineOn-lineMandatoryMandatory LTE1841 Load Balance with Equalization (standard) LTE1841 Load Balance with Equalization (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppNewdeltaCacAMLEPRAMLEPR Advanced parameters Advanced parametersDifference in CAC of source and target cellsDifference in CAC of source and target cellsNumberNumber11Active mode load equalization shall be applied only if the difference in composite available capacity (CAC) in source and target cells is above this target frequency-specific value.Active mode load equalization shall be applied only if the difference in composite available capacity (CAC) in source and target cells is above this target frequency-specific value.0...100 %, step 1 %0...100 %, step 1 %internal_value = gui_valueinternal_value = gui_value20 %20 %On-lineOn-lineMandatoryMandatory LTE1841 Load Balance with Equalization (standard) LTE1841 Load Balance with Equalization (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppNewmaxCacThresholdAMLEPRAMLEPR Advanced parameters Advanced parametersThreshold for maximum CACThreshold for maximum CACNumberNumber11Active mode load equalization shall be applied only if the composite available capacity (CAC) in the source cell falls below this target frequency-specific threshold.Active mode load equalization shall be applied only if the composite available capacity (CAC) in the source cell falls below this target frequency-specific threshold.0...100 %, step 1 %0...100 %, step 1 %internal_value = gui_valueinternal_value = gui_value100 %100 %On-lineOn-lineMandatoryMandatory LTE1841 Load Balance with Equalization (standard) LTE1841 Load Balance with Equalization (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppNewtargetCarrierFreqAMLEPRAMLEPR Basic parameters Basic parametersTarget carrier frequencyTarget carrier frequencyNumberNumber11This parameter describes the FDD/TDD EUTRA absolute radio frequency channel number (EARFCN) of the (downlink) frequency layer this inter-frequency load equalization profile (AMLEPR) is valid for.This parameter describes the FDD/TDD EUTRA absolute radio frequency channel number (EARFCN) of the (downlink) frequency layer this inter-frequency load equalization profile (AMLEPR) is valid for.0...65535, step 10...65535, step 1internal_value = gui_valueinternal_value = gui_valueOn-lineOn-lineMandatoryMandatoryearfcnDL of LNCEL - earfcnDL is not allowed to be equal to targetCarrierFreq in any instance of the AMLEPRtargetCarrierFreq of AMLEPR - targetCarrierFreq must be unique across all AMLEPR instances in LNCELearfcnDL of LNCEL - earfcnDL is not allowed to be equal to targetCarrierFreq in any instance of the AMLEPRtargetCarrierFreq of AMLEPR - targetCarrierFreq must be unique across all AMLEPR instances in LNCEL LTE1841 Load Balance with Equalization (standard) LTE1841 Load Balance with Equalization (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppactAlsoForUeBasedANRANRPRLANRPRLANRPRL Advanced parameters Advanced parameters Advanced parametersActivate also for UE-based ANRActivate also for UE-based ANRActivate also for UE-based ANRBooleanBooleanBoolean111Activates the profile for UE-based intra- and/or inter-frequency ANR (LTE556, LTE782) too.

If set to "true" the profile applies for any kind of ANR, that is UE-based and not UE-based. If set to "false" the profile is not applied for UE-based ANR but still applied for not UE-based ANR features (for example LTE492).Activates the profile for UE-based intra- and/or inter-frequency ANR (LTE556, LTE782) too.

If set to "true" the profile applies for any kind of ANR, that is UE-based and not UE-based. If set to "false" the profile is not applied for UE-based ANR but still applied for not UE-based ANR features (for example LTE492).Activates the profile for UE-based intra- and/or inter-frequency ANR (LTE556, LTE782) too.

If set to "true" the profile applies for any kind of ANR, that is UE-based and not UE-based. If set to "false" the profile is not applied for UE-based ANR but still applied for not UE-based ANR features (for example LTE492).0 (false), 1 (true)0 (false), 1 (true)0 (false), 1 (true)gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1truetruetrueOperabilityOperabilityOperabilityOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE1383 ANR Robustness (standard) LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) LTE1383 ANR Robustness (standard) LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) LTE1383 ANR Robustness (standard) LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppanrPrLIdANRPRLANRPRLANRPRL Basic parameters Basic parameters Basic parametersANR profile for LTE identifierANR profile for LTE identifierANR profile for LTE identifierNumberNumberNumber111This parameter uniquely identifies an ANRPRL object.

An Automatic Neighbor Relationship Profile (ANRPRL) defines carrier-frequency-specific settings for automatic detection of LTE intra-frequency and inter-frequency neighbor cells.This parameter uniquely identifies an ANRPRL object.

An Automatic Neighbor Relationship Profile (ANRPRL) defines carrier-frequency-specific settings for automatic detection of LTE intra-frequency and inter-frequency neighbor cells.This parameter uniquely identifies an ANRPRL object.

An Automatic Neighbor Relationship Profile (ANRPRL) defines carrier-frequency-specific settings for automatic detection of LTE intra-frequency and inter-frequency neighbor cells.0...31, step 10...31, step 10...31, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueOperabilityOperabilityOperabilityNot modifiableNot modifiableNot modifiableMandatoryMandatoryMandatoryanrPrLId of ANRPRL - The class instance ANRPRL-0 must always existtargetCarrierFreq of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory requiredanrPrLId of ANRPRL - The class instance ANRPRL-0 must always existtargetCarrierFreq of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory requiredanrPrLId of ANRPRL - The class instance ANRPRL-0 must always existtargetCarrierFreq of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory required LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) LTE1383 ANR Robustness (standard) LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) LTE1383 ANR Robustness (standard) LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) LTE1383 ANR Robustness (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppanrThresRSRPNbCellANRPRLANRPRLANRPRL Basic parameters Basic parameters Basic parametersANR power level threshold for neighbor cellsANR power level threshold for neighbor cellsANR power level threshold for neighbor cellsNumberNumberNumber111If RSRP of a neighbor cell included in ANR measurement "reportStrongestCells" is greater than anrThresRSRPNbCell, then a cell is accepted by eNB as a neighbor cell for which CGI is needed.

The parameter is relevant only if at least one of the features; LTE782 or LTE556, is activated, that is if actUeBasedAnrIntraFreqLte and/or actUeBasedAnrInterFreqLte is set to "true".If RSRP of a neighbor cell included in ANR measurement "reportStrongestCells" is greater than anrThresRSRPNbCell, then a cell is accepted by eNB as a neighbor cell for which CGI is needed.

The parameter is relevant only if at least one of the features; LTE782 or LTE556, is activated, that is if actUeBasedAnrIntraFreqLte and/or actUeBasedAnrInterFreqLte is set to "true".If RSRP of a neighbor cell included in ANR measurement "reportStrongestCells" is greater than anrThresRSRPNbCell, then a cell is accepted by eNB as a neighbor cell for which CGI is needed.

The parameter is relevant only if at least one of the features; LTE782 or LTE556, is activated, that is if actUeBasedAnrIntraFreqLte and/or actUeBasedAnrInterFreqLte is set to "true".-140...-44 dBm, step 1 dBm-140...-44 dBm, step 1 dBm-140...-44 dBm, step 1 dBminternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value-100 dBm-100 dBm-100 dBmValue should be chosen to be about 5 dB above the RSRP value at the cell edge.The current default value is calculated for -105 dBm at cell edge.Value should be chosen to be about 5 dB above the RSRP value at the cell edge.The current default value is calculated for -105 dBm at cell edge.Value should be chosen to be about 5 dB above the RSRP value at the cell edge.The current default value is calculated for -105 dBm at cell edge.OperabilityOperabilityOperabilityOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppanrThresRSRPNbCellMobEvANRPRLANRPRLANRPRL Basic parameters Basic parameters Basic parametersANR power level threshold for mobility eventsANR power level threshold for mobility eventsANR power level threshold for mobility eventsNumberNumberNumber111Threshold to control detection of neighbour cells via passive ANR.

If a measurement report for the mobility events A3, A4 or A5 is received, then the cell corresponding to an included PCI can be accepted as 'candidate cell for ANR' only if the PCI fulfills the condition:RSRP(PCI) > anrThres RSRPNbCellMobEv.The parameter is only relevant if at least one of the features LTE492, LTE782 or LTE556 is activated, i.e. if anrOmExtEnable or actUeBasedAnrIntraFreqLte or actUeBasedAnrInterFreqLte is set to 'true'.

Passive ANR can be switched off by setting the threshold to a very high value.Threshold to control detection of neighbour cells via passive ANR.

If a measurement report for the mobility events A3, A4 or A5 is received, then the cell corresponding to an included PCI can be accepted as 'candidate cell for ANR' only if the PCI fulfills the condition:RSRP(PCI) > anrThres RSRPNbCellMobEv.The parameter is only relevant if at least one of the features LTE492, LTE782 or LTE556 is activated, i.e. if anrOmExtEnable or actUeBasedAnrIntraFreqLte or actUeBasedAnrInterFreqLte is set to 'true'.

Passive ANR can be switched off by setting the threshold to a very high value.Threshold to control detection of neighbour cells via passive ANR.

If a measurement report for the mobility events A3, A4 or A5 is received, then the cell corresponding to an included PCI can be accepted as 'candidate cell for ANR' only if the PCI fulfills the condition:RSRP(PCI) > anrThres RSRPNbCellMobEv.The parameter is only relevant if at least one of the features LTE492, LTE782 or LTE556 is activated, i.e. if anrOmExtEnable or actUeBasedAnrIntraFreqLte or actUeBasedAnrInterFreqLte is set to 'true'.

Passive ANR can be switched off by setting the threshold to a very high value.-140...-44 dBm, step 1 dBm-140...-44 dBm, step 1 dBm-140...-44 dBm, step 1 dBminternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value-100 dBm-100 dBm-100 dBmOperabilityOperabilityOperabilityOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppanrThresRSRQNbCellANRPRLANRPRLANRPRL Advanced parameters Advanced parameters Advanced parametersANR quality threshold for neighbor cellsANR quality threshold for neighbor cellsANR quality threshold for neighbor cellsRSRQRSRQRSRQNumberNumberNumber111The eNB will request to resolve the CGI of unknown cells only if the respective RSRQ level measured by the UE is at least equal to anrThresRSRQNbCell.

The parameter is relevant only if at least one of the features; LTE782 or LTE556, is activated, that is if actUeBasedAnrIntraFreqLte and/or actUeBasedAnrInterFreqLte is set to "true".The eNB will request to resolve the CGI of unknown cells only if the respective RSRQ level measured by the UE is at least equal to anrThresRSRQNbCell.

The parameter is relevant only if at least one of the features; LTE782 or LTE556, is activated, that is if actUeBasedAnrIntraFreqLte and/or actUeBasedAnrInterFreqLte is set to "true".The eNB will request to resolve the CGI of unknown cells only if the respective RSRQ level measured by the UE is at least equal to anrThresRSRQNbCell.

The parameter is relevant only if at least one of the features; LTE782 or LTE556, is activated, that is if actUeBasedAnrIntraFreqLte and/or actUeBasedAnrInterFreqLte is set to "true".-19.5...-3 dB, step 0.5 dB-19.5...-3 dB, step 0.5 dB-19.5...-3 dB, step 0.5 dBinternal_value = gui_value * 2internal_value = gui_value * 2internal_value = gui_value * 2-12 dB-12 dB-12 dBOperabilityOperabilityOperabilityOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp 3GPP Reference: TS36.133 3GPP Reference: TS36.311 3GPP Reference: TS36.133 3GPP Reference: TS36.311 3GPP Reference: TS36.133 3GPP Reference: TS36.311nrLimitInterFreqANRPRLANRPRLANRPRL Advanced parameters Advanced parameters Advanced parametersNeighbor relation limit inter-frequencyNeighbor relation limit inter-frequencyNeighbor relation limit inter-frequencyNumberNumberNumber111Once the number of LTE inter-frequency neighbor relations of the eNB cell reaches "nrLimitInterFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of inter-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor cells might occur.Once the number of LTE inter-frequency neighbor relations of the eNB cell reaches "nrLimitInterFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of inter-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor cells might occur.Once the number of LTE inter-frequency neighbor relations of the eNB cell reaches "nrLimitInterFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of inter-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor cells might occur.1...256, step 11...256, step 11...256, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value161616OperabilityOperabilityOperabilityOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppnrLimitIntraFreqANRPRLANRPRLANRPRL Advanced parameters Advanced parameters Advanced parametersNeighbor relation limit intra-frequencyNeighbor relation limit intra-frequencyNeighbor relation limit intra-frequencyNumberNumberNumber111Once the number of LTE intra-frequency neighbor relations of the eNB cell reaches "nrLimitIntraFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of intra-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor cells might occur.Once the number of LTE intra-frequency neighbor relations of the eNB cell reaches "nrLimitIntraFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of intra-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor cells might occur.Once the number of LTE intra-frequency neighbor relations of the eNB cell reaches "nrLimitIntraFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of intra-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor cells might occur.1...256, step 11...256, step 11...256, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value323232OperabilityOperabilityOperabilityOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApptargetCarrierFreqANRPRLANRPRLANRPRL Basic parameters Basic parameters Basic parametersTarget carrier frequencyTarget carrier frequencyTarget carrier frequencyNumberNumberNumber111The parameter identifies the EUTRA target carrier frequency for which this ANR profile applies.

The profile applies for intra- and or inter-frequency ANR dependent on the carrier frequency of the cell.

If no target carrier is defined, the profile applies for any frequency which is measured by a UE. This profile is considered as default profile and must exist in any case. If an ANRPRL instance with a dedicated carrier frequency exists, this has higher priority than the default profile.Note that ANR measurements will be only activated in a cell if an LNHOIF object is created for each relevant target carrier frequency.The parameter identifies the EUTRA target carrier frequency for which this ANR profile applies.

The profile applies for intra- and or inter-frequency ANR dependent on the carrier frequency of the cell.

If no target carrier is defined, the profile applies for any frequency which is measured by a UE. This profile is considered as default profile and must exist in any case. If an ANRPRL instance with a dedicated carrier frequency exists, this has higher priority than the default profile.Note that ANR measurements will be only activated in a cell if an LNHOIF object is created for each relevant target carrier frequency.The parameter identifies the EUTRA target carrier frequency for which this ANR profile applies.

The profile applies for intra- and or inter-frequency ANR dependent on the carrier frequency of the cell.

If no target carrier is defined, the profile applies for any frequency which is measured by a UE. This profile is considered as default profile and must exist in any case. If an ANRPRL instance with a dedicated carrier frequency exists, this has higher priority than the default profile.Note that ANR measurements will be only activated in a cell if an LNHOIF object is created for each relevant target carrier frequency.0...65535, step 10...65535, step 10...65535, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueOperabilityOperabilityOperabilityOn-lineOn-lineOn-lineOptionalOptionalOptionalanrPrLId of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory requiredtargetCarrierFreq of ANRPRL - targetCarrierFreq must be unique within all ANRPRL instancesanrPrLId of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory requiredtargetCarrierFreq of ANRPRL - targetCarrierFreq must be unique within all ANRPRL instancesanrPrLId of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory requiredtargetCarrierFreq of ANRPRL - targetCarrierFreq must be unique within all ANRPRL instances LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppChangedanrPrWIdANRPRWANRPRWANRPRW Basic parameters Basic parameters Advanced parametersANR profile for WCDMA identifierANR profile for WCDMA identifierANR profile for WCDMA identifierNumberNumberNumber111This parameter uniquely identifies an ANRPRW object.

An Automatic Neighbor Relationship Profile (ANRPRW) defines carrier-frequency-specific settings for automatic detection of WCDMA neighbor cells.This parameter uniquely identifies an ANRPRW object.

An Automatic Neighbor Relationship Profile (ANRPRW) defines carrier-frequency-specific settings for automatic detection of WCDMA neighbor cells.This parameter uniquely identifies an ANRPRW object.

An Automatic Neighbor Relationship Profile (ANRPRW) defines carrier-frequency-specific settings for automatic detection of WCDMA neighbor cells.0...15, step 10...15, step 10...15, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueOperabilityOperabilityOperabilityNot modifiableNot modifiableNot modifiableMandatoryMandatoryMandatory LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppNewanrUtraEcNoThresANRPRWANRPRW Advanced parameters Advanced parametersANR UTRA EcNo thresholdANR UTRA EcNo thresholdEcNoEcNoNumberNumber11It defines the minimum EcNo level measured by the UE from a UTRAcell required for ordering its CGI decoding. (Mapping between the UE measured EcNo and the SFS values is according to 3GPP TS 25.133/25.123).It defines the minimum EcNo level measured by the UE from a UTRAcell required for ordering its CGI decoding. (Mapping between the UE measured EcNo and the SFS values is according to 3GPP TS 25.133/25.123).0...49, step 10...49, step 1internal_value = gui_valueinternal_value = gui_value1313UE ControlUE ControlOn-lineOn-lineMandatoryMandatory LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp 3GPP Reference: TS25.123 3GPP Reference: TS25.133 3GPP Reference: TS25.123 3GPP Reference: TS25.133MovedanrUtraRscpThresANRPRWANRPRWLNCEL Basic parameters Basic parameters Basic parametersANR UTRA RSCP thresholdANR UTRA RSCP thresholdANR UTRA RSCP thresholdRSCPRSCPRSCPNumberNumberNumber111It defines the minimum power level that a UE should report from a measured UTRA cell for considering the corresponding PCI, respectively PSC, as a possible UTRA neighbor cell candidate. (Mapping between the UE measured RSCP and the SFS values is according to 3GPP TS 25.133/25.123)The dBm value is mapped to the 3GPP IE value according to TS 25.133:* -120 dBm means a threshold lower than -120 dBm* values between -119 dBm and -25 dBm mean a threshold lower than the configured value but higher than or equal to the (value - 1 dB)* -24 dBm means a threshold higher than or equal to -25 dBmIt defines the minimum power level that a UE should report from a measured UTRA cell for considering the corresponding PCI, respectively PSC, as a possible UTRA neighbor cell candidate. (Mapping between the UE measured RSCP and the SFS values is according to 3GPP TS 25.133/25.123)The dBm value is mapped to the 3GPP IE value according to TS 25.133:* -120 dBm means a threshold lower than -120 dBm* values between -119 dBm and -25 dBm mean a threshold lower than the configured value but higher than or equal to the (value - 1 dB)* -24 dBm means a threshold higher than or equal to -25 dBmIt defines the minimum power level that a UE should report from a measured UTRA cell for considering the corresponding PCI, respectively PSC, as a possible UTRA neighbor cell candidate. (Mapping between the UE measured RSCP and the SFS values is according to 3GPP TS 25.133/25.123)The dBm value is mapped to the 3GPP IE value according to TS 25.133:* -120 dBm means a threshold lower than -120 dBm* values between -119 dBm and -25 dBm mean a threshold lower than the configured value but higher than or equal to the (value - 1 dB)* -24 dBm means a threshold higher than or equal to -25 dBm-120...-24 dBm, step 1 dBm-120...-24 dBm, step 1 dBm-120...-24 dBm, step 1 dBminternal_value = (gui_value + 115)internal_value = (gui_value + 115)internal_value = (gui_value + 115)-68 dBm-68 dBm-68 dBmUE ControlUE ControlUE ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp 3GPP Reference: TS25.123 3GPP Reference: TS25.133 3GPP Reference: TS25.123 3GPP Reference: TS25.133 3GPP Reference: TS25.123 3GPP Reference: TS25.133ChangedcellsToApplyListANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parametersCells to apply listCells to apply listCells to apply listNumberNumberNumber12126The parameter allows to restrict the ANR profile to certain LTE cells that are identified by their lncelId.If the parameter is omitted or the list is empty the profile is considered as default profile, which applies to all cells with no dedicated profile.The parameter allows to restrict the ANR profile to certain LTE cells that are identified by their lncelId.If the parameter is omitted or the list is empty the profile is considered as default profile, which applies to all cells with no dedicated profile.The parameter allows to restrict the ANR profile to certain LTE cells that are identified by their lncelId.If the parameter is omitted or the list is empty the profile is considered as default profile, which applies to all cells with no dedicated profile.0...65535, step 10...65535, step 10...65535, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineOptionalOptionalOptionalutraCarrierFreq of ANRPRW - ANRPRW with same utraCarrierFreq cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with omitted or empty cellsToApplyListutraCarrierFreq of ANRPRW - ANRPRW with same utraCarrierFreq cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with omitted or empty cellsToApplyListutraCarrierFreq of ANRPRW - ANRPRW with same utraCarrierFreq cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with omitted or empty cellsToApplyList LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppenableAnrProfileANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parametersEnable ANR profileEnable ANR profileEnable ANR profileBooleanBooleanBoolean111The parameter enables ANR learning for the carrier frequency of the profile.The parameter enables ANR learning for the carrier frequency of the profile.The parameter enables ANR learning for the carrier frequency of the profile.0 (false), 1 (true)0 (false), 1 (true)0 (false), 1 (true)gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1truetruetrueHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApplnRelWDefaultsANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parameters csfbPsHoAllowed psHoAllowed srvccAllowed csfbPsHoAllowed psHoAllowed srvccAllowed csfbPsHoAllowed psHoAllowed srvccAllowedLNRELW default valuesLNRELW default valuesLNRELW default valuesStructureStructureStructure111Default values for blacklisting of UTRAN mobility types in WCDMA neighbor relationship objects LNRELW.

The values are used if a new LNRELW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.Default values for blacklisting of UTRAN mobility types in WCDMA neighbor relationship objects LNRELW.

The values are used if a new LNRELW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.Default values for blacklisting of UTRAN mobility types in WCDMA neighbor relationship objects LNRELW.

The values are used if a new LNRELW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.Not definedNot definedNot definedNot definedNot definedNot definedHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppcsfbPsHoAllowedANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parameterslnRelWDefaultslnRelWDefaultslnRelWDefaultsCircuit-switched fallback with PS handover allowedCircuit-switched fallback with PS handover allowedCircuit-switched fallback with PS handover allowedEnumerationEnumerationEnumeration111The parameter controls whether CSFB with PS handover to the related neighbor cell is allowed.The parameter controls whether CSFB with PS handover to the related neighbor cell is allowed.The parameter controls whether CSFB with PS handover to the related neighbor cell is allowed.allowed (0), forbidden (1)allowed (0), forbidden (1)allowed (0), forbidden (1)gui ==> internalallowed ==> 0forbidden ==> 1gui ==> internalallowed ==> 0forbidden ==> 1gui ==> internalallowed ==> 0forbidden ==> 1allowed (0)allowed (0)allowed (0)allowedallowedallowedHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApppsHoAllowedANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parameterslnRelWDefaultslnRelWDefaultslnRelWDefaultsPS handover allowedPS handover allowedPS handover allowedEnumerationEnumerationEnumeration111The parameter controls whether PS handover to the related neighbor cell is allowed.The parameter controls whether PS handover to the related neighbor cell is allowed.The parameter controls whether PS handover to the related neighbor cell is allowed.allowed (0), forbidden (1)allowed (0), forbidden (1)allowed (0), forbidden (1)gui ==> internalallowed ==> 0forbidden ==> 1gui ==> internalallowed ==> 0forbidden ==> 1gui ==> internalallowed ==> 0forbidden ==> 1allowed (0)allowed (0)allowed (0)allowedallowedallowedHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppsrvccAllowedANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parameterslnRelWDefaultslnRelWDefaultslnRelWDefaultsSingle radio Voice call continuity allowedSingle radio Voice call continuity allowedSingle radio Voice call continuity allowedEnumerationEnumerationEnumeration111The parameter controls whether SRVCC handover to the related neighbor cell is allowed.The parameter controls whether SRVCC handover to the related neighbor cell is allowed.The parameter controls whether SRVCC handover to the related neighbor cell is allowed.allowed (0), forbidden (1)allowed (0), forbidden (1)allowed (0), forbidden (1)gui ==> internalallowed ==> 0forbidden ==> 1gui ==> internalallowed ==> 0forbidden ==> 1gui ==> internalallowed ==> 0forbidden ==> 1allowed (0)allowed (0)allowed (0)allowedallowedallowedHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppChangedlnRelWLimitForAnrANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parametersLimit for ANR created UTRAN neighbor relationsLimit for ANR created UTRAN neighbor relationsLimit for ANR created UTRAN neighbor relationsNumberNumberNumber111The parameter allows limiting the number of WCDMA neighbor relations (LNRELW instances) per UTRAN carrier frequency and LTE cell.

This limit applies only for ANR created LNRELW instances but does not apply for LNRELW instances, which are manually created via plan file.

If the limit is already reached or even exceeded by manually created LNRELW instances, no additional LNRELW instances referring to WCDMA neighbor cells with the profile carrier frequency will be added by ANR.

If the number of neighbor relations (LNRELW instances) exceeds the maximum number of WCDMA neighbor cells which might be used by eNB in measurement configurations (limit in 3GPP 36.331) but the limit which ich configured with lnRelWLimitForAnr is not yet reached, then eNB will create new LNLRELW instances with handoverAllowed set to 'forbidden'. This is to ease further manual optimization of neighbour cell blacklisting.The parameter allows limiting the number of WCDMA neighbor relations (LNRELW instances) per UTRAN carrier frequency and LTE cell.

This limit applies only for ANR created LNRELW instances but does not apply for LNRELW instances, which are manually created via plan file.

If the limit is already reached or even exceeded by manually created LNRELW instances, no additional LNRELW instances referring to WCDMA neighbor cells with the profile carrier frequency will be added by ANR.

If the number of neighbor relations (LNRELW instances) exceeds the maximum number of WCDMA neighbor cells which might be used by eNB in measurement configurations (limit in 3GPP 36.331) but the limit which ich configured with lnRelWLimitForAnr is not yet reached, then eNB will create new LNLRELW instances with handoverAllowed set to 'forbidden'. This is to ease further manual optimization of neighbour cell blacklisting.The parameter allows limiting the number of UTRAN neighbor relations (LNRELW objects) per UTRAN frequency and LTE cell.

This limit applies only for ANR-created LNRELW objects but does not apply for LNRELW objects, which are manually created via plan file.

If the limit is already reached or even exceeded by manually created LNRELW objects, no additional LNRELW objects referring to UTRAN neighbor cells with the UTRAN profile frequency will be added by ANR.1...256, step 11...256, step 11...256, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value323232Handover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatoryutraCarrierFreq of ANRPRW - all ANRPRW instances with same utraCarrierFreq must have identical lnRelWLimitForAnrutraCarrierFreq of ANRPRW - all ANRPRW instances with same utraCarrierFreq must have identical lnRelWLimitForAnrutraCarrierFreq of ANRPRW - all ANRPRW instances with same utraCarrierFreq must have identical lnRelWLimitForAnr LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApppscBlacklistANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parameters psc pscLast psc pscLast psc pscLastList of blacklisted PSCsList of blacklisted PSCsList of blacklisted PSCsStructureStructureStructure256256256The parameter specifies a list of Primary Scrambling Codes (PSC) or code ranges that are excluded from ANR learning.The parameter specifies a list of Primary Scrambling Codes (PSC) or code ranges that are excluded from ANR learning.The parameter specifies a list of Primary Scrambling Codes (PSC) or code ranges that are excluded from ANR learning.Not definedNot definedNot definedNot definedNot definedNot definedHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineOptionalOptionalOptional LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApppscANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parameterspscBlacklistpscBlacklistpscBlacklistPrimary scrambling codePrimary scrambling codePrimary scrambling codeNumberNumberNumber111Single PSC value or first PSC value of a range that is blacklisted.Single PSC value or first PSC value of a range that is blacklisted.Single PSC value or first PSC value of a range that is blacklisted.0...511, step 10...511, step 10...511, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatorypscLast of ANRPRW - pscLast must be greater than psc, if pscLast is configuredpscLast of ANRPRW - pscLast must be greater than psc, if pscLast is configuredpscLast of ANRPRW - pscLast must be greater than psc, if pscLast is configured EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApppscLastANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parameterspscBlacklistpscBlacklistpscBlacklistLast primary scrambling code of a rangeLast primary scrambling code of a rangeLast primary scrambling code of a rangeNumberNumberNumber111Last PSC value if a range of PSC values are blacklisted.Last PSC value if a range of PSC values are blacklisted.Last PSC value if a range of PSC values are blacklisted.0...511, step 10...511, step 10...511, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineOptionalOptionalOptionalpsc of ANRPRW - psc must be less than pscLast if this is configuredpsc of ANRPRW - psc must be less than pscLast if this is configuredpsc of ANRPRW - psc must be less than pscLast if this is configured EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppChangedrncIdCodingANRPRWANRPRWANRPRW Basic parameters Basic parameters Advanced parameters rncIdAlignment rncIdType rncIdAlignment rncIdType rncIdAlignment rncIdTypeCoding of RNC ID within UTRAN CICoding of RNC ID within UTRAN CICoding of RNC ID within UTRAN CIStructureStructureStructure111The parameter specifies the coding of the RNC Id within the 28 Bit UTRAN Cell Identity.The parameter specifies the coding of the RNC Id within the 28 Bit UTRAN Cell Identity.The parameter specifies the coding of the RNC Id within the 28 Bit UTRAN Cell Identity.Not definedNot definedNot definedNot definedNot definedNot definedHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppChangedrncIdAlignmentANRPRWANRPRWANRPRW Basic parameters Basic parameters Advanced parametersrncIdCodingrncIdCodingrncIdCodingAlignment within UTRAN CIAlignment within UTRAN CIAlignment within UTRAN CIEnumerationEnumerationEnumeration111The parameter defines whether the RNC-ID is aligned to the left or right side within Cell Identity.The parameter defines whether the RNC-ID is aligned to the left or right side within Cell Identity.The parameter defines whether the RNC-ID is aligned to the left or right side within Cell Identity.left (0), right (1)left (0), right (1)left (0), right (1)gui ==> internalleft ==> 0right ==> 1gui ==> internalleft ==> 0right ==> 1gui ==> internalleft ==> 0right ==> 1Handover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppChangedrncIdTypeANRPRWANRPRWANRPRW Basic parameters Basic parameters Advanced parametersrncIdCodingrncIdCodingrncIdCodingRNC ID typeRNC ID typeRNC ID typeEnumerationEnumerationEnumeration111The parameter defines whether the RNL Id is of type 'normal' (12 Bit) or 'extended' (16 Bit).The parameter defines whether the RNL Id is of type 'normal' (12 Bit) or 'extended' (16 Bit).The parameter defines the RNL Id type. Currently only type normal (12 Bit) is supported.normal (0), extended (1)normal (0), extended (1)0 (normal)gui ==> internalnormal ==> 0extended ==> 1gui ==> internalnormal ==> 0extended ==> 1gui ==> internalnormal ==> 0extended ==> 1normal (0)normal (0)normal (0)Handover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppsrvccHoIndANRPRWANRPRWANRPRW Advanced parameters Advanced parameters Advanced parametersSRVCC HO indicationSRVCC HO indicationSRVCC HO indicationEnumerationEnumerationEnumeration111This parameter selects if SRVCC to a WCDMA target cell is performed as a combined PS and CS SRVCC or whether SRVCC is performed for the CS bearer only.

The value is used if a new LNADJW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.

The value is only relevant if the feature LTE872 'SRVCC to WCDMA' is deployed. It is highly recommended to set this value properly even if the feature is not yet deployed but shall be deployed in future. Otherwise manual setting in all LNADJW objects becomes necessary later on if the feature LTE872 is activated.It is a capability of the target UTRAN whether 'combined PS and CS SRVCC' or 'CS SRVCC only' are supported.This parameter selects if SRVCC to a WCDMA target cell is performed as a combined PS and CS SRVCC or whether SRVCC is performed for the CS bearer only.

The value is used if a new LNADJW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.

The value is only relevant if the feature LTE872 'SRVCC to WCDMA' is deployed. It is highly recommended to set this value properly even if the feature is not yet deployed but shall be deployed in future. Otherwise manual setting in all LNADJW objects becomes necessary later on if the feature LTE872 is activated.It is a capability of the target UTRAN whether 'combined PS and CS SRVCC' or 'CS SRVCC only' are supported.This parameter selects if SRVCC to a WCDMA target cell is performed as a combined PS and CS SRVCC or whether SRVCC is performed for the CS bearer only.

The value is used if a new LNADJW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.

The value is only relevant if the feature LTE872 'SRVCC to WCDMA' is deployed. It is highly recommended to set this value properly even if the feature is not yet deployed but shall be deployed in future. Otherwise manual setting in all LNADJW objects becomes necessary later on if the feature LTE872 is activated.It is a capability of the target UTRAN whether 'combined PS and CS SRVCC' or 'CS SRVCC only' are supported.PS and CS (0), CS only (1)PS and CS (0), CS only (1)PS and CS (0), CS only (1)gui ==> internalPS and CS ==> 0CS only ==> 1gui ==> internalPS and CS ==> 0CS only ==> 1gui ==> internalPS and CS ==> 0CS only ==> 1PS and CS (0)PS and CS (0)PS and CS (0)Handover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppChangedutraCarrierFreqANRPRWANRPRWANRPRW Basic parameters Basic parameters Advanced parametersUTRAN carrier frequencyUTRAN carrier frequencyUTRAN carrier frequencycarrierFreqcarrierFreqcarrierFreqNumberNumberNumber111The parameter identifies the UTRA carrier frequency for which this ANR profile applies.The parameter identifies the UTRA carrier frequency for which this ANR profile applies.The parameter identifies the UTRA carrier frequency for which this ANR profile applies.0...16383, step 10...16383, step 10...16383, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueHandover ControlHandover ControlHandover ControlOn-lineOn-lineOn-lineMandatoryMandatoryMandatorylnRelWLimitForAnr of ANRPRW - lnRelWLimitForAnr must be identical in all ANRPRW with same utraCarrierFreqcellsToApplyList of ANRPRW - cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with same utraCarrierFreq the list omitted or emptylnRelWLimitForAnr of ANRPRW - lnRelWLimitForAnr must be identical in all ANRPRW with same utraCarrierFreqcellsToApplyList of ANRPRW - cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with same utraCarrierFreq the list omitted or emptylnRelWLimitForAnr of ANRPRW - lnRelWLimitForAnr must be identical in all ANRPRW with same utraCarrierFreqcellsToApplyList of ANRPRW - cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with same utraCarrierFreq the list omitted or empty LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp 3GPP Reference: TS25.331 3GPP Reference: TS36.331 3GPP Reference: TS25.331 3GPP Reference: TS36.331 3GPP Reference: TS25.331 3GPP Reference: TS36.331additionalRxGainANTLANTLANTL Basic parameters Basic parameters Basic parametersAdditional antenna line Rx gainAdditional antenna line Rx gainAdditional antenna line Rx gainNumberNumberNumber111Additional Rx gain in decibels, is used in gain calculation to compensate an Rx gain produced by an external device e.g. the base station when two radio modules are cross-connected together via Rx diversity outputs sharing the antenna line. User will know the gain produced by the external device to apply proper value here. Note: an MHA/TMA gain will not be included in this parameter. The MHA/TMA gain is commissioned together with the MHA/TMA device commissioning and taken into account as default by the system.Additional Rx gain in decibels, is used in gain calculation to compensate an Rx gain produced by an external device e.g. the base station when two radio modules are cross-connected together via Rx diversity outputs sharing the antenna line. User will know the gain produced by the external device to apply proper value here. Note: an MHA/TMA gain will not be included in this parameter. The MHA/TMA gain is commissioned together with the MHA/TMA device commissioning and taken into account as default by the system.Additional Rx gain in decibels, is used in gain calculation to compensate an Rx gain produced by an external device e.g. the base station when two radio modules are cross-connected together via Rx diversity outputs sharing the antenna line. User will know the gain produced by the external device to apply proper value here. Note: an MHA/TMA gain will not be included in this parameter. The MHA/TMA gain is commissioned together with the MHA/TMA device commissioning and taken into account as default by the system.0...99.9 dB, step 0.1 dB0...99.9 dB, step 0.1 dB0...99.9 dB, step 0.1 dBinternal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 100 dB0 dB0 dBBTS Site configurationBTS Site configurationBTS Site configurationBTS restart neededBTS restart neededBTS restart neededOptionalOptionalOptional LTE1072 Flexi Lite BTS 750 (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE1072 Flexi Lite BTS 750 (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppalDcVoltageEnabledANTLANTLANTL Basic parameters Basic parameters Basic parametersAL DC voltage enabledAL DC voltage enabledAL DC voltage enabledBooleanBooleanBoolean111Defines if antenna line DC power is enabled/disabled for an antenna line. The DC power is enabled by default (when the file or parameter is not available for an AL). This parameter is the most relevant for AL DC powerNote! In RF sharing case this parameter value shall be set to "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").Defines if antenna line DC power is enabled/disabled for an antenna line. The DC power is enabled by default (when the file or parameter is not available for an AL). This parameter is the most relevant for AL DC powerNote! In RF sharing case this parameter value shall be set to "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").Defines if antenna line DC power is enabled/disabled for an antenna line. The DC power is enabled by default (when the file or parameter is not available for an AL). This parameter is the most relevant for AL DC powerNote! In RF sharing case this parameter value shall be set to "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").0 (false), 1 (true)0 (false), 1 (true)0 (false), 1 (true)gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1truetruetrueOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppantIdANTLANTLANTL Basic parameters Basic parameters Basic parametersAntenna identifierAntenna identifierAntenna identifierEnumerationEnumerationEnumeration111Identifies the specific antenna port in Flexi Radio Module for antenna line.Identifies the specific antenna port in Flexi Radio Module for antenna line.Identifies the specific antenna port in Flexi Radio Module for antenna line.ANT1 (0), ANT2 (1), ANT3 (2), ANT4 (3), ANT5 (4), ANT6 (5)ANT1 (0), ANT2 (1), ANT3 (2), ANT4 (3), ANT5 (4), ANT6 (5)ANT1 (0), ANT2 (1), ANT3 (2), ANT4 (3), ANT5 (4), ANT6 (5)gui ==> internalANT1 ==> 0ANT2 ==> 1ANT3 ==> 2ANT4 ==> 3ANT5 ==> 4ANT6 ==> 5gui ==> internalANT1 ==> 0ANT2 ==> 1ANT3 ==> 2ANT4 ==> 3ANT5 ==> 4ANT6 ==> 5gui ==> internalANT1 ==> 0ANT2 ==> 1ANT3 ==> 2ANT4 ==> 3ANT5 ==> 4ANT6 ==> 5BTS restart neededBTS restart neededBTS restart neededMandatoryMandatoryMandatory LTE145 LTE Configuration Management (standard) LTE145 LTE Configuration Management (standard) LTE145 LTE Configuration Management (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppantennaRoundTripDelayANTLANTLANTL Basic parameters Basic parameters Basic parametersAntenna round trip delayAntenna round trip delayAntenna round trip delayNumberNumberNumber111The total delay of all the passive units of an antenna line can be entered into this parameter, which is then used as the RTT value in delay compensation in BTS.The total delay of all the passive units of an antenna line can be entered into this parameter, which is then used as the RTT value in delay compensation in BTS.The total delay of all the passive units of an antenna line can be entered into this parameter, which is then used as the RTT value in delay compensation in BTS.4.5...45077.5 ns, step 0.1 ns4.5...45077.5 ns, step 0.1 ns4.5...45077.5 ns, step 0.1 nsinternal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10BTS restart neededBTS restart neededBTS restart neededMandatoryMandatoryMandatory LTE145 LTE Configuration Management (standard) LTE1072 Flexi Lite BTS 750 (optional) LTE495 OTDOA (optional) LTE145 LTE Configuration Management (standard) LTE1072 Flexi Lite BTS 750 (optional) LTE495 OTDOA (optional) LTE145 LTE Configuration Management (standard) LTE1072 Flexi Lite BTS 750 (optional) LTE495 OTDOA (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppChangedantennaTotalLossANTLANTLANTL Basic parameters Basic parameters Basic parametersAntenna total lossAntenna total lossAntenna total lossNumberNumberNumber111This parameter contains the total loss calculated from the feederLoss and passive units.

Note: The parameter is only applicable when a MHA is commissoned.This parameter contains the total loss calculated from the feederLoss and passive units.

Note: The parameter is only applicable when a MHA is commissoned.This parameter contains the total loss calculated from the feederLoss and passive units.

Note: The parameter is only applicable when a MHA is commissoned.-99...0 dB, step 0.1 dB-99...0 dB, step 0.1 dB-214748364..0, step 0.1internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10-3 dB-3 dB-3 dBrecommended value for Flexi-BTS (LN release) -3 dBrecommended value for Flexi-BTS (LN release) -3 dBrecommended value for Flexi-BTS (LN release) -3 dBBTS restart neededBTS restart neededBTS restart neededMandatoryMandatoryMandatory LTE145 LTE Configuration Management (standard) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE145 LTE Configuration Management (standard) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE145 LTE Configuration Management (standard) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppantlIdANTLANTLANTL Basic parameters Basic parameters Basic parametersAntenna line configuration identifierAntenna line configuration identifierAntenna line configuration identifierNumberNumberNumber111Identifies the specific antenna line.Identifies the specific antenna line.Identifies the specific antenna line.1...108, step 11...108, step 11...108, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueNot modifiableNot modifiableNot modifiableMandatoryMandatoryMandatory LTE106 6 cell support with one System Module (standard) LTE1247 Multiradio System Module extended LTE configurations (standard) LTE145 LTE Configuration Management (standard) LTE1508 Multiradio System Module full LTE configurations (standard) LTE1644 Multiradio System Module extended LTE configurations with FBBC (standard) LTE106 6 cell support with one System Module (standard) LTE1247 Multiradio System Module extended LTE configurations (standard) LTE145 LTE Configuration Management (standard) LTE1508 Multiradio System Module full LTE configurations (standard) LTE1644 Multiradio System Module extended LTE configurations with FBBC (standard) LTE106 6 cell support with one System Module (standard) LTE1247 Multiradio System Module extended LTE configurations (standard) LTE145 LTE Configuration Management (standard) LTE1508 Multiradio System Module full LTE configurations (standard) LTE1644 Multiradio System Module extended LTE configurations with FBBC (standard) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppcommunication3gppEnabledANTLANTLANTL Advanced parameters Advanced parameters Advanced parametersCommunication 3GPP enabledCommunication 3GPP enabledCommunication 3GPP enabledBooleanBooleanBoolean111Defines if the device scan functionality is enabled/disabled for a capable 3GPP antenna line. The scan is enabled by default (when the file or parameter is not available for an AL).

Note: In RF sharing case this parameter value shall be set to the "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").Defines if the device scan functionality is enabled/disabled for a capable 3GPP antenna line. The scan is enabled by default (when the file or parameter is not available for an AL).

Note: In RF sharing case this parameter value shall be set to the "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").Defines if the device scan functionality is enabled/disabled for a capable 3GPP antenna line. The scan is enabled by default (when the file or parameter is not available for an AL).

Note: In RF sharing case this parameter value shall be set to the "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").0 (false), 1 (true)0 (false), 1 (true)0 (false), 1 (true)gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1gui => internalfalse => 0true => 1truetruetrueOn-lineOn-lineOn-lineMandatoryMandatoryMandatory LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppfeederVoltageANTLANTLANTL Basic parameters Basic parameters Basic parametersFeeder voltageFeeder voltageFeeder voltageEnumerationEnumerationEnumeration111Defines the voltage level supplied to the antenna line. The values entered for this parameter depend on the MHA type. Non-AISG NSN MHAs: WMHA, WMHB: 12 WMHC: BTS1 Automatic value (Manual voltage override is allowed: possible values [0 V / +12 V/ +14.5 V/ +24V/ +28 V (+24 /+28 only for Main branch, the value depends on the radio module type)]), BTS2 12 Non-AISG Other (3rd party) MHA: 0 (The user can change the line voltage to 12V. AISG MHAs: Currently for all AISG MHA Automatic value is used.

Note: In RF sharing case this parameter value shall be set to the "Automatic" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").Defines the voltage level supplied to the antenna line. The values entered for this parameter depend on the MHA type. Non-AISG NSN MHAs: WMHA, WMHB: 12 WMHC: BTS1 Automatic value (Manual voltage override is allowed: possible values [0 V / +12 V/ +14.5 V/ +24V/ +28 V (+24 /+28 only for Main branch, the value depends on the radio module type)]), BTS2 12 Non-AISG Other (3rd party) MHA: 0 (The user can change the line voltage to 12V. AISG MHAs: Currently for all AISG MHA Automatic value is used.

Note: In RF sharing case this parameter value shall be set to the "Automatic" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").Defines the voltage level supplied to the antenna line. The values entered for this parameter depend on the MHA type. Non-AISG NSN MHAs: WMHA, WMHB: 12 WMHC: BTS1 Automatic value (Manual voltage override is allowed: possible values [0 V / +12 V/ +14.5 V/ +24V/ +28 V (+24 /+28 only for Main branch, the value depends on the radio module type)]), BTS2 12 Non-AISG Other (3rd party) MHA: 0 (The user can change the line voltage to 12V. AISG MHAs: Currently for all AISG MHA Automatic value is used.

Note: In RF sharing case this parameter value shall be set to the "Automatic" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").Automatic (-1), 0 (0), 12 (1), 14.5 (2), 24 (3), 28 (4)Automatic (-1), 0 (0), 12 (1), 14.5 (2), 24 (3), 28 (4)Automatic (-1), 0 (0), 12 (1), 14.5 (2), 24 (3), 28 (4)gui ==> internalAutomatic ==> -10 ==> 012 ==> 114.5 ==> 224 ==> 328 ==> 4gui ==> internalAutomatic ==> -10 ==> 012 ==> 114.5 ==> 224 ==> 328 ==> 4gui ==> internalAutomatic ==> -10 ==> 012 ==> 114.5 ==> 224 ==> 328 ==> 4BTS restart neededBTS restart neededBTS restart neededMandatoryMandatoryMandatory LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE435 SW support for RF sharing WCDMA-LTE (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppmrcProdCodeANTLANTLANTL Basic parameters Basic parameters Basic parametersProduct codeProduct codeProduct codeStringStringString111Defines the product code of the unit in question.Defines the product code of the unit in question.Defines the product code of the unit in question.1...80 characters1...80 characters1...80 charactersinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueBTS restart neededBTS restart neededBTS restart neededOptionalOptionalOptional LTE1072 Flexi Lite BTS 750 (optional) LTE1072 Flexi Lite BTS 750 (optional) LTE1072 Flexi Lite BTS 750 (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApprModIdANTLANTLANTL Basic parameters Basic parameters Basic parametersRadio module reference idRadio module reference idRadio module reference idNumberNumberNumber111This parameter identifies the radio module associated with the antenna line.This parameter identifies the radio module associated with the antenna line.This parameter identifies the radio module associated with the antenna line.1...18, step 11...18, step 11...18, step 1internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueBTS restart neededBTS restart neededBTS restart neededMandatoryMandatoryMandatory LTE106 6 cell support with one System Module (standard) LTE1195 FHCC Repeater Interface Module (standard) LTE1247 Multiradio System Module extended LTE configurations (standard) LTE1508 Multiradio System Module full LTE configurations (standard) LTE1644 Multiradio System Module extended LTE configurations with FBBC (standard) LTE447 SW support for RF sharing GSM-LTE (optional) LTE106 6 cell support with one System Module (standard) LTE1195 FHCC Repeater Interface Module (standard) LTE1247 Multiradio System Module extended LTE configurations (standard) LTE1508 Multiradio System Module full LTE configurations (standard) LTE1644 Multiradio System Module extended LTE configurations with FBBC (standard) LTE447 SW support for RF sharing GSM-LTE (optional) LTE106 6 cell support with one System Module (standard) LTE1195 FHCC Repeater Interface Module (standard) LTE1247 Multiradio System Module extended LTE configurations (standard) LTE1508 Multiradio System Module full LTE configurations (standard) LTE1644 Multiradio System Module extended LTE configurations with FBBC (standard) LTE447 SW support for RF sharing GSM-LTE (optional) EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACApp EM LTE BTS LTE BTS RAC RAC RACAppulDelayANTLANTLANTL Basic parameters Basic parameters Basic parametersUplink delay for the delay compensationUplink delay for the delay compensationUplink delay for the delay compensationNumberNumberNumber111Antenna Line Uplink Delay in nanoseconds, is used to compensate the antenna line UL delay difference between main and diversity Rx branches of the cell. This is needed to avoid gain (i.e. performance) loss due to the time difference between Rx branches data. For example, offset of 1/2 chip period (130ns) introduces diversity gain degradation of about 1dB. Different delays are met e.g. when two radio modules are cross-connected together via RX diversity outputs. User may provide absolute UL delay values for all Rx branches of the cell, or optionally only the positive difference referred to the smallest delay branch and leave smallest