ZXSDR UniRAN (V3.10.20) Ground Parameter Reference

ZXSDR UniRAN FDD-LTE Base StationGround Parameter Reference

Issued Date: 8th May, 2013

ZXSDR UniRAN FDD-LTE Base StationGround Parameter Reference

Version: V3.10.20P02(eNB)V12.12.42(EMS)

Issued Date: 8th May, 2013

Version: V3.10.20P02(eNB)V12.12.42(EMS)

Revision RecordsManual Verson Product Version

R1.6 V3.10.20P02

R1.5 V3.10.20P01

R1.4 V3.10.10P20

R1.3 V3.10.10P01

R1.2 V3.10.10B04

R1.1 V3.10.01P02

R1.0 V3.10.01P01

Modified ParametersTable Name Parameter Name

Access Control Rule Object Access control rule number

Antenna Attribute Object Antenna model

Antenna Entity Object Altitude

Antenna Entity Object Antenna orientation

Antenna Entity Object

Antenna Entity Object Latitude

Antenna Entity Object Longitude

Antenna Entity Object Maximum azimuth

Antenna Entity Object Maximum pitch angle

Antenna Entity Object Mechanical offset

Antenna Entity Object Minimum azimuth

Antenna Entity Object Minimum pitch angle

Antenna Entity Object RET pitch angle

Antenna Entity Object

Bandwidth QOS Queue DSCP

Bandwidth QOS Queue Qos queue No

Bandwidth Resource Group Bandwidth resource group number

Bidirectional Forwarding Detection Minimum interval of receiving packets

Bidirectional Forwarding Detection

BTS Cascade ATM flow attribute configuration

BTS Cascade Base station cascading number

Clock Device Fixed delay compensation

DHCP Relay Object DHCP Relay No.

DHCP Relay Object DHCP server address

Dry Contact Device Dry contact alarm name

Ethernet Fault Detection Configuration Information of event type

IP Layer Configuration Domain

IP Layer Configuration Gateway IP

IPSec security policy configuration

IPSec security policy group No.

Maintenance Association MA name

Maintenance Domain MD name

Managed Network Element Latitude

Managed Network Element Longitude

Optical Port Device Protocol type of optical module

OSPF Area Area sequence number

OSPF Instance Router ID

PA Dual-mode working mode

PPP Link Sequence format of MP header

RF Cable Downlink attenuation

RF Cable Uplink attenuation

RF Extend Cable Downlink attenuation

RF Extend Cable Uplink attenuation

SaalUni AAL5 flow attribute configuration

SCTP Remote address

Horizontal beam width

Vertical beam width

Minimum interval of transmitting packets

IPSec Security Policy Database Object


Service and DSCP mapping LTE FDD service and DSCP mapping

TCP Remote Address

AISG Device Device type

Antenna Entity Object Diversity type

Antenna Entity Object Latitude type

Antenna Entity Object RET device type

Antenna Entity Object Space diversity

Bandwidth Resource Group Maximum bandwidth of egress

Bandwidth Resource Group Used PPP link

BTS Cascade BTS cascade number

BTS Cascade BTS cascade type

CA server path

Default CDP


Dry Contact Device Is customized dry contact alarm

Environment Monitoring Device Threshold type

Ethernet Port Configuration Working mode

Ethernet Switching Device Enable port or not

Ethernet Switching Device Ingress rate limitation mode

Ethernet Switching Device Port working mode

IKE Policy Object Password

IKE Policy Object User name

IKE Policy Object XAUTH function enabled

IP Clock Parameters Enable link setup by negotiation

IP Clock Parameters IP clock transmission mode

IP Clock Parameters IPv6 multicast type

IP Layer Configuration X2 self-setup enabled

IPSec Global Configuration Object Negotiation entity ID type

IPSec Security Policy Configuration IPSec rule action

OMC Channel

Optical Port Device RU board or not

OSPF Instance Compatible with RFC1583 rule or not

PA Board standard

Physical Layer Port Physical layer port number

Power Device Set Power-down control supported

Power Saving Parameter

Power Saving Parameter PA static voltage adjustment switch

Power Saving Parameter RSSI report period

Certificate Management Protocol Configuration


Domain name of base station certificate


Extended option of base station certificate

Certificate Revocation List Configuration

Interface type of operation and maintenance

End time of RRU channel power saving


PPP Link Support IP compression or not

PPP Link Used for CDMA or not

PPP Link Used for FE cascading or not

SCTP Primary path number

STM-1 configuration parameter Encoding mode

System Parameter Enable bypass or not

System Parameter Enable SLA or not

Time Device Set SNTP standby server IP address


CA server type

Ethernet Port Configuration Transmitting bandwidth

Ethernet Switching Device Link mode

Clock Device Clock reference source category

Clock Device Clock reference source type

Ethernet configuration parameter Transmitting bandwidth

Ethernet configuration parameter Working mode

Physical Layer Port Transmission medium


Static Routing Configuration Destination IP address

Static Routing Configuration Next hop IP address

UDP MO Description

Access Control Rule Object Access control rule number

Access Control Rule Object Access control rule object ID

Antenna Service Antenna calibration period

ATM Layer Link Frame length

BTS Cascade BTS cascade number

CA server path

Clock Device Clock reference source category

Clock Device Clock reference source type

Clock Device Input baud rate

Clock Device Receiver Operating Mode


Environment Monitoring Device Threshold Type

Ethernet configuration parameter Transmitting bandwidth

Ethernet Link Layer LACP aggregation group

Ethernet Link Layer MTU

Ethernet Link Layer VLAN ID

Ethernet Switching Device Ingress rate limitation mode

IKE Policy Object

IP Layer Configuration 1588 link selecting modeIP Layer Configuration IP address

Start time of RRU channel power saving



Used IPSec Global Configuration Object

IPSec Proposal Object ESP authentication algorithm

KPI Measurement KPI measurement number

Physical Layer Port Ethernet Configuration parameter


Power Outlet Set Switch status


PowerOutlet Under current alarm threshold percent

PowerOutlet Working current value

RF Device Set Diversity receiving mode

Static Routing Configuration Static routing number

System Parameter

System Parameter Enable SLA or not

UDP MO Description

Antenna Attribute Object Antenna Gain

Antenna Attribute Object Antenna Gap

Ethernet Switching Device Set

IP Layer Configuration Domain

Deleted ParametersTable Name Parameter Name

Operator



Power Saving Parameter RRU power saving switch

Clock Device Support Announce message or not

1588 clock global parameter 1588 clock device type

1588 clock global parameter 1588 link selection mode

1588 clock global parameter Packet Deliver Way

1588 clock global parameter Support CDMA Pico or Not

1PPS+TOD Parameter Configuration Input Baud Rate

1PPS+TOD Parameter Configuration Length of Cascade cable

Clock Device GNSS clock parameters

Clock Device 1PPS+TOD parameter configuration

Clock Device Set 1588 clock global parameter

GNSS Clock Parameter GNSS Cable Length

GNSS Clock Parameter Height of Receiver Antenna

GNSS Clock Parameter Latitude of Receiver Antenna

GNSS Clock Parameter Length of RGPS Cascade cable

GNSS Clock Parameter Longitude of Receiver Antenna

GNSS Clock Parameter Minimum Number of Search Star

Base station reset time of self-recovery

Enable Ethernet multi-path transmission

CE percent corresponding to operator (%)

End time of power amplifier power saving

Start time of power amplifier power saving

GNSS Clock Parameter Receiver Operating Mode

1588 clock global parameter Support CDMA Pico or notBandwidth Resource Whether used for CDMA or Not

Clock Device GNSS receiver hardware type

Clock Device GNSS receiver working type

Clock Device RGPS cable length

IKE Policy Object

IKE Policy Object passWord

IKE Policy Object refIPSecGLConfig

IKE Policy Object userName

IKE Policy Object XAUTH function enabled

IPSec Configuration Object Used IKE policy

IPSec Global Configuration Object IKE retransmission interval

IPSec Global Configuration Object IKE retransmission times

IPSec Global Configuration Object Negotiation entity ID type

Physical Layer Port STM-1 Configuration parameter

PPP Link Used for CDMA or not

Service and DSCP mapping GSM service DSCP mapping

Service and DSCP mapping Link used by slave RNC or not

Service and DSCP mapping

Service and DSCP mapping UMTS service and DSCP mapping

Transmission Network ATM address

New ParametersTable Name Parameter Name

Optical Port Device Is RU Board

Bandwidth Resource Whether used for CDMA or Not

OMC Channel IPOA address

Device Group Minimum number of search stars

RF Device Set Antenna polarization mode

BTS Cascade LACP aggregation uplink port

BTS Cascade LACP aggregation downlink port

Type of CA server

KPI Measurement KPI measurement number


Clock Device Receiver antenna altitude

Clock Device GNSS cable length

Clock Device Cascade cable length

Authentication method in IKE negotiation

TD-SCDMA service and DSCP mapping



Domain name of base station certificate's issuer

Clock Device Input baud rate

Clock Device Receiver antenna altitude

Clock Device Receiver antenna longitude

Clock Device Minimum number of search stars

Clock Device GNSS receiver hardware type

Clock Device Receiver operating mode

Clock Device GNSS receiver working type

Clock Device RGPS cable length

1588 clock global parameter

1588 clock global parameter MO description

1588 clock global parameter 1588 clock device type

1588 clock global parameter 1588 line selecting mode

1588 clock global parameter Support CDMA Pico or not

1588 clock global parameter Message transmission path

Clock Device Set Clock cascading output type

Clock Device Set 1PPS+TOD backup between BBU

Baseband Device Unit number

Device Group Minimum number of search stars

Device Group Physical board name

Device Group RRU GNSS cable length

External device Device type

IP Clock Parameters Used bandwidth resource

IP Layer Configuration Prefix length

IP Layer Configuration X2 self-setup configuration

IPSec Configuration Object

IPSec Configuration Object IKE version

IPSec Configuration Object Negotiation entity ID type

IPSec Configuration Object

IPSec Configuration Object Used XAUTH configuration

OMC Channel Base station inner IP

OMC Channel OMC gateway IP

Optical Port Device Radio standard

Physical Layer Port Backup ethernet port ID

Physical Layer Port Ethernet port priority

Physical Layer Port

PPP Link Keep Alive Time

SCTP Heartbeat interval

SCTP Maximum data retransmission interval

SCTP

SCTP

SCTP

SCTP Minimum data retransmission interval

SCTP Radio standard

Object ID of 1588 clock global parameters

Authentication method in IKE negotiation


Working mode of backup Ethernet port

Maximum retransmission times for establishing link

Maximum retransmission times of association

Maximum retransmission times of path

SON Function Switch Object Configuration for data rollback switch

System Parameter Forbid FTP or not

System Parameter Forbid TELNET or not

Antenna Entity Object Base elevation

Deleted Tables

Table Name Short Name

1588 clock global parameter StructClock1588Data

GNSS Clock Parameter StructGnssClockData

1PPS+TOD Parameter Configuration StructTod1PpsData

Baseband Device Set BpDeviceSet

Channelized STM-1 ChannelizedStm1

StructGsmServiceDscp

StructUmtsServiceDscp

StructCdmaServiceDscp

TCP Tcp

New Tables

Table Name Short Name

1588 clock global parameter Global1588Config

XAUTH Configuration Object XauthConfig

Mapping relation from GSM service type to DSCP at IP layer

Mapping relation from UMTS service type to DSCP at IP layer

Mapping relation from CDMA service type to DSCP at IP layer

Revision RecordsAuthor Issued Date

Li Shunbin, Zhai Yanbo 8/May/13

Li Shunbin, Zhai Yanbo 25/Mar/13

Li Shunbin, Zhai Yanbo 15/Jan/13

Li Shunbin, Zhai Yanbo 12/Nov/12

Li Shunbin, Zhai Yanbo 15/Oct/12

Li Shunbin, Zhai Yanbo 9/Aug/12

Li Shunbin, Zhai Yanbo 26/Jul/12

Modified ParametersShort Name Revised Date

aclNo 9-Aug-12

antModel 9-Aug-12

altitude 9-Aug-12

antAngle 9-Aug-12

horizBeamwidth 9-Aug-12

latitude 9-Aug-12

longitude 9-Aug-12

maxAzimuthV 9-Aug-12

retMaxTiltV 9-Aug-12

mechnicalOffset 9-Aug-12

minAzimuthV 9-Aug-12

retMinTiltV 9-Aug-12

retTiltV 9-Aug-12

vertBeamwidth 9-Aug-12

dscp 9-Aug-12

qosNo 9-Aug-12

groupNo 9-Aug-12

requiredMinRxInterval 9-Aug-12

desiredMinTxInterval 9-Aug-12

trafficProfile 9-Aug-12

btsCascadeNo 9-Aug-12

delayCompensation 9-Aug-12

dhcpRelayNo 9-Aug-12

dhcpServerIp 9-Aug-12

almNo 9-Aug-12

eventInfo 9-Aug-12

ipField 9-Aug-12

gatewayIp 9-Aug-12

spConfig 9-Aug-12

spGroupNo 9-Aug-12

maName 9-Aug-12

mdName 9-Aug-12

latitude 9-Aug-12

longitude 9-Aug-12

protocolType 9-Aug-12

OspfAreaId 9-Aug-12

routerId 9-Aug-12

dualMode 9-Aug-12

mpCode 9-Aug-12

dlAttenuation 9-Aug-12

ulAttenuation 9-Aug-12

dlAttenuation 9-Aug-12

ulAttenuation 9-Aug-12

saalUniTrafficProfile 9-Aug-12

remoteAddr 9-Aug-12

fddServiceDscpMap 9-Aug-12

remoteAddr 9-Aug-12

devType 15-Oct-12

typeDiversity 15-Oct-12

latitudeSign 15-Oct-12

retDeviceType 15-Oct-12

spaceDiversity 15-Oct-12

egressMBR 15-Oct-12

refPppLink 15-Oct-12

btsCascadeNo 15-Oct-12

cascadeType 15-Oct-12

caServerPath 15-Oct-12

certificateName 15-Oct-12

certificateExtension 15-Oct-12

defaultCdp 15-Oct-12

almNo 15-Oct-12

isSelfDefineAlm 15-Oct-12

thresType 15-Oct-12

operatingMode 15-Oct-12

isEnable 15-Oct-12

ingressRateLimitMode 15-Oct-12

portMode 15-Oct-12

passWord 15-Oct-12

userName 15-Oct-12

enableXauth 15-Oct-12

enableNegotiation 15-Oct-12

transType 15-Oct-12

ipv6MultiCastType 15-Oct-12

x2SelfSetup 15-Oct-12

idType 15-Oct-12

ruleAction 15-Oct-12

itfUniBtsType 15-Oct-12

isRU 15-Oct-12

enableRfc1583 15-Oct-12

radioMode 15-Oct-12

phyLayerPortNo 15-Oct-12

enablePowerDownCtrl 15-Oct-12

rruPSEndTime 15-Oct-12

paPSSwitch 15-Oct-12

rssiReportPeriod 15-Oct-12

rruPSStartTime 15-Oct-12

ipCompress 15-Oct-12

isCDMA 15-Oct-12

isUsedToFECascade 15-Oct-12

primaryPathNo 15-Oct-12

codeType 15-Oct-12

enableBypass 15-Oct-12

enableSla 15-Oct-12

ntpServerStdIpAddr 15-Oct-12

almNo 12-Nov-12

caServerType 12-Nov-12

egressPeakBitRate 12-Nov-12

operatingMode 12-Nov-12

clockCategory 15-Jan-13

clockType 15-Jan-13

egressPeakBitRate 15-Jan-13

operatingMode 15-Jan-13

mediumType 15-Jan-13

rssiReportPeriod 15-Jan-13

ipAddress 15-Jan-13

nextHopIpAddr 15-Jan-13

description 15-Jan-13

aclNo 25-Mar-13

AccessControlListId 25-Mar-13

calibrationPeriod 25-Mar-13

frameLen 25-Mar-13

btsCascadeNo 25-Mar-13

caServerPath 25-Mar-13

clockCategory 25-Mar-13

clockType 25-Mar-13

inputBardRate 25-Mar-13

receiverOperatingMode 25-Mar-13

almNo 25-Mar-13

thresType 25-Mar-13

egressPeakBitRate 25-Mar-13

refLacpGroup 25-Mar-13

mtu 25-Mar-13

vlanMembership 25-Mar-13

ingressRateLimitMode 25-Mar-13

refIPSecGLConfig 25-Mar-13

linkSelectMode 25-Mar-13

ipAddr 25-Mar-13

espAuthAlgorithm 25-Mar-13

ipKpiNo 25-Mar-13

ethernetConfig 25-Mar-13

mediumType 25-Mar-13

switchStatus 25-Mar-13

rssiReportPeriod 25-Mar-13

lowerLimitPercent 25-Mar-13

currentValue 25-Mar-13

diversityMode 25-Mar-13

staticRouteNo 25-Mar-13

selfProtectTime 25-Mar-13

enableSla 25-Mar-13

description 25-Mar-13

antGain 8-May-13

antGap 8-May-13

enableFEMultiPath 8-May-13

ipField 8-May-13

Deleted ParametersShort Name Revised Date

cePercent 15-Oct-12

paPSEndTime 15-Oct-12

paPSStartTime 15-Oct-12

rruPSSwitch 15-Oct-12

supportAnnounce 15-Oct-12

clockType 12-Nov-12

linkSelectMode 12-Nov-12

deliverPacketWay 12-Nov-12

isSupportCdmaPico 12-Nov-12

inputBardRate 12-Nov-12

cascadeCableLength 12-Nov-12

gnssClockData 12-Nov-12

tod1PpsData 12-Nov-12

clock1588Data 12-Nov-12

cableLength 12-Nov-12

altitude 12-Nov-12

latitude 12-Nov-12

rgpsCableLength 12-Nov-12

longitude 12-Nov-12

minStarNum 12-Nov-12

receiverOperatingMode 12-Nov-12

isSupportCdmaPico 25-Mar-13

isCDMA 25-Mar-13

receiverHardwareType 25-Mar-13

receiverType 25-Mar-13

rgpsCableLength 25-Mar-13

authenticationMethod 25-Mar-13

Password 25-Mar-13

IPSec global settings 25-Mar-13

User name 25-Mar-13

enableXauth 25-Mar-13

refIKEPolicy 25-Mar-13

ikeRetransInterval 25-Mar-13

ikeRetransCount 25-Mar-13

idType 25-Mar-13

stm1Config 25-Mar-13

isCDMA 25-Mar-13

gsmServiceDscpMap 25-Mar-13

enableSlaveFlag 25-Mar-13

tdsServiceDscpMap 25-Mar-13

umtsServiceDscpMap 25-Mar-13

atmAddr 25-Mar-13

New ParametersShort Name Revised Date

isRU 9-Aug-12

isCDMA 9-Aug-12

ipoaAddr 9-Aug-12

minStarNum 15-Oct-12

antPolarizationMode 15-Oct-12

ref1LacpGroup 15-Oct-12

ref2LacpGroup 15-Oct-12

caServerType 15-Oct-12

certificateIssuerName 15-Oct-12

ipKpiNo 15-Oct-12

mediumType 15-Oct-12

altitude 12-Nov-12

cableLength 12-Nov-12

cascadeCableLength 12-Nov-12

inputBardRate 12-Nov-12

latitude 12-Nov-12

longitude 12-Nov-12

minStarNum 12-Nov-12

receiverHardwareType 12-Nov-12

receiverOperatingMode 12-Nov-12

receiverType 12-Nov-12

rgpsCableLength 12-Nov-12

Global1588ConfigId 12-Nov-12

description 12-Nov-12

clockType 12-Nov-12

linkSelectMode 12-Nov-12

isSupportCdmaPico 12-Nov-12

deliverPacketWay 12-Nov-12

clockCascadeOutputType 15-Jan-13

bbuMutualBackup 15-Jan-13

port 25-Mar-13

minStarNum 25-Mar-13

physicalBrdType 25-Mar-13

rruGnssCableLength 25-Mar-13

powerType 25-Mar-13

refBandwidthResource 25-Mar-13

prefixLength 25-Mar-13

x2SelfSetupConfig 25-Mar-13

authenticationMethod 25-Mar-13

ikeVersion 25-Mar-13

idType 25-Mar-13

refIPSecGLConfig 25-Mar-13

refXauthConfig 25-Mar-13

innerIp 25-Mar-13

gatewayIp 25-Mar-13

radioMode 25-Mar-13

bakeupPortID 25-Mar-13

portPriority 25-Mar-13

bakeupWorkMode 25-Mar-13

keepAliveTime 25-Mar-13

hbInterval 25-Mar-13

maxRTO 25-Mar-13

maxInitRetran 25-Mar-13

maxAssoRetran 25-Mar-13

maxPathRetran 25-Mar-13

minRTO 25-Mar-13

radioMode 25-Mar-13

configFallback 25-Mar-13

forbidFtp 25-Mar-13

forbidTelnet 25-Mar-13

baseElevation 8-May-13

Deleted Tables

Short Name Revised Date

StructClock1588Data 12-Nov-12

StructGnssClockData 12-Nov-12

StructTod1PpsData 12-Nov-12

BpDeviceSet 25-Mar-13

ChannelizedStm1 25-Mar-13

StructGsmServiceDscp 25-Mar-13

StructUmtsServiceDscp 25-Mar-13

StructCdmaServiceDscp 25-Mar-13

Tcp 25-Mar-13

New Tables

Short Name Revised Date

Global1588Config 12-Nov-12

XauthConfig 25-Mar-13

Details of Revision Changes

First edition

1. There are 4 parameters modified as shown in Modified Parameters below.2. There are 1 parameter newly added as shown in New Parameters below.

1. There are 33 parameters modified as shown in Modified Parameters below.2. There are 21 parameters deleted as shown in Deleted Parameters below.3. There are 30 parameters newly added as shown in New Parameters below.4. There are 6 tables deleted as shown in Deleted Tables below.5. There are 1 table newly added as shown in New Tables below

1. There are 9 parameters modified as shown in Modified Parameters below.2. There are 2 parameters newly added as shown in New Parameters below.

1. There are 4 parameters modified as shown in Modified Parameters below.2. There are 16 parameters deleted as shown in Deleted Parameters below.3. There are 17 parameters newly added as shown in New Parameters below.4. There are 1 table newly added as shown in New Tables below.5. There are 3 tables deleted as shown in Deleted Tables below.

1. There are 47 parameters modified as shown in Modified Parameters below.2. There are 5 parameters deleted as shown in Deleted Parameters below.3. There are 8 parameters newly added as shown in New Parameters below.

1. There are 47 parameters modified as shown in Modified Parameters below.2. There are 3 parameters newly added as shown in New Parameters below.

Tabel Name Short Name

Managed NE ManagedElement

Equipment Equipment

Cabinet Cabinet

Sub-rack SubRack

Device Group SdrDeviceGroup

Baseband Device BpDevice

Clock Device Set ClockDeviceSet

Clock Device ClockDevice

Time Device Set TimeDeviceSet

Time Device TimeDevice

RF Device Set RfDeviceSet

RF Port Object RfDevice

PA Pa

Tx Device TxChannel

Rx Device RxChannel

AISG Device AisgDevice

Optical Port Device Set FiberDeviceSet

Optical Port Device FiberDevice

GigaBitEthernet GeDevice

E1 E1Device

T1 T1Device

Ethernet Switching Device Set EthernetSwitchDeviceSet

Ethernet Switching Device EthernetSwitchDevice

Power Device Set PmDeviceSet

Power Device PmDevice

Dry Contact Device DryContactDevice

Environment Monitoring Device Set EnvMonDeviceSet

Environment Monitoring Device EnvMonDevice

Fan Device FanDevice

Power Outlet Set PowerOutletDeviceSet

Power Outlet PowerOutletDevice

BTS Auxiliary Peripheral Device AuxUnit

External device EPm

TMA Device Tma

Antenna Attribute Object AntProfile

Antenna Entity Object AntEntity

Ir Antenna Group Object IrAntGroup

RF Cable RfCable

RF Extend Cable RfExtendCable

Fiber Cable FiberCable

Transmission Network TransportNetwork

Physical Layer Port PhyLayerPort

ATM Layer Link AtmLayerLink

AAL2 Aal2

SaalUni SaalUni

ALCAP Alcap

BTS Cascade BtsCascade

HDLC Channel Hdlc

PPP Link PppLink

LACP aggregation port LacpPort

LACP aggregation group LacpGroup

Ethernet Link Layer EthernetLink

Ethernet Fault Detection Configuration EthernetOam

DHCP Relay Object DhcpRelay

Bandwidth Resource Group BandwidthResourceGroup

Bandwidth Resource BandwidthResource

Bandwidth QOS Queue BandwidthQos

IP Layer Configuration IpLayerConfig

DSCP to COS mapping DscpCosMap

Service and DSCP mapping ServiceMap

Static Routing Configuration StaticRoute

Routing Detection Object RouteDetect

IKE Policy Object IKEPolicy

IPSec Proposal Object IPSecTransformSet

IPSec Security Policy Database Object IPSecSpd

XAUTH Configuration Object XauthConfig

IPSec Global Configuration Object IPSecGLConfig

IPSec Configuration Object IPSecConfig

Access Control Rule Object AccessControlList

CrlConfigCertificate Revocation List Configuration

CmpConfig

SCTP Sctp

Maintenance Domain EthernetCfmMd

Maintenance Association EthernetCfmMa

Maintenance Point EthernetCfmMp

UDP Udp

Bidirectional Forwarding Detection Bfd

1588 clock global parameter Global1588Config

IP Clock Parameters IpClockProfile

KPI Measurement IpKpi

OMC Channel ItfUniBts

Operator Operator

PLMN Plmn

System Parameter SystemFuctions

Power Saving Parameter PowerSaving

Antenna Service AntService

SON Function Switch Object SonSwitch

OSPF Instance OspfInstance

OSPF Area OspfArea

OSPF stub settings OspfStub

OSPF Interface OspfInterface

DOT1X Dot1x

StructAtmTrafficProfile

StructAal5TrafficProfile

Product Information StructProductData

Local MEP Parameter StructLocalMEPData

Remote MEP Parameter StructRemoteMEPData

BFD Authority Parameter StructBfdAuthority

Information of event type StructOamEventInfo

IPSec Security Policy Configuration StructSp

StructHwSelfDetecting

Configuration for site auto-opening StructSiteSelfOpening


Configuration of ATM Throughput Poroperty

Configuration of AAL5 Throughput Poroperty

Configuration for hardware auto-discovery

StructTransportSelfSetup

Ethernet configuration parameter StructEthernetConfig

Configuration Recovery StructConfigRecover

Configuration for Auto-setup Transmission Link

Mapping relation from LTE service type to DSCP at IP layer

StructLteServiceDscpStructLteTddServiceDscp

Description

Cabinet object is an abstract of cabinets used in a base station.

Sub-rack is the shelf. One rack can contain one or more shelves.

Device group object, corresponding to the function set of the board.

Indicates the set of reference clock source.

Indicates the clock reference source.

Represents the configuration set related to time information.

Indicates parameters related to time information, such as the NTP and daylight-saving time.

Indicate the set of RU RF ports. The board with the set has RF function.

Indicate the physical entity of RU RF port.

Represents the power amplifier in the remote unit (RU).

Indicates the RF transmission entity in a remote unit (RU).

Indicates the RF receiving entity in a remote unit (RU).

Indicates the physical port on the Ir interface.

Indicates the GigabitEthernet physical port (Debug port or external port).

Indicates a physical E1 port. Currently only exists on the SA and SE boards.

Indicates a physical T1 port. Currently only exists on the SA and SE boards.

Indicates the set of physical ports for Ethernet switching devices.

Represents the set of the power modules. Boards with the set have power functions.

Represents the power module. Currently it only exists on the PM board.

Represents the collection of environment monitoring devices.

Represents the environment monitoring function.

Represents the fan.

Represents a collection of power outlets.

Represents a power outlet. It only exists on the TAM board currently.

Describe external device, such as embedded power and shelter.

TMA control object is used to configure complementary tower amplifier gain and other parameters.

Represents the antenna attribute, such as gain and mode.

Represents the physical entity of the antenna.

Represents the object property of the Ir antenna group.

Represents the SDR base station in the wireless network, or the network element. It is the root of all MO nodes. It provides detailed services and management functions. See 3GPP TS32.622.

Represents physical of the entity network element. It is the root node of all physical device resource. Physical device resource includes the cabinet, shelf, board, RU, antenna, and tower amplifier.

Indicates the baseband processing unit on the base band board. The object is used when the baseband resource are allocated for the local cell.

The AISG device object is an abstract of the AISG control port. It is used for RET to control the antenna tilt, and for the signal amplification of TMA. For details, see AISG v1.1, AISG v2.0, and 3GPP TS25.460 to 3GPP TS25.463.

Indicates the set of physical ports on the Ir interface. The Boards with the set have the IQ switching function.

Represents a physical port of the Ethernet switching equipment. Currently it exists only on the UES boards.

Represents a dry contact port. Currently it only exists on the SA, SE, FCE boards and radio frequency boards.

It represents the root node of the peripheral equipment resource of the managed NE, including the antenna feeder system (antenna and tower amplifier) and embedded power supply.

Represents It represents TC or IMA (AF-PHY-0086.000 AF-PHY-0086.001) object.

It represents the AAL5 protocol.

It represents the ALCAP protocol.

Represents the HDLC protocol (ISO/IEC 13239:2002).

Represents the attribute of the LACP aggregation port.

Represents the attribute of the LACP aggregation group.

Represents the Ethernet link layer between the base station and the upper-level NE.

It is used to allocate bandwidth.

It is used to divide bandwidth.

Indicate QoS queue configured on the IP bandwidth resource.

It represents the IP-layer configuration and static route.

Configure service and DSCP mapping.

It is used to configure a static routing.

Represents the route detection configuration.

IKE policy object. Refer to the protocol RFC4301 and RFC4306.

IPSec proposal object. Refer to the protocol RFC4301 and RFC4306.

IPSec security policy database object. See protocol RFC4301 and RFC4306.

XAUTH Configuration Object.

Indicate IPSec Global configuration object.

IPSec configuration object. Refer to the protocol RFC4301 and RFC4306.

Access control rule object. Refer to the protocol RFC4301 and RFC4306.

Indicates radio frequency (RF) feeder cable resources. It represents the connection between the RF interface of a remote unit (RU) and the antenna/tower mounted amplifier (TMA).

Indicate the radio frequency (RF) extended cable resources. It represents the connection between two RU RF ports (RxOut and RxIn).

Indicates the optical fiber resources, referring to the connection between baseband unit (BBU) and Remote Unit (RU), or between two BBUs in stack mode.

It represents the transmission resource of the network element. It is the root node of all transmission resource. Transmission resource types include IP transmission and ATM transmission. The transmission protocol layer includes physical layer, link layer, IP/ATM layer, and application layer. Refer to 3GPP TS32.712.

Represents the physical layer of IP or ATM transmission protocol. The physical layer bearer includes E1, T1, and Ethernet.

Represents the AAL2 protocol. For details, see ITU-T I.363.2 B-ISDN ATM Adaptation Layer specification: Type 2 AAL.

It represents related configuration of upper-level base station transmission when E1 or T1 cascading is used.

Represents the PPP protocol. Data transmission is implemented through the point-to-point connection established through dialing or dedicated cable. (RFC 1661 The Point-to-Point Protocol (PPP))

Represents the Ethernet fault detection protocol IEEE 802.3ah. After the protocol is enabled on two point-to-point connected devices, the link status and performance between them can be monitored.

Describes the DHCP relay function configuration. When this function is enabled, SDR monitors DHCP broadcasting, forwards it to the DHCP server, and forwards the returned response to the DHCP client. For details about DHCP relay function, see RFC3046. The function related to this MO is ZWF22-03-003 DHCP.

Indicate mapping relationship from DSCP at IP layer to COS at Ethernet link layer. It reflects the conversion of QoS from the IP layer to the link layer.

Describe that base station obtains certification revocation list through LDAP protocol to realize the function of verification certification.

It represents the UDP object.

Specify the configuration of 1588 clock global parameters.

Represents parameter configuration related to IEEE1588 clock.

Configure object needs KPI measurement.

Represents the operator. When the NE resource is shared by multiple operators, the MO is referred to.

Used to describe objects of Public Land Mobile Network (PLMN).

System parameter object.

Power saving parameter object.

Antenna service object.

Configure switch parameters of related functions for Self-Organizing Network (SON).

Indicate the OSPF instance basic configuration.

Indicate the OSPF area configuration.

Specify OSPF stub settings.

Indicate the OSPF interface basic configuration.

Indicate the authentication configuration of DOT1X

Specify the configuration of ATM flow control parameters on a PVC.

Specify the configuration of AAL5 flow control parameters.

Specify product Information

Specify local MEP parameters.

Specify the remote MEP information.

Specify the authentication-related configuration of BFD control packets.

Configure the information related to error frames and error symbols.

Configure the IPSec SPD security policy.

Configure parameters for hardware auto-discovery.

Configure parameters for site auto-commissioning.

Describe the congiruation information obtained by base station via CMP protocol. This helps users to apply for and update Certificate.

Represents the SCTP protocol (RFC 2960: Stream Control Transmission Protocol). It provides a stable and sequential data transmission service between two end points. It is mainly used for signaling transmission in the IP network.

Maintenance domain in the 802.1ag protocol. It provides all or part of the network for fault and performance management. The function related to the object is ZWF22-03-009.

Maintenance association in the 802.1ag protocol. The MAs that satisfy the following conditions are included: MPs of a MA exist within the same management domain; MPs of a MA have the same MA level; MPs of a MA belong to the same point-to-point ETH connection or multi-point ETH connectivity. The function related to the object is ZWF22-03-009.

Maintenance point in the 802.1ag protocol. MEP represents an MP end point. It can send and terminate the OAM frame, and is used for error management and performance monitoring. The function related to the object is ZWF22-03-009.

Bidirectional Forwarding Detection RFC5880 (BFD) is a protocol intended to detect faults in the bidirectional path between two forwarding engines, including interfaces, data link, and potential low-delay faults of the forwarding engine. The BFD operations are independent of media, data protocols, and routing protocols.

Represents the O&M interface between NE and MNS, that is, Itf-B (OMCB channel). The connection mode of Itf-B can be direct connection or connection by RNC/BSC. See 3GPP TS32.101.

Configure transmission auto-connection parameters.

Specify the LTE service carried on IP link and the QoS priority of each service.

The Ethernet port configuration.

Configuration for rollback.

Table Name Parameter Name Short Name

Managed NE NE Type managedElementType

NE ID meId

NE Name userLabel

NE Address locationName

NE Version swVersion

Non-configured Board State userDefinedState

Longitude longitude

Latitude latitude

NE ID Planned by Operator operatorPlannedId

NE ID Planned by Vendor vendorPlannedId

Device Object ID of equipment Equipment

MO Description description

Device description information userLabel

BBU stack mode bbuStackMode

Cabinet Object ID of cabinet Cabinet


Cabinet number cabinetNo

cabinetData

Cabinet position cabinetPosition

SubRack Sub-rack ID SubRack


Sub-rack No. subRackNo

Cabinet type information

Sub-rack type subRackType

Sub-rack description information userLabel

Device Group Object ID of device group SdrDeviceGroup


productData

Board Radio Mode radioMode

Board function mode functionMode

Physical board name physicalBrdType

Configure high priority or not isHighPriority

RRU GNSS cable length rruGnssCableLength

Minimum number of search stars minStarNum

Baseband Device Object ID of baseband device BpDevice


Unit number port

Clock Device Set Object ID of clock device set ClockDeviceSet


Clock synchronization mode clockSyncMode

Board product information

Clock source switching strategy clockSwitchPolicy

Clock cascading output type clockCascadeOutputType

1PPS+TOD backup between BBU bbuMutualBackup

Clock Device Object ID of clock device ClockDevice


Clock reference source category clockCategory

Clock reference source type clockType

Priority clockPriority

Fixed delay compensation delayCompensation

Enable SyncE enableSyncE

Enable SSM isSSM

GNSS cable length cableLength

Receiver Operating Mode receiverOperatingMode

Receiver antenna longitude longitude

Receiver antenna latitude latitude

Receiver antenna altitude altitude

Minimum number of search stars minStarNum

Cascade cable length cascadeCableLength

Input baud rate inputBardRate

Time Device Set Object ID of time device set TimeDeviceSet


SNTP standby server IP address ntpServerStdIpAddr

Time Device Object ID of time device TimeDevice


Clock synchronization period clockSynPeriod

NTP server IP address ntpServerIpAddr

Time zone timeZone

Daylight saving time supported isSuppSummTime

Start time of daylight saving time summTimeStart

End time of daylight saving time summTimeEnd

SNTP enabled useSntp

Daylight saving time offset summerTimeoffset

RF Device Set Object ID of RF device set RfDeviceSet


Diversity receiving mode diversityMode

Antenna polarization mode antPolarizationMode

RF Port Object Object ID of RfDevice RfDevice


Port No. portNo

PA Object ID of PA Pa


Rated power power

Frequency Band ID suppBand

Sub-frequency band branchBand

Radio standard radioMode

Dual-mode working mode dualMode

PA shutdown switch by time slot powerOffSwitch

Tx Device Object ID of Tx device TxChannel



Tx central frequency point txCenterFreq

detectSwitch

Rx Device Object ID of Rx device RxChannel


Enable balance detection between main set and diversity


Rx central frequency point rxCenterFreq

AISG Device Object ID of AISG device AisgDevice


Device serial number uniqueId

Device type devType

Vendor code vendorCode

AISG version aisgVersion

Sub-unit No. multiAntNo

Customized descriptive filed userLabel

Superior channel fatherPort

Local channel selfPort

Connected TMA device refTma

Connected antenna refAntEntity

Optical Port Device Set Object ID of optical port device set FiberDeviceSet


Working mode of network switching operatingMode

Uplink connection mode connectModeWithUpRack

Optical Port Device Object ID of optical port device FiberDevice


Connected board port No. port

RU board or not isRU

Optical module type opticalModuleType

Protocol type of optical module protocolType


GigaBitEthernet Object ID of GigaBitEthernet GeDevice


Port number port

E1 Object ID of E1 E1Device


Port No. port

T1 Object ID of T1 T1Device


Port No. port

Object ID of Ethernet switching device EthernetSwitchDeviceSet


Whether send SyncE clock to cascading device isSyncEEnable

PLL reference clock source pllResouce

Enable link aggregation enableTrunk

Link aggregation media type trunkMediaType

Ethernet Switching Device Set

Media access type on uplink interface upLinkMediaMode

Enable Ethernet multi-path transmission enableFEMultiPath

Queue priority queuePriority

Ethernet Switching Device Object ID of Ethernet switching device EthernetSwitchDevice


Port No. port

Enable port or not isEnable

Port working type portMode

Link mode operatingMode

Enable ingress rate limitation ingressRateSwitch

Limit of ingress rate ingressBitRate

Enable egress rate limitation egressRateSwitch

Limit of egress rate egressBitRate

VLAN group No. vlanMembership

Ingress rate limitation mode ingressRateLimitMode

Power Device Set Object ID of power device set PmDeviceSet


Power working mode operatingMode

Power-down control supported enablePowerDownCtrl

Power Device Object ID of power device PmDevice


Dry Contact Device Object ID of dry contact device DryContactDevice


Dry contact description userLabel

Dry Contact No. dryNo

Dry Contact Type dryType

Output Dry Contact Status outDryType

Output Dry Contact Name outDryName

Alarm Status almStatus

Is customized dry contact alarm isSelfDefineAlm

Dry contact alarm name almNo

Object ID of Environment Monitoring Device Set EnvMonDeviceSetEnvironment Monitoring Device Set


Object ID of environment monitoring device EnvMonDevice


RF port port

Threshold Type thresType

Upper limit upperLimit

Lower limit lowerLimit

Recovery value of upper limit alarm upperResumeLimit

Recovery value of lower limit alarm lowerResumeLimit

Fan Device Fan Device Object ID FanDevice


Fan No. fanNo

Power Outlet Set Object ID of Power Outlet Set PowerOutletDeviceSet


Switch status switchStatus

Voltage (0.1V) voltage

PowerOutlet Power Outlet Object ID PowerOutletDevice


Port ID port

Environment Monitoring Device

Working current value currentValue

Alarm detection mode almDetectMode

Under current alarm threshold percent lowerLimitPercent

Over Current Alarm Threshold Percent upperLimitPercent

Switch status switchStatus

BTS auxiliary peripheral device ID AuxUnit


External device Object ID of external device EPm


Data processing mode dataProcessMode

Device type powerType

Connected board refSdrDeviceGroup

TMA Device TMA Device Object ID Tma


TMA No. tmaNo

BTS Auxiliary Peripheral Device

TMA Type tmaType

Uplink Gain ulGain

Downlink Gain dlGain

TMA noise coefficient tmaNoise

Downlink Delay dlDelay

Uplink Delay ulDelay

Antenna Attribute Object Object ID of antenna attribute AntProfile


Antenna manufacturer antFactory

Antenna Type antType

Antenna Gain antGain

Antenna Gap antGap

Number of antenna units antUnitsNumber

Antenna model antModel

Antenna Entity Object Object ID of antenna entity AntEntity


Antenna entity No. antEntityNo

Used antenna attribute refAntProfile

Coverage scenario coverScenario

RET Device type retDeviceType

Antenna orientation antAngle

Validity of geographical information isGeographValid

Latitude type latitudeSign

Latitude latitude

Longitude longitude

Altitude type altitudeDirection

Altitude altitude

Altitude of base altitudeBase

Base elevation baseElevation

Description of geographical information location

User ID userLabel

RET pitch angle retTiltV

Maximum pitch angle retMaxTiltV

Minimum pitch angle retMinTiltV

Mechanical offset mechnicalOffset

RET group name retGroupName

Maximum azimuth maxAzimuthV

Minimum azimuth minAzimuthV

horizBeamwidth

vertBeamwidth

Space diversity spaceDiversity

Diversity type typeDiversity

Pattern label patternLabel

Cell List celllist

Ir Antenna Group Object Object ID of Ir antenna group IrAntGroup


Ir antenna group number irAntGroupNo

Used antenna refAntEntity

Connected RRU board refSdrDeviceGroup

RF Cable Object ID of RF cable RfCable


Downlink attenuation dlAttenuation

Uplink attenuation ulAttenuation

Downlink delay dlDelay

Uplink delay ulDelay

Connected antenna refAntEntity

Connected TMA device refTma

Horizontal beam width

Vertical beam width

Connected RF port refRfDevice

RF Extend Cable Object ID of RF Extend Cable RfExtendCable


Downlink attenuation dlAttenuation

Uplink attenuation ulAttenuation

Downlink delay dlDelay

Uplink delay ulDelay

Connected main ru ref1SdrDeviceGroup

Connected extend ru ref2SdrDeviceGroup

Fiber Cable Object ID of fiber cable FiberCable


Upper level optical port in topology structure ref1FiberDevice

Lower level optical port in topology structure ref2FiberDevice

Transmission Network Object ID of transmission network TransportNetwork


Physical Layer Port Object ID of physical layer port PhyLayerPort


Physical layer port number phyLayerPortNo

Transmission medium mediumType

Connection object connectObject

Used E1 refE1Device

Used T1 refT1Device

Used Ethernet refGeDevice

Used STM-1 port refStm1Device

ethernetConfig

Backup Ethernet port ID bakeupPortID

Working mode of backup Ethernet port bakeupWorkMode

Ethernet port priority portPriority

ATM Layer Link ATM layer link ID AtmLayerLink


ATM layer link No. atmLayerLinkNo

ATM layer protocol type protocolType

Enable descrambling isScramb

IMA link No. imaNo

Frame length frameLen

Clock mode clockMode

Time slot bit mapping timeSlotBitMap

Used physical layer port refPhyLayerPort

Ethernet Configuration parameter

Used channelized STM-1 refChannelizedStm1

AAL2 Object ID of AAL2 Aal2


PVC No. pvcNo

AAL2 link ID pathId

VPI vpi

VCI vci

trafficProfile

Used ATM layer link refAtmLayerLink

SaalUni Object ID of SaalUni SaalUni


PVC No. pvcNo

VPI vpi

VCI vci

saalUniTrafficProfile

Used ATM Layer Link refAtmLayerLink

ALCAP ALCAP ID Alcap


ATM flow attribute configuration

AAL5 flow attribute configuration

Used SaalUni link refSaalUni

BTS Cascade Object ID of BTS cascade BtsCascade


BTS cascade type cascadeType

BTS cascade number btsCascadeNo

Used E1/T1/FE inlet ref1PhyLayerPort

Inlet time slot bit mapping ingressTimeSlotBitMap

Used E1/T1/FE outlet ref2PhyLayerPort

Outlet time slot bit mapping egressTimeSlotBitMap

Ingress VPI ingressVpi

Ingress VCI ingressVci

Used ingress ATM link ref1AtmLayerLink

Egress VPI egressVpi

Egress VCI egressVci

Used egress ATM link ref2AtmLayerLink

trafficProfile

Destination NodeB ID destinationNodeBId

LACP aggregation uplink port ref1LacpGroup

LACP aggregation downlink port ref2LacpGroup

HDLC Channel Object ID of HDLC channel Hdlc


HDLC link No. hdlcNo

Time slot bit mapping timeSlotBitMap


PPP Link PPP ID PppLink


PPP link No. pppLinkNo

Base station IP localIp

PPP encapsulation type protocolType

Sequence format of MP header mpCode

MP priority mpClass

Keep Alive Time keepAliveTime

Support IP compression or not ipCompress

Used for FE cascading or not isUsedToFECascade

Maximum MP slicing length maxFragmentSize

Used HDLC channel refHdlc

LACP aggregation port Object ID of LACP aggregation port LacpPort

MO description description

ATM flow attribute configuration

LACP aggregation port number lacpPortNo

Working mode of aggregation port workMode

Timeout type of aggregation port timeOutType

Aggregation port priority portPriority


LACP aggregation group Object ID of LACP aggregation group LacpGroup


LACP aggregation group number lacpGroupNo

Load sharing mode aggLoadBalance

Aggregation group working mode workMode

Used LACP port refLacpPort

Ethernet Link Layer Object ID of Ethernet link EthernetLink


Ethernet link No. ethernetLinkNo

MTU mtu

VLAN ID vlanMembership


LACP aggregation group refLacpGroup

Object ID of Ethernet fault detection configuration EthernetOam


EthernetOam role ethernetOamRole

OAM session timeout period ethernetOamTimeOut

Packet sending interval pduTransPeriod

eventInfo


DHCP Relay Object DHCP Relay ID DhcpRelay


DHCP Relay No. dhcpRelayNo

Ethernet Fault Detection Configuration

Information of event type

Used IP Layer Configuration refIpLayerConfig

Enable DHCP relay function enableDhcpRelay

DHCP server address dhcpServerIp

Bandwidth Resource Group Object ID of bandwidth resource group BandwidthResourceGroup


Bandwidth resource group number groupNo

Used Ethernet link refEthernetLink

Maximum bandwidth of egress egressMBR

Bandwidth Resource Object ID of bandwidth resource BandwidthResource


Bandwidth resource number resourceNo

Transmission bandwidth weight weight

Bandwidth QOS Queue Bandwidth QOS Queue object ID BandwidthQos


Qos queue No qosNo

DSCP dscp

IP Layer Configuration IP Layer Configured Object ID IpLayerConfig


IP parameter link number ipNo

Used PPP link refPppLink


VLAN ID vid

IP address ipAddr

Gateway IP gatewayIp

Network mask networkMask

Prefix lengthprefixLength

Domain ipField

X2 self-setup enabled x2SelfSetup

X2 self-setup configuration x2SelfSetupConfig

DSCP to COS mapping DSCP to COS mapping ID DscpCosMap


Used IP layer configuration refIpLayerConfig

DSCP dscp

COS cos

Service and DSCP mapping Service and DSCP mapping ID ServiceMap



Used bandwidth resource refBandwidthResource

fddServiceDscpMap

tddServiceDscpMap

Operator refOperator

Static Routing Configuration Object ID of static routing configuration StaticRoute


Static routing number staticRouteNo

LTE FDD service and DSCP mapping

LTE TDD service and DSCP mapping

Destination IP address ipAddress

Next hop IP address nextHopIpAddr

Network mask networkMask

Prefix length prefixLength

Routing distance routeDistance

Routing priority routePriority


VLAN ID vid

Routing Detection Object Object ID of routing detection RouteDetect


Routing detection object No. routeDetectNo

Destination address destinationIp

Detection mode detectMode

Detection period detectPeriod

Timeout period timeoutPeriod

Maximum lost packet maxLostPacket


IKE Policy Object Object ID of IKE policy IKEPolicy


IKE policy number policyNo

IKE policy priority ikePriority

IKE version ikeVersion

Encryption algorithm in IKE negotiation encryptionAlgorithm

Hash algorithm hashAlgorithm

Random function algorithm randomFunctionAlgorithm

DH group dhGroup

IKE SA lifetime ikeLife

IPSec Proposal Object Object ID of IPSec proposal IPSecTransformSet


IPSec proposal number transformSetNo

IPSec mode ipsecMode

ESP authentication algorithm espAuthAlgorithm

ESP encryption algorithm espEncryptionAlgorithm

Object ID of IPSec security Policy Database IPSecSpd


IPSec security policy group No. spGroupNo

spConfig

XAUTH Configuration Object Object ID of XAUTH configuration XauthConfig


User name userName

Password passWord

Object ID of IPSec global configuration IPSecGLConfig


NAT supported supportNat

Transmission interval of NAT keep-alive message keepAliveInterval

IPSec Configuration Object Object ID of IPSec configuration IPSecConfig


IPSec configuration number ipsecNo


IPSec security policy configuration

IPSec Global Configuration Object

Authentication method in IKE negotiation authenticationMethod

Negotiation entity ID type idType

IKE version ikeVersion

Remote IP address remoteAddr

PFS value pfs

IPSec policy generation method policyGenerationLevel

SA byte lifetime byteLife

SA lifetime timeLife

Pre-shared key preShareKey

DPD function switch dpdSwitch

Fully Qualified Domain Name fqdn

Used XAUTH configuration refXauthConfig


Used IPSec proposal refIPSecTransformSet

Used IPSec Security Policy Database Object refIPSecSpd

Used IPSec Global Configuration Object refIPSecGLConfig

Access Control Rule Object Access control rule object ID AccessControlList


Access control rule number aclNo

Local IP address localAddress

Local network mask localNetMask

Remote IP address remoteAddress

Remote network mask remoteNetMask

Local port upper limit minLocalPort

Local port lower limit maxLocalPort

Remote port upper limit minRemotePort

Remote port lower limit maxRemotePort

Filter protocol No. ruleProtocol

Filtering direction ruleDirection

Filtering action ruleAction

Certificate revocation list configuration ID CrlConfigCertificate Revocation List Configuration

CRL verification function enabled enableCrl

TLS supported supportTls

Networking type networkType

LDAP server IP address ldapServerIp

Default CDP defaultCdp


Object ID of certificate management protocol CmpConfig


Transmission protocol type transportProtocol


CA server type caServerType

IP address of CA server caServerIp

CA server path caServerPath

Domain name of base station certificate certificateName

Domain name of base station certificate's issuer certificateIssuerName

Extended option of base station certificate certificateExtension

Transport layer port of CA server caServerPort

Private key length of base station certificate privateKeyLength

Control content of certificate application message controlValue

SCTP Object ID of SCTP Sctp


SCTP link No. sctpNo

Local port No. localPort


Used Bandwidth Resource refBandwidthResource

Remote port No. remotePort


Remote address remoteAddr

Primary path number primaryPathNo

Number of in-and-out Streams inOutStreamNum

DSCP dscp

Maximum retransmission times for establishing link maxInitRetran

Maximum retransmission times of path maxPathRetran

Maximum retransmission times of association maxAssoRetran

Minimum data retransmission interval minRTO

Maximum data retransmission interval maxRTO

Heartbeat interval hbInterval


Maintenance Domain Object ID of MD EthernetCfmMd


MD No. mdNo

MD index ID mdIndex

Used physical port refPhyLayerPort

MD level mdLevel

MD name mdName

Maintenance Association Object ID of MA EthernetCfmMa


MA No. maNo

MA index ID maIndex


VLAN ID vid

MA name maName

CCM detection duration ccmPeriod

Maintenance Point Object ID of MP EthernetCfmMp


MP No. mpNo

MP index ID mpIndex

MEP full network No. mepFullNetNo

MEP type mepType

localMEPConfig

remoteMEPConfig

Enable CCM detection enableCCMDetect

UDP Object ID of UDP Udp



Object ID of bidirectional forwarding detection Bfd


Bidirectional forwarding detection link No. bfdNo

Remote IP address destinationIp

DSCP dscp

Local MEP detailed configuration

Remote MEP detailed configuration

Bidirectional Forwarding Detection

Whether multi-hop detection multiHop

Minimum interval of transmitting packets desiredMinTxInterval

Minimum interval of receiving packets requiredMinRxInterval

Detect time multiplier detectAccumulator

Used UDP bearer refUdp

bfdAuthority

1588 clock global parameterObject ID of 1588 clock global parameters Global1588Config


1588 clock device type clockType

1588 link selecting mode linkSelectMode

Message transmission path deliverPacketWay

IP Clock Parameters Object ID of IP clock parameters IpClockProfile


BFD authentication parameters

Link priority linkPriority

PTP network protocol networkProtocol

IP clock transmission mode transType

Synchronization server IP address syncServerAddr

DSCP dscp

PTP port mode ptpMode

Enable link setup by negotiation enableNegotiation

IPv6 multicast type ipv6MultiCastType


VLAN ID vid

UDP used by 1588 clock refUdp

Used bandwidth resource refBandwidthResource

KPI Measurement Object ID of KPI measurement IpKpi


KPI measurement number ipKpiNo

Local IP address localIp

Remote IP address remoteIp

VLAN ID vlanId

DSCP dscp

OMC Channel Object ID of OMC channel ItfUniBts


OMC interface link No. itfUniBtsNo

Interface type of operation and maintenance itfUniBtsType

Base station inner IP innerIp

OMC gateway IP gatewayIp

OMC server IP omcServerIp

OMC subnet mask omcNetworkMask

DSCP dscp

IPOA address ipoaAddr

OMC Prefix Length omcServerIpPrefixLenth


Used SaalUni refSaalUni

Used Bandwidth Resource refBandwidthResource

Operator Object ID of operator Operator


Operator name operatorName

Operator information userLabel

PLMN Object ID of PLMN Plmn


MCC mcc

MNC mnc

System Parameter Object ID of system parameter SystemFuctions


Base station reset time of self-recovery selfProtectTime

Enable bypass or not enableBypass

Enable SLA or not enableSla

Forbid FTP or not forbidFtp

Forbid TELNET or not forbidTelnet

Power Saving Parameter Object ID of power saving parameter PowerSaving


RRU channel power saving switch rruChannelPSSwitch

Start time of RRU channel power saving rruPSStartTime

End time of RRU channel power saving rruPSEndTime

PA static voltage adjustment switch paPSSwitch

RSSI report period rssiReportPeriod

Antenna Service Object ID of antenna service AntService


Antenna calibration period calibrationPeriod

Antenna calibration start time calibrationStartTime

calChnlAmpDiffThreshold

calProcAmpDiffThreshold

calProcAngleDiffThreshold

SON Function Switch Object Object ID of SON function switch SonSwitch


hwSelfDetecting

siteSelfOpening

transportSelfSetup

configFallback

OSPF Instance Object ID of OSPF instance OspfInstance


Router ID routerId

SPF calculation time interval timerSpf

Compatible with RFC1583 rule or not enableRfc1583

OSPF Area Area sequence number OspfArea


OSPF area ID areaId

OSPF stub settings Object ID of OSPF stub settings OspfStub

Amplitude difference threshold of antenna calibration channel

Amplitude difference threshold of antenna calibration process

Angle difference threshold of antenna calibration process

Configuration for hardware auto-discovery switch

Configuration for auto-commissioning switch

Configuration for auto-setup transmission switch

Configuration for data rollback switch


OSPF Interface Sequence number of OSPF interface OspfInterface


OSPF interface number interfaceNo

Cost cost

Interval for sending Hello helloInterval

Dead time deadInterval

Interface priority priority


DOT1X Object ID of DOT1X parameter Dot1x


Waiting Authentication Duration authWhile

Waiting Time for Remote EAP Packet startWhen

Suspend Duration heldWhile

Maximum times of authentication request maxStartTimes

Authentication user name userIdentity

Authentication password userPassword


VLAN ID vid

Parameter Format Range and Step Default Value

string BS8700

unsigned long N/A 1

string [0..128] N/A

string [0..128] N/A

string UniRan V12.3(U V4.12.10)

string [0..128] Unknow state

long [-180…180] step 0.000001 0

long [-90…90] step 0.000001 0

string [0..48] N/A

string [0..48] N/A

unsigned long [1..1] 1

string Created automatically by system N/A

string [0..128] N/A

long Non-stack

unsigned long [1..200] N/A


long [1..200] N/A

StructProductData N/A N/A

string [0..128] N/A



long [1..25] N/A

BS8700BS8800 GU360BS8800 U120BS8800 U120ABS8800 U240BS8900 GU360BS8900 U240BS8900 Z01S18BS8900ABS8900BBS8906

UniRan V12.3(U V4.12.10)

Non-stack, Master-slave frame stack

long N/A

string [0..128] N/A



StructProductData N/A N/A

sequence<long,8> N/A

unsigned long N/A 0

unsigned long Invalid

unsigned long No

long [0..8000] step 1 N/A

long [1..4] 4



long [0..1] 0



long Phase synchronization

BBU-2U, RRU, RSU, Cooling, BBU-3U, Integration

ALL, UMTS, GSM, TD-SCDMA, CDMA, LTE FDD, LTE TDD

S0 board,FS3 board,FS4 board,FS5 board,FS5A board,FS5B board,FS5C board,FS3A board,Invalid

No, Yes

Frequency synchronization, Phase synchronization

long Switching by priority

long Do not support cascade

long N



long GNSS clock category

long

long [1..8] 1

long [-1000000000..1000000000] step 1 0

long Yes

long Yes

long [0..8000] 0

long Survey In

long [-180…180] 0

No switching, Switching by priority, Switching by status

Do not support cascade,GNSS Cascading output,1PPS+TOD channel 1 output,1PPS+TOD channel 2 output

Y,N

GNSS clock category, 1PPS+TOD clock category, 1588 clock category,Line clock category

GNSS clock category:[Inner GNSS], 1PPS+TOD clock category:[1PPS+TOD, Cascading GNSS,Backplane 1PPS+TOD], Line clock category:[BITS-2MHz clock, BITS-2Mbps clock, Line clock-local board, SyncE clock], 1588 clock category:[SyncE+1588 clock,1588]

GNSS clock category: [Inner GNSS]1PPS+TOD clock category: [1PPS+TOD]Line clock category: [BITS-2MHz clock]1588 clock category: [SyncE+1588 clock]Network Listenning: [Network Listenning]

Yes, No

Yes, No

(Null),Survey In, Fixed Mode

long [-90…90] 0

long [0..10000] 0

long [1..4] 4

long [0..15] 0

long 9600



string N/A 0.0.0.0



long [1..24] 24

string N/A 0.0.0.0

long GMT + 8: 00

long No

string [0..20] N/A

string [0..20] N/A

(Null),115200, 57600, 38400, 19200, 9600, 4800, 2400

GMT - 12:00, GMT - 11:00, GMT - 10:00, GMT - 9:00, GMT - 8:00, GMT - 7:00, GMT - 6:00, GMT - 5:00, GMT - 4:30, GMT - 4:00, GMT - 3:30, GMT - 3:00, GMT - 2:00, GMT - 1:00, GMT - 0:00, GMT + 1:00,

Yes, No

long Yes

long [1..42] 4



long Normal diversity receiving

long Linear polarization



long N/A N/A



long N/A N/A

sequence<long,8>

long 1, 2, 3, Invalid Invalid

No, Yes

Normal diversity reception, Cross diversity reception

Linear polarization,Circular polarization

Rx(351MHz-356MHz)Tx(361MHz-366MHz), Rx(410MHz-420MHz)Tx(420MHz-430MHz), Rx(450MHz-460MHz)Tx(470MHz-480MHz), Rx(698MHz-716MHz)Tx(728MHz-746MHz), Rx(777MHz-798MHz)Tx(746MHz-768MHz), Rx(832MHz-862MHz)Tx(791MHz-821MHz), Rx(806MHz-824MHz)Tx(851MHz-869MHz), Rx(894MHz-896MHz)Tx(849MHz-851MHz), Rx(820MHz-849MHz)Tx(865MHz-894MHz), Rx(880MHz-915MHz)Tx(925MHz-960MHz), Rx(1710MHz-1770MHz)Tx(2110MHz-2170MHz), Rx(1710MHz-1785MHz)Tx(1805MHz-1880MHz), Rx(1850MHz-1915MHz)Tx(1930MHz-1995MHz), Rx(1920MHz-1980MHz)Tx(2110MHz-2170MHz), Rx(2500MHz-2570MHz)Tx(2620MHz-2690MHz), Rx(450MHz-460MHz)Tx(460MHz-470MHz), Rx(704MHz-716MHz)Tx(734MHz-746MHz), Rx(824MHz-849MHz)Tx(869MHz-894MHz), Rx(1447.9MHz-1462.9MHz)Tx(1495.9MHz-1510.9MHz),

Rx(351MHz-356MHz)Tx(361MHz-366MHz)


long Invalid

long Close



sequence<long,8>

sequence<long,8> N/A 0

long No



UMTS, GSM, TD-SCDMA, CDMA, LTE FDD, LTE TDD

4G+1U, 2G+2U, 4G+1L, 2G+1L, 4G+2U, 1C+1L, 2C+1L, 4C+1L, TDS+TDL,Invalid

Close, Open



Yes, No

sequence<long,8>

sequence<long,8> N/A 0



string [1..32] N/A

long N/A

string [0..128] N/A

long 1.1

long [1..4], Invalid N/A

string [0..32] N/A

long [0..12] 0

long [0..12] 0

LDN N/A N/A

LDN N/A N/A




RETC, MULTI_RET, ATMA, NOTCH_FILTERMULTI_TMA, ACOM, AETMA, NSNRET, LGPTMA

1:1.1{1.1, 2:2.0{2.0


long Load-sharing mode Load-sharing mode

long single up-link optical line



long [0..5] 0

long N

long

long

sequence<long,8> ALL



long [0..1] N/A



long [0..7] N/A



long [0..7] N/A



long No

long

long No

long Electrical port

single up-link optical line, double master&slave optical lines, multiple load-sharing optical lines

N, Y

2.5G, 3G, 4G, 6G, 10G

Is RU Board=N: [2.5G],Is RU Board=Y: [2.5G]

Is RU Board=N:[PHY CPRI{PHY CPRI, PHY LTE IR, PHY OBSAI, PHY OBRI, PHY GBRS, PHY TD-SCDMAIR], Is RU Board=Y:[APP ZTE, APP LTE IR, APP TD-SCDMAIR, APP OBRI]

Is RU Board=N: PHY CPRIIs RU Board=Y: APP ZTE

ALL，UMTS，GSM，TD-SCDMA，CDMA，LTE FDD，LTE-TDD

Yes, No

Provided by uplink interface line, Provided by main control board

Provided by uplink interface line

Yes, No

Electrical port, Optical port

long Electrical port preferred

long No

sequence<long,64> [0..3]



long N/A

long Yes

long Cascading port

long

long Yes

long [560..1000000] 1000

long No

long [70..250000] 250000

sequence<long,10> [1..10] N/A

Electrical port preferred, Optical port preferred, Forced electrical port, Forced optical port

Yes, No

0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3

Electrical port X1 of the panel, Electrical port X2 of the panel, Electrical port X3 of the panel, Electrical port UPLINK of the panel, Optical port X4 of the panel, Optical port UPLINK of the panel, SGMII port CC1 of the back board, SGMII port CC2 of the back board

Yes, No

Cascading port, Uplink interface

Electrical port X1 of the panel:[Self adaptive, 100Mbps full-duplex], Electrical port X2 of the panel:[Self adaptive, 100Mbps full-duplex], Electrical port X3 of the panel:[Self adaptive, 100Mbps full-duplex], Electrical port UPLINK of the panel:[Self adaptive, 100Mbps full-duplex], Optical port X4 of the panel:[100Mbps full-duplex, 1000Mbps full-duplex, 1000Mbps self adaptive], Optical port UPLINK of the panel:[100Mbps full-duplex, 1000Mbps full-duplex, 1000Mbps self adaptive], SGMII port CC1 of the back board:[Self adaptive], SGMII port CC2 of the back board:[Self adaptive]

Electrical port X1 of the panel: [Self adaptive], Electrical port X2 of the panel: [Self adaptive], Electrical port X3 of the panel: [Self adaptive], Electrical port UPLINK of the panel: [Self adaptive], Optical port X4 of the panel: [1000Mbps self adaptive], Optical port UPLINK of the panel: [1000Mbps self adaptive], SGMII port CC1 of the back board: [Self adaptive], Yes,

No

Yes, No

long Limit and count broadcast



long Master/slave mode

long No





string [0..128] N/A

long [0..3] 0

long Input dry contact

long N/A

string [0..127] N/A

long Alarm when closed

long No

long


Limit and count all frames, Limit and count broadcast/multicast and flooding frame, Limit and count broadcast and multicast, Limit and count broadcast

Master/slave mode, Load-sharing mode

Yes, No

Input dry contact, Output dry contact

Output low level, Output high level

Alarm when closed, Alarm when open

Yes, No

Not customized dry contact alarm: [Door control alarm, Flooding alarm, Smog alarm, Infrared alarm, Air conditioner fault, Lightning protection device alarm, PSU alarm, PSU fan alarm, Main power supply has a fault alarm, Battery alarm, AC power-cut alarm, Rectifier module alarm, Thermoelectric cooler alarm, Blocked dust proof net, Battery pack fan failed,Battery low-voltage alarm, Faulty external device connected at a dry contact, Outdoor lightning protection box alarm, Breaker alarm in indoor lightning protection box,

Not customized dry contact alarm: [Door control alarm]customized dry contact alarm:[Self Define Drycontact 1]




long Invalid

long N/A

long N/A N/A

long N/A N/A

long N/A N/A

long N/A N/A



long [1..20] N/A



long Close

unsigned long Invalid



long [0..5] step 1 0

[0..254], Invalid

Board temperature, Environment temperature, Base Station temperature, Level-1 VSWR threshold, Level-2 VSWR threshold, Humidity, Fan speed level, MP Voltage, PP Voltage, Temperature at air inlet, Temperature at air outlet, DC input voltage of PM board, Temperature of cabinet, RRU RF channel over temperature threshold, DC input voltage of PMAC board, AC input voltage of PMAC board,

Close, AISG RS485, NSBT RS485

140, 220, Invalid

unsigned long 250

long N/A

long [20..80], 100 80

long 100, [120..180] 100

long Open





long Transparent transmission

long ZXDU58 B900

LDN N/A N/A



long [1..96] 1

Voltage=140:[75..400], Voltage=220:[75..300], Voltage=Invalid:Invalid

currentDetect, pulsewidthDetect

Close, Open

Transparent transmission, parsing mode

ZXDU58 B900，ZXDU58 B121，ZXDU68 B201，ZXDU150，ZXDU45，ZXDU75，ZXDU58 B121 (V4.5)，ZXDU68 B201 (V5.0)，ZXDU68 W301，ZXDU68 S301，ZXDU58 B121 (V2.2)/W121(V1.20)，ZXDU68 B201(V5.0R99M03)，

long N/A

long

long Invalid

long [10..30] 20

long [0..100] 0

long [0..100] 0



long [0..255] 0

long [0..255] 2

long [0..255] 8

long [0..65535] 75

long [1..8] 1

string [1..40] General Model



long [1..65535] 1

LDN N/A N/A

long Urban

long Non RET

long [0..359.5] step 0.5 0

TMA,A-TMA,A-COM,ETMA,A-ETMA

TMA:[70..150], A-TMA:[44..100], A-COM:[0..14], ETMA:[200..320], A-ETMA:[92..100], Invalid

TMA: [120],A-TMA: [48],A-COM: [10],ETMA: [240],A-ETMA: [96]

[70..170], Invalid

Indoor, Urban, DenseUrban, SubUrban, HighWay, HighRail

Non RET, Uni-antenna RET, Uni-direction TMA, Contijuous power antenna system, Bi-direction TMA, LNA, Multi-antenna RET

long valid

long North Latitude

long [-90…90] step 0.000001 0

long [-180…180] step 0.000001 0

long Depth

long [0..65535] 0

long [0..65535] 0

long [0..1000] 0string [0..64] N/A

string [0..128] N/A

long [0..360] step 1 0

long [0..360] step 1 0

long [0..360] step 1 0

long [0..360] step 1 0

string [0..80] 0

long [0..360] step 1 0

long [0..360] step 1 0

long [0..360] 0

long [0..180] 0

string [0..255] 0

string [0..255] 0

string [0..32] N/A

sequence<long,8> N/A N/A

unsigned long [1..4294967295] 2


long [1..8] 1

sequence<LDN,8> N/A N/A

LDN N/A N/A



long [0..8] step 0.1 0

long [0..8] step 0.1 N/A

long [0..1000] 0

long [0..1000] 0

LDN N/A N/A

LDN N/A N/A

valid, invalid

North latitude, South latitude

Depth, Height

LDN N/A N/A



long [0..8] step 0.1 0

long [0..8] step 0.1 N/A

long [0..1000] 0

long [0..1000] 0

LDN N/A N/A

LDN N/A N/A



LDN N/A N/A

LDN N/A N/A


string Created automatically by system TransportNetwork=1




long Ethernet

long RNC/BSC/CN/MME

LDN N/A N/A

LDN N/A N/A

E1,T1,STM-1,Ethernet,Relay port,LIPA port

RNC/BSC/CN/MME, SDR, Third-party

LDN N/A N/A

LDN N/A N/A

StructEthernetConfig N/A N/A

longAbis port

N/A

long N/A

long N/A




long IMA

long Yes

long [0..3] 0

long 128 cell

long ITC



Electrical port self-adaptive,Electrical port 10Mbps FDT,Electrical port 100Mbps FDT,Optical port 100Mbps FDT,Optical port 1000Mbps FDT,Optical port 1000Mbps self-adaptive,Optical port 10000Mbps FDT

Master port priority,Backup port priority,Automatic priority

IMA, TC

Yes, No

(Null),32 cell, 64 cell, 128 cell, 256 cell

ITC, CTC

0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1




unsigned long [1..50] step 1 1

unsigned long [1..0xFFFFFFFF] 1

long [0..255] 0

long [8..65535] 8

StructAtmTrafficProfile N/A

LDN N/A N/A



unsigned long 64490, [64500..64516] 64500

long [0..255] 0

long [8..255] 8

StructAal5TrafficProfile N/A

LDN N/A N/A



2048,2048,2048,2048,2048,2048,0

128,128,128,128,128,128,0

LDN N/A N/A



long TSI

long 0

LDN Invalid


LDN Invalid


long [0..255] 0

long [8..65535] 8

LDN N/A N/A

long [0..255] 0

long [8..65535] 8

LDN N/A N/A

TSI, ATM routing,FE cascade,LACP cascade

TSI: [0..100],ATM Routing: [65000..65059],FE cascade:[0…8]LACP cascade:[0…3]

Invalid,phyLayerPortNo=0

0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1

Invalid,phyLayerPortNo=0

0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1

StructAtmTrafficProfile N/A

long [0..65535] 0

LDN N/A N/A

LDN N/A N/A



long [0..16] 0


LDN N/A N/A



long [0..15] 0

string N/A 0.0.0.0

long ML-PPP

long Invalid

long Invalid

long [500..5000] 1000

long No

long No

long [64..512] 128




2048,2048,2048,2048,2048,2048,0

0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1

PPP, ML-PPP

Long sequence, Short sequence, Invalid

Long sequence:[1..8], Short sequence:[1..4], Invalid

Yes, No

Yes, No


unsigned long Active

unsigned long Short type


LDN N/A N/A




unsigned long Not supported

unsigned long Static mode





long [256..1800] 1500

sequence<long,30> [1..4094] N/A

LDN N/A N/A

LDN N/A N/A



long Passive

long [5..10] 5

long [1..10] 10

N/A N/A

LDN N/A N/A




Active, Passive

Short type, Long type

Not supported, Source MAC and destination MAC, Source IP and destination IP, TCP/UDP source port and destination port

Static mode, Dynamic mode, Mixed mode

Passive, Active

sequence<StructOamEventInfo,4>

LDN N/A N/A

long No

string N/A 0.0.0.0



long [0..15] 0

LDN N/A N/A

long [0..100000] 100000



long [1..7] N/A

long [0..100] 100



long [1..6] 1

sequence<long,8> [0..63] 0




LDN N/A N/A

LDN N/A N/A

long [1..4094] N/A

string N/A N/A

string N/A 0.0.0.0

Yes, No

string N/A 255.255.255.0

long [1..128] 16

long 0, 1, 2, 3, Invalid Invalid

long N/A


long [1..1984] N/A


LDN N/A N/A

long [0..63] step 1 46

long [0..7] step 1 5

long [1..32] N/A


LDN N/A N/A

LDN N/A N/A

StructLteServiceDscp N/A N/A

StructLteTddServiceDscp N/A N/A


long [1..100] N/A


long [0..99] 0

No, Yes

FDD X2 CP,TDD X2 CP,FDD X2 UP,TDD X2 UP,Relay SCTP

string N/A 0.0.0.0

string N/A 0.0.0.0

string N/A 255.255.255.0

long [1..128] 16

long [1..254] 254

long [0..7] 0

LDN N/A N/A

long [1..4094] N/A



long [1..100] 1

string N/A 0.0.0.0

long ICMP

long [5..20] 5

long [5..20] 5

long [3..5] 3

LDN N/A N/A




long [0..127] 0

ICMP, ARP

long IKEV1

long DES

long SHA1

long MD5

long MODP768

unsigned long [1..0xffffffff] 1800




long Tunnel

long MD5

long ESP AES-128




sequence<StructSp,48> N/A N/A

long [1..48] N/A

string N/A N/A

string [0..63] N/A

string [0..63] N/A



unsigned long No





IKEV1, IKEV2

DES, 3DES, AES-128

MD5, SHA1

MD5, SHA1

MODP768, MODP1024

Transport, Tunnel

MD5, SHA1

ESP AES-128, 3DES

Yes, No

long

unsigned long IPv4 address

long IKEV1

string N/A 0.0.0.0

long Disable PFS

long Unique

unsigned long [2560..536870912] 4608000

unsigned long [120..86400] 56000

string [0..29] N/A

long Open

string [0..63] N/A

LDN N/A N/A

LDN N/A N/A


LDN N/A N/A

LDN N/A N/A




string N/A 0.0.0.0

string N/A 255.255.255.0

Pre-shared key authentication, X.509 certificate authentication

X.509 certificate authentication

Pre-shared key authentication:[IPv4 address, FQDN]X.509 certificate authentication:[FQDN]

IKEV1,IKEV2

Disable PFS, MODP768, MODP1024

Use, Require, Unique

Close, Open

string N/A 0.0.0.0

string N/A 255.255.255.0

long [0..65535] 0

long [0..65535] 65535

long [0..65535] 0

long [0..65535] 65535

long All

long IP bi-direction

long Pass


ICMP, TCP, UDP, SCTP, All

IP transmission direction, IP receiving direction, IP bi-direction

Pass, Discard

unsigned long No

unsigned long No

unsigned long Independent networking

string N/A N/A

string [0..255] N/A

LDN N/A N/A



long HTTP

LDN N/A N/A

long RCM

string N/A 0.0.0.0

string [1..63] cmp

string [1..255]

string [1..255]

string [0..255] N/A

long [1..65535] 80

long [1024, 2048] 1024

string [0..36] N/A



long [0..47] 0

long [0..65535] 0


LDN N/A N/A

long [0..65535] 0

Yes, No

Yes, No

IPINIP, Independent networking

HTTP, HTTPS

EJBCA,RCM

C=CN,O=ZTE,CN=Nodeb01

C=CN,O=ZTE,CN=ZTE Root CA

sequence<string,4> N/A 0.0.0.0

long [0..3] 0

long [2..6] 2

long [0..63] 46

long [1..10] 5

long [1..32] 5

long [1..64] 10

long [100..10000] 500

long [100..60000] 5000

long [100..60000] 5000




long [0..7] 0

long [1..8] 1

LDN N/A N/A

long [0..7] 0

string [1..43] mdName



long [0..31] 0

long [1..4] 1

UMTS，GSM，TD-SCDMA，CDMA，LTE FDD，LTE-TDD

LDN N/A N/A

long [1..4094] N/A

string [1..43] maName

long 100ms



long [0..255] 0

long [1..32] 1

long [1..8191] 1

long Local MEP

StructLocalMEPData N/A N/A

StructRemoteMEPData N/A N/A

long No


string UDP%,IpNo=%,##UdpId,refIpLayerConfig.ipNo N/A

LDN N/A N/A



long [1..10] 1

string N/A 0.0.0.0

long [0..63] 46

100ms, 1s, 10s, 1min, 10min

Local MEP, Remote MEP

Yes, No

long No



long [3..255] 5

LDN N/A N/A

StructBfdAuthority N/A N/A

unsigned long [1..1]N/A

string N/A N/A

longOrdinary clock

long Switch by packet loss rate

longtwo-way

unsigned long [1..32] step 1 N/A


Yes, No

Ordinary clock,Boundary clock

Switch by packet loss rate,Switch by BMC algorithm

one-way,two-way

long [1..32] 1

long IPV4

long

string N/A 0.0.0.0

long [0..63] 46

long Slave

long

unsigned long Link domain

LDN N/A N/A

long [1..4094] N/A

LDN N/A N/A

LDN N/A N/A




string N/A N/A

string N/A N/A





long [0..7] 0

long Independent networking

string N/A 0.0.0.0

IPV4, IPV6, Ethernet

Ethernet:[Multicast], IPV4:[Multicast, Unicast, Hybridcast], IPV6:[Multicast, Unicast, Hybridcast]

Ethernet: [Multicast], IPV4: [Unicast], IPV6: [Unicast]

Master, Slave

Yes, No

IPV4: [Yes]IPV6: [Yes]Ethernet: [No]

Interface domain, Link domain, Admin domain, Site domain, Organization domain, Global domain

IPINIP, IPOA, Independent networking

string N/A 0.0.0.0

string N/A 0.0.0.0

string N/A 255.255.255.255

long [0..63] 46

string N/A 0.0.0.0


LDN N/A N/A

LDN N/A N/A

LDN N/A N/A



string [1..127] N/A

string [0..128] N/A



string [3..3] N/A

string [2..3] N/A



long [15..65535] 120

long No

long No

long No

Yes, No

Yes, No

Yes, No

long No



long Close

string [0..20] 0:00

string [0..20] 0:00

long Close

long 10



long [30..1092] 60

long [0..1440] 0

long [10..80] 50

long [5..60] 50

long [0..360] 10



StructHwSelfDetecting N/A N/A

StructSiteSelfOpening N/A N/A

StructTransportSelfSetup N/A N/A

StructConfigRecover N/A N/A



string N/A 0.0.0.0


long Yes



string N/A 0.0.0.0


Yes, No

Close,Open

Close, Open

No reporting,5, 10, 20, 30, 60

No, Yes









LDN N/A 0







string [1..64] N/A

string [1..64] N/A

LDN N/A N/A

long [1..4094] N/A

Unit EMS Path

N/A Managed Element

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Equipment

N/A

N/A

N/A

N/A Managed Element/Equipment/Cabinet

N/A

N/A

N/A

N/A

N/A Managed Element/Equipment

N/A

N/A

N/A

N/A

N/A Managed Element/Equipment /BBU

N/A

N/A

N/A

N/A

N/A

N/A

m

N/A

N/A

N/A

N/A Managed Element/Equipment /BBU/CCC/Clock Device Set

N/A

N/A

Managed Element/Equipment /BBU/BPL/Baseband Device Set/Baseband Device

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

ns

N/A

N/A

m

N/A

degree

Managed Element/Equipment /BBU/CCC/Clock Device Set/Clock Device

degree

m

N/A

m

N/A

N/A Managed Element/Equipment /BBU/CCC/Time Device Set

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /BBU/CCC/Time Device Set/Time Device

N/A

N/A

N/A Managed Element/Equipment /RRU/RF Device Set

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /RRU/RF Device Set/RF Port Object

Managed Element/Equipment /RRU/RF Device Set/RF Port Object/PA

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /RRU/RF Device Set/RF Port Object/Tx Device

Managed Element/Equipment /RRU/RF Device Set/RF Port Object/Rx Device

N/A

N/A

N/A Managed Element/Equipment /RRU/AISG Device

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Equipment /BBU/BPL/Optical Port Device Set

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Equipment /BBU/CCC/GigaBitEthernet

N/A

N/A

N/A Managed Element/Equipment /BBU/SA/E1

N/A

N/A

N/A Managed Element/Equipment /BBU/SA/T1

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /BBU/BPL/Optical Port Device Set/Optical Port Device

Managed Element/Equipment /BBU/UES/Ethernet Switching Device Set

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

kbps

N/A

kbps

N/A

Managed Element/Equipment /BBU/UES/Ethernet Switching Device Set

N/A

N/A Managed Element/Equipment /BBU/PM/Power Device Set

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Equipment /RRU/Dry Contact Device

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /BBU/PM/Power Device Set/Power Device

Managed Element/Equipment /RRU/Environment Monitoring Device

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Equipment /BBU/SA/Fan Device

N/A

N/A

N/A Managed Element/Equipment /BBU/TIM/Power Outlet Set

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /RRU/Environment Monitoring Device

Managed Element/Equipment /BBU/TIM/Power Outlet Set/PowerOutlet

mA

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /BTS Auxiliary Peripheral Device

Managed Element/Equipment /BTS Auxiliary Peripheral Device/External device

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Antenna Service/TMA Device

N/A

N/A

N/A

N/A

ns

ns

N/A

N/A

N/A

N/A

dBi

mm

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Antenna Service/Antenna Attribute Object

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Antenna Service/Antenna Entity Object

N/A

N/A

degree

degree

N/A

m

cmmN/A

N/A

degree

degree

degree

degree

N/A

degree

degree

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

dB

dB

ns

ns

N/A

N/A

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Antenna Service/Ir Antenna Group Object

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Cable/RF Cable

N/A

N/A

N/A

dB

dB

ns

ns

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Transmission Network

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Cable/RF Extend Cable

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Cable/Fiber Cable

Managed Element/Transmission Network/Physical Hosting/Physical Layer Port

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/ATM Transport Network/ATM Layer Link

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/ATM Transport Network/AAL2

Managed Element/Transmission Network/ATM Transport Network/SaalUni

Managed Element/Transmission Network/ATM Transport Network/ALCAP

N/A

N/A Managed Element/Transmission Network/BTS Cascade

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

ms

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/IP Transport/HDLC Channel

Managed Element/Transmission Network/IP Transport/PPP Link

Managed Element/Transmission Network/IP Transport/LACP aggregation port

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Byte

N/A

N/A

N/A

N/A

N/A

N/A

s

100ms

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/IP Transport/LACP aggregation group

Managed Element/Transmission Network/IP Transport/Ethernet Link Layer

Managed Element/Transmission Network/Network Detection/Ethernet Fault Detection Configuration

Managed Element/Transmission Network/IP Transport/DHCP Relay Object

N/A

N/A

N/A

N/A

N/A

N/A

N/A

kbps

N/A

N/A

N/A

%

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Bandwidth Assignment/Bandwidth Resource Group

Managed Element/Transmission Network/Bandwidth Assignment/Bandwidth Resource Group/Bandwidth Resource

Managed Element/Transmission Network/Bandwidth Assignment/Bandwidth Resource Group/Bandwidth ResourceBandwidth QOS Queue

Managed Element/Transmission Network/IP Transport/IP Layer Configuration

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Transmission Network/Static Route

N/A

N/A

Managed Element/Transmission Network/IP Transport/DSCP to COS mapping

Managed Element/Transmission Network/Signalling and Business/Service and DSCP mapping

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

100ms

100ms

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Detection/Routing Detection Object

Managed Element/Transmission Network/Network Security/IKE Policy Object

N/A

N/A

N/A

N/A

N/A

s

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

s

N/A

N/A

N/A

Managed Element/Transmission Network/Network Security/IPSec Proposal Object

Managed Element/Transmission Network/Network Security/IPSec Security Policy Database Object

Managed Element/Transmission Network/Network Security/XAUTH Configuration Object

Managed Element/Transmission Network/Network Security/IPSec Global Configuration Object

Managed Element/Transmission Network/Network Security/IPSec Configuration Object

N/A

N/A

N/A

N/A

N/A

N/A

Kbyte

s

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Security/Access Control Rule Object

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Transmission Network/Network Security/Certificate Revocation List Configuration

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

bit

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Security/Certificate Management Protocol Configuration

Managed Element/Transmission Network/Signalling and Business/SCTP

N/A

N/A

N/A

N/A

N/A

N/A

N/A

ms

ms

ms

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Detection/Maintenance Domain

Managed Element/Transmission Network/Network Detection/Maintenance Association

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Detection/Maintenance Point

Managed Element/Transmission Network/Signalling and Business/UDP

Managed Element/Transmission Network/Network Detection/Bidirectional Forwarding Detection

N/A

ms

ms

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/IP Clock/1588 Clock Global Parameter

Managed Element/Transmission Network/IP Clock/IP Clock Parameters

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Transmission Network/OMC Channel

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Detection/KPI Measurement

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A Managed Element/Operator

N/A

N/A

N/A

N/A Managed Element/Operator/PLMN

N/A

N/A

N/A

N/A Managed Element/System Parameter

N/A

min

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

s

N/A

N/A

min

N/A

0.1dB

0.1dB

degree

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

sN/A

N/A

N/A

N/A

N/A

Managed Element/System Parameter/Power Saving Parameter

Managed Element/Equipment /BTS Auxiliary Peripheral Device/Antenna Service

Managed Element/System Parameter/SON Function Switch Object

Managed Element/Transmission Network/Network Detection/OSPF Instance

Managed Element/Transmission Network/Network Detection/OSPF Instance/OSPF Area

Managed Element/Transmission Network/Network Detection/OSPF Instance/OSPF Area/OSPF stub settings

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

s

s

s

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Detection/OSPF Instance/OSPF Area/OSPF Interface

Managed Element/Transmission Network/Network Security/DOT1X

Possible Means of Parameter Setting Modification When to Take Effect

Unmodifiable With immediate effect

With immediate effect



N/A With immediate effect




N/A N/A

N/A N/A




N/A



Unmodifiable N/A

Unmodifiable N/A





Use GUI to modify parameters. Then perform the delivering modified data operation so that the modified data become valid at base station.







The parameter will only be valid after the whole table is reset.






N/A N/A

N/A N/A

N/A N/A

N/A N/A








N/A N/A


Off-line modifications can be made through GUI. Synchronizing the modified tables to BTS is required to bring such modifications into effect.



N/A N/A

N/A N/A

N/A N/A



N/A N/A



N/A N/A

N/A N/A

N/A N/A









N/A N/A

N/A N/A


























N/A N/A









N/A N/A




N/A N/A


N/A N/A




Modifying this parameter is deleting and recreating the MO. With immediate effect







N/A N/A


N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A


N/A N/A


N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A



N/A N/A

























N/A N/A














It is required to perform the delivering modified data operation.


It is required to perform the delivering modified data operation.









N/A N/A





























N/A N/A












N/A N/A

N/A N/A










N/A N/A


N/A N/A











N/A N/A


N/A N/A










N/A N/A


N/A N/A

N/A N/A













N/A N/A



















N/A



Unmodifiable N/A




N/A N/A







N/A N/A














Modifying this parameter is deleting and recreating the MO. N/A










N/A N/A






















N/A N/A










N/A N/A

N/A N/A

N/A N/A

N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/A





N/A N/A









N/A N/A


N/A N/A


N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/A


N/A N/A



N/A N/A


N/A N/A


N/A N/A

N/A N/A

N/A N/A

N/A N/A













N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A




N/A N/A

N/A N/A

N/A N/A

N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/A









N/A N/A

N/A N/A

N/A N/A


N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A







N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A


N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A






N/A N/A



N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A


N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A


N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A



N/A N/A











N/A N/A


Unmodifiable With immediate effectN/A N/A

N/A N/A






N/A N/A




N/A N/A

N/A N/A

N/A N/A




N/A N/A

N/A N/A


Unmodifiable N/A

N/A N/A

N/A N/A

N/A N/A





N/A N/A














N/A N/A




N/A




N/A



N/A N/A

N/A N/A













N/A N/A

N/A N/A

N/A N/A

N/A N/A










N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A


N/A N/A









Impact on Service Related Parameters Reference Protocol

N/A N/A 3GPP TS32.622

N/A N/A N/A





N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

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N/A N/A N/A

N/A N/A N/A

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N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A clockType ITU g.8264

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A isSuppSummTime N/A

N/A isSuppSummTime N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A radioMode N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

Affect the transmitting frequency points established on local object cell.

N/A N/A N/A

N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

Affect the receiving frequency points established on local object cell.

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A isSyncEEnable IEEE 802.1d

N/A N/A IEEE 802.1d

N/A N/A N/A

N/A N/A N/A

N/A N/A

protocolType N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A 802.1Q

N/A N/A N/A

ITU-T I.363.2 B-ISDN ATM Adaptation

The service or network management information borne by the link will be interrupted.

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A dryType N/A

N/A dryType N/A

N/A dryType N/A

N/A dryType N/A

N/A dryType N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A

N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

Affect the power supply status of normal tower amplifier and AISG device. Also affect the coverage area of traffic signal.

Affect the power supply status of normal tower amplifier and AISG device. Also affect the coverage area of traffic signal.

N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A

N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A

Affect the supplied power current of tower amplifier. Also affect the transmission and receiving of service signals.

When the actual current is greater than 2*((working current*(this value/100))/1.2), the TAM board will shut down the power supply for this channel, and then the services are impacted.

Affect the supplied power current of tower amplifier. Also affect the transmission and receiving of service signals.

Affect the carrier configuration of site.

N/A N/A N/A

Affect the field strength RSSI. N/A N/A



Affect the range to search UE. N/A N/A


N/A N/A N/A

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N/A connectType N/A

N/A connectType N/A

N/A connectType N/A

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N/A connectType N/A

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N/A ITU-T G.704

N/A IEEE802.3




N/A IEEE802.3

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N/A IMA1.1

protocolType IMA1.1

N/A protocolType IMA1.1

protocolType IMA1.1

N/A protocolType

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protocolType N/A









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The service borne by the link will be interrupted.

ITU-T I.363.2 B-ISDN ATM Adaptation Layer specification: Type 2 AALITU-T Q.2630.3 AAL type 2 signalling protocol












N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A

cascadeType N/A

cascadeType N/A

cascadeType N/A

cascadeType N/A

cascadeType

cascadeType

cascadeType

cascadeType

cascadeType

cascadeType

cascadeType N/A


IMA1.1ITU-T I.363.2 B-ISDN ATM Adaptation

The service from the lower-level base station, which is borne by the link, will be interrupted.










AF-PHY-0086.000 AF-PHY-0086.001ITU-T I.363.2 B-ISDN ATM Adaptation








N/A cascadeType

N/A cascadeType N/A

N/A cascadeType N/A

N/A cascadeType N/A

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N/A ISO/IEC 13239:2002

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N/A protocolType

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N/A protocolType N/A

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protocolType

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RFC 1661 The Point-to-Point Protocol (PPP)



RFC 1990 The PPP Multilink Protocol (MP)


RFC 1990 The PPP Multilink Protocol (MP)

RFC 1332 The PPP Internet Protocol Control Protocol (IPCP)RFC 2686 The Multi-Class Extension to Multi-Link PPP(MCPPP)

RFC 2509 IP Header Compression over PPP(IPHC)




When there is another HDLC, the service borne by the link will be interrupted.


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N/A N/A N/A

N/A N/A 802.1Q

N/A N/A 802.1Q

N/A N/A 802.1Q

N/A 802.1Q

N/A N/A

N/A N/A N/A

N/A N/A IEEE 802.3ah



N/A N/A N/A

N/A N/A 802.1Q

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N/A N/A N/A



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N/A N/A N/A

N/A N/A RFC795

N/A N/A

N/A N/A RFC795

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N/A N/A N/A

N/A N/A RFC795

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N/A N/A N/A

N/A N/A RFC794:Internet Protocol

N/A 802.1Q

N/A 802.1Q

N/A RFC795:Internet Protocol



The service will be interrupted after the parameter is modified.






N/A RFC794: Internet Protocol


N/A refEthernetLink

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N/A N/A


The service will be interrupted after the parameter is modified.



RFC 2960:Stream Control Transmission Protocol

RFC 2474

802.1q



RFC 894: Standard for the transmission of IP datagrams over EthernetnetworksRFC 1812: Requirements for IP Version 4 Routers

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RFC 894:Standard for the transmission of IP datagrams over Ethernetnetworks.RFC 1812: Requirements for IP Version 4 Routers.



RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

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RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

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RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

RFC4301RFC4306

When the service is borne on the IP or IP section configured by the rule, if it does not meet the filtering rule, the service will be interrupted.


N/A N/A

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N/A N/A N/A










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N/A N/A 802.1ag

N/A N/A 802.1ag

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N/A N/A N/A




RFC2474RFC2475

When the network quality is low, the service cell corresponding to the association will be deleted.







N/A N/A N/A

N/A refEthernetLink 802.1ag

N/A N/A 802.1ag

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A 802.1ag

N/A N/A N/A

N/A N/A N/A

N/A mepType N/A

N/A mepType N/A

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RFC2474RFC2475

RFC5883RFC5881

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N/A N/A N/A

N/A N/A N/A

N/A N/A N/A

N/A N/A IEEE 1588

N/A N/A IEEE 1588

N/A N/A IEEE 1588

N/A N/A N/A

N/A N/A N/A

The attribute is compliant with the following draft released by BFD team in June, 2006:Jun 06, draft-ietf-bfd-base-05.txtJun 06, draft-ietf-bfd-generic-02.txtJun 06, draft-ietf-bfd-multihop-04.txtJun 06, draf-tietf-bfd-v4v6-1hop-05.txt



N/A N/A IEEE 1588

N/A N/A IEEE 1588

N/A N/A IEEE 1588

N/A N/A N/A

N/A N/A IEEE 1588

N/A N/A IEEE 1588

N/A N/A IEEE 1588

N/A N/A IEEE 1588

N/A 802.1Q

refEthernetLink RFC795:Internet Protocol

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N/A itfUniBtsType N/A





N/A itfUniBtsType

N/A itfUniBtsType





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RFC2474RFC2475

RFC1936 IP over ATM: A Framework Document

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N/A N/A N/A

N/A N/A N/A

N/A N/A IEEE Std 802.1X-2004




N/A N/A N/A

N/A N/A N/A

N/A 802.1Q

refEthernetLink RFC795:Internet Protocol



Parameter Explanation

Network element type, such as NodeB and BTS.

Unique identification of the NE. It is used to distinguish different NEs.

Network element name.

Geographical information of the network element.

Software version of network element.

Running status customized by the operator for special purposes.

Longitude of the network element. It is used to display the network topology.

Latitude of the network element. It is used to display the network topology.

Relative Distinguished Name (RDN).

User-oriented description of the object.

Customized information.



Unique identification of the cabinet. The master rack cabinet number is fixed to 1.

Cabinet type information.



Sub-rack number. It is unique within the rack.

The unique network element ID planned by the operator for base station. Can be empty if it is not planned.

The unique network element ID planned by the vendor for base station. Can be empty if it is not planned.

Single base station can use 2 BBU frames. The stack mode can extend the capacity and coverage of single site.In stack mode, 2 BBU frames are taken as one site for service, operation maintenance, transmission, and clock functions.In non-stack mode, only 1 BBU frame exists, and the frame number is 1.The configuration only takes effect when the base station is reset.

Cabinet position describes the position relation between the cabinet and other cabinets. It is auto-generated according to certain rules. Do not need to be customized by users.

Specify subrack type.




Product information of the board, including board name and board number.

Board Radio Mode

The function mode used by the board when in working status.

It is used to distinguish different physical boards of the same logical type.



The unit number is unique within a board.



Synchronization mode of site and clock reference source.

Indicate the power-supply level needed by the board. By default, the level is set to low priority. When load is shared, NE is allocated automatically according to the enhanced load sharing algorithm. In OMMB, it can be manually adjusted to high priority, and then both PM boards supply power for the board. If boards exceed half of the boards in the rack, do not set all the power-supply levels to high priority, otherwise board power configured may exceed the upper limit of total PM power.

Indicate the feeder length from the GNSS antenna to the receiver. This feeder is used to improve the clock precision. It should be set based on the on-site survey. It can only be set on at most three RRUs. Only R8964T S2600 need to be configured.

Indicate minimum number of satellites for satellite timing. It is also the parameter of satellite alarm threshold and the default value is 4. Only R8964T S2600 need to be configured.

Clock cascading output type on main control board.

Set to Yes if this clock is set to backup referenced clock by two BBUs.



The priority of the clock reference source. 1 indicates the highest priority.

External cable delay compensation value.It can be configured when the clock reference source type is 'SyncE+1588 clock'.

Multiple clock reference sources are configured on the main control board. It indicates the switching strategy between clock reference sources when one clock reference source is faulty.

Corresponding clock reference source categories need to be selected according to different scenarios.

Corresponding clock reference source types are selected according to different clock reference source categories.For GNSS category clock, inner GNSS clock is selected when accessing GPS on CC board SMA interface.External backplane GNSS clock is selected when the 5th slot of BBU-2U or 7th slot of BBU 3U accesses UCI or USR.External panel GNSS clock is selected when the 5th slot of BBU-2U or 7th slot of BBU 3U accesses USR, or when other AMC slot accesses UCI. The reference clock source is accessed with cables on the CC front panel HDMI interface.

Indicates whether the clock upload mode is Synchronization Status Message (SSM). SSM is the quality level for sending timing signals through the timing synchronization link in the synchronization network. The node clock in the synchronization network obtains the parent-node clock information by reading the SSM, and performs related operations on the clock of local node, such as tracing and changeover. Meanwhile the synchronization message of local node is sent to the subordinate node.It can be configured when the clock reference source type is 'SyncE+1588 clock' or 'SyncE clock'.

Indicate the feeder length from the GNSS antenna to the receiver. This feeder is used to improve the clock precision. It should be set based on the on-site survey.

Indicate the operating mode configuration of the GNSS receiver. "Fixed Mode" is recommended but "Survey In" is not recommended.

When the operating mode of the receiver is "Fixed Mode", set the longitude of the receiver antenna to help the receiver obtain the satellite clock.

Indicate the entered baud rate.



Use standby server to synchronize time when the active server is abnormal.



The base station performs time synchronization with the NTP with the period. Unit: hour.

The base station obtains time from the server by NTP protocol.

Indicates the time zone of the base station.

Configure whether to support daylight saving time.

Indicates the start time of daylight saving time. The cross-year range is allowed.

Indicates the end time of daylight saving time. The cross-year range is allowed.

When the operating mode of the receiver is "Fixed Mode", set the latitude of the receiver antenna to helps the receiver obtain the satellite clock.

When the operating mode of the receiver is "Fixed Mode", set the altitude of the receiver antenna to help the receiver obtain the satellite clock.

Indicate minimum number of satellites for satellite timing. It is also the parameter of satellite alarm threshold and the default value is 4.

Indicate the length of cable used for clock cascade. The cable length can improve the clock precision. It should be set based on the on-site survey.

Indicate whether to enable SNTP time synchronization function.

RDN


Specify antenna polarization mode.

Specify object ID of RF port.


Identification of the antenna entity.

Specify object ID of PA device.


Indicate the rated power of the power amplifier. It is also the maximum output power.

When the daylight saving time is enabled, it is used to configure its offset (time granularity is 15 minutes).

It is to configure the diversity receiving mode of RU. 'Cross diversity reception' indicates the signals received in two receiving channels are mutually main/diversity set. (Dual-transmitting RU are connected with and only with two receiving/transmitting antennas)

Indicate the working frequency bands supported by the power amplifier devices. For details about frequency band definition, see the protocol of each product.1.(Rx: 351MHz-356MHz, Tx: 361MHz-366MHz)(); 2.(Rx: 410MHz-420MHz, Tx: 420MHz-430MHz)(CDMA BC5); 3.(Rx: 450MHz-460MHz, Tx: 470MHz-480MHz)(); 4.(Rx: 698MHz-716MHz, Tx: 728MHz-746MHz)(UMTS Band XII, FDD 12); 5.(Rx: 777MHz-798MHz, Tx: 746MHz-768MHz)(UMTS Band XIII, UMTS Band XIV, FDD 13, FDD 14); 6.(Rx: 832MHz-862MHz, Tx: 791MHz-821MHz)(UMTS Band XX, FDD 20); 7.(Rx: 806MHz-824MHz, Tx: 851MHz-869MHz)(CDMA BC10); 8.(Rx: 894MHz-896MHz, Tx: 849MHz-851MHz)(CDMA ATG); 9.(Rx: 820MHz-849MHz, Tx: 865MHz-894MHz)(); 10.(Rx: 880MHz-915MHz, Tx: 925MHz-960MHz)(UMTS Band VIII, GSM EMHz-GSM, FDD 8); 11.(Rx: 1710MHz-1770MHz, Tx: 2110MHz-2170MHz)(UMTS Band I, CDMA BC6, FDD 1); 12.(Rx: 1710MHz-1785MHz, Tx: 1805MHz-1880MHz)(UMTS Band III, FDD 3 GSM DSC 1800); 13.(Rx: 1850MHz-1915MHz, Tx: 1930MHz-1995MHz)(); 14.(Rx: 1920MHz-1980MHz, Tx: 2110MHz-2170MHz)(); 15.(Rx: 2500MHz-2570MHz, Tx: 2620MHz-2690MHz)(UMTS Band VII, FDD 7); 16.(Rx: 450MHz-460MHz, Tx: 460MHz-470MHz)(CDMA BC 5); 17.(Rx: 704MHz-716MHz, Tx: 734MHz-746MHz)(); 18.(Rx: 824MHz-849MHz, Tx: 869MHz-894MHz)(UMTS Band V, FDD 6, GSM 850, CDMA BC 0); 19.(Rx: 1447.9MHz-1462.9MHz, Tx: 1495.9MHz-1510.9MHz)(UMTS Band XXI, FDD 21); 20.(Rx: 1710MHz-1755MHz, Tx: 2110MHz-2155MHz)(UMTS Band IV, FDD 4); 21.The sub-frequency band within the working frequency band supported by the PA device. It is a unique attribute of the GSM system. Only the RU of 900M and 1800M have sub-frequency bands.900M (Band VIII) includes the following sub-frequency bands:1. Working frequency band: uplink 890MHz to 915MHz, downlink 935MHz to 960MHz.2. Working frequency band: uplink 880MHz to 905MHz, downlink 925MHz to 950MHz.3. Working frequency band: uplink 888MHz to 906MHz, downlink 935MHz to 951MHz.1800M (Band III) includes the following sub-frequency bands:1. Working frequency band: uplink 1710MHz to 1765MHz, downlink 1805MHz to 1860MHz.2. Working frequency band: uplink 1730MHz to 1785MHz, downlink 1825MHz to 1880MHz.

Indicates the radio standard of the PA device service, such as GSM or UMTS.



Indicates whether to enable balance detection between main set and diversity.



The allocation method of PA resources in dual-mode. For example, 2G+2U indicates the PA supports 2 GSM carriers and 2 UMTS cells.

The switch of PA shutdown function for idle time slot. When the switch is enabled, in idle time slot without transmitted data, the PA power supply can be shut down to save energy.

Indicate the working frequency bands supported by the power amplifier devices. For details about frequency band definition, see the protocol of each product.1.(Rx: 351MHz-356MHz, Tx: 361MHz-366MHz)(); 2.(Rx: 410MHz-420MHz, Tx: 420MHz-430MHz)(CDMA BC5); 3.(Rx: 450MHz-460MHz, Tx: 470MHz-480MHz)(); 4.(Rx: 698MHz-716MHz, Tx: 728MHz-746MHz)(UMTS Band XII, FDD 12); 5.(Rx: 777MHz-798MHz, Tx: 746MHz-768MHz)(UMTS Band XIII, UMTS Band XIV, FDD 13, FDD 14); 6.(Rx: 832MHz-862MHz, Tx: 791MHz-821MHz)(UMTS Band XX, FDD 20); 7.(Rx: 806MHz-824MHz, Tx: 851MHz-869MHz)(CDMA BC10); 8.(Rx: 894MHz-896MHz, Tx: 849MHz-851MHz)(CDMA ATG); 9.(Rx: 820MHz-849MHz, Tx: 865MHz-894MHz)(); 10.(Rx: 880MHz-915MHz, Tx: 925MHz-960MHz)(UMTS Band VIII, GSM EMHz-GSM, FDD 8); 11.(Rx: 1710MHz-1770MHz, Tx: 2110MHz-2170MHz)(UMTS Band I, CDMA BC6, FDD 1); 12.(Rx: 1710MHz-1785MHz, Tx: 1805MHz-1880MHz)(UMTS Band III, FDD 3 GSM DSC 1800); 13.(Rx: 1850MHz-1915MHz, Tx: 1930MHz-1995MHz)(); 14.(Rx: 1920MHz-1980MHz, Tx: 2110MHz-2170MHz)(); 15.(Rx: 2500MHz-2570MHz, Tx: 2620MHz-2690MHz)(UMTS Band VII, FDD 7); 16.(Rx: 450MHz-460MHz, Tx: 460MHz-470MHz)(CDMA BC 5); 17.(Rx: 704MHz-716MHz, Tx: 734MHz-746MHz)(); 18.(Rx: 824MHz-849MHz, Tx: 869MHz-894MHz)(UMTS Band V, FDD 6, GSM 850, CDMA BC 0); 19.(Rx: 1447.9MHz-1462.9MHz, Tx: 1495.9MHz-1510.9MHz)(UMTS Band XXI, FDD 21); 20.(Rx: 1710MHz-1755MHz, Tx: 2110MHz-2155MHz)(UMTS Band IV, FDD 4); 21.The central transmission frequency point of TxChannel. It is unavailable for users. When it is set to 0, the calculation is executed automatically. In special cases when the parameter needs to be configured, contact the ZTE local branch.



Unique serial number for device.


Select the TMA controller unit to be connected.

The antenna connected with the RF cable.


Indicate the working frequency bands supported by the power amplifier devices. For details about frequency band definition, see the protocol of each product.1.(Rx: 351MHz-356MHz, Tx: 361MHz-366MHz)(); 2.(Rx: 410MHz-420MHz, Tx: 420MHz-430MHz)(CDMA BC5); 3.(Rx: 450MHz-460MHz, Tx: 470MHz-480MHz)(); 4.(Rx: 698MHz-716MHz, Tx: 728MHz-746MHz)(UMTS Band XII, FDD 12); 5.(Rx: 777MHz-798MHz, Tx: 746MHz-768MHz)(UMTS Band XIII, UMTS Band XIV, FDD 13, FDD 14); 6.(Rx: 832MHz-862MHz, Tx: 791MHz-821MHz)(UMTS Band XX, FDD 20); 7.(Rx: 806MHz-824MHz, Tx: 851MHz-869MHz)(CDMA BC10); 8.(Rx: 894MHz-896MHz, Tx: 849MHz-851MHz)(CDMA ATG); 9.(Rx: 820MHz-849MHz, Tx: 865MHz-894MHz)(); 10.(Rx: 880MHz-915MHz, Tx: 925MHz-960MHz)(UMTS Band VIII, GSM EMHz-GSM, FDD 8); 11.(Rx: 1710MHz-1770MHz, Tx: 2110MHz-2170MHz)(UMTS Band I, CDMA BC6, FDD 1); 12.(Rx: 1710MHz-1785MHz, Tx: 1805MHz-1880MHz)(UMTS Band III, FDD 3 GSM DSC 1800); 13.(Rx: 1850MHz-1915MHz, Tx: 1930MHz-1995MHz)(); 14.(Rx: 1920MHz-1980MHz, Tx: 2110MHz-2170MHz)(); 15.(Rx: 2500MHz-2570MHz, Tx: 2620MHz-2690MHz)(UMTS Band VII, FDD 7); 16.(Rx: 450MHz-460MHz, Tx: 460MHz-470MHz)(CDMA BC 5); 17.(Rx: 704MHz-716MHz, Tx: 734MHz-746MHz)(); 18.(Rx: 824MHz-849MHz, Tx: 869MHz-894MHz)(UMTS Band V, FDD 6, GSM 850, CDMA BC 0); 19.(Rx: 1447.9MHz-1462.9MHz, Tx: 1495.9MHz-1510.9MHz)(UMTS Band XXI, FDD 21); 20.(Rx: 1710MHz-1755MHz, Tx: 2110MHz-2155MHz)(UMTS Band IV, FDD 4); 21.(Rx: 1850MHz-1910MHz, Tx: 1930MHz-1990MHz)(UMTS Band II, FDD 2, GSM PCS The central receiving frequency point of RxChannel. It is unavailable for users. When it is set to 0, the calculation is executed automatically. In special cases when the parameter needs to be configured, contact the ZTE local branch.

The selected device type according to actual situation when the reported device type is scanned, or when the device type is actively configured by LMT/OMCB.

The entered vendor code according to actual situation when the reported device type is scanned, or when the device type is actively configured by LMT/OMCB.

The entered AISG version number according to actual situation when the reported device type is scanned, or when the device type is actively configured by LMT/OMCB.

The AISG1.1 and AISG2.0 Single RET devices are invalid. For other AISG2.0 devices, each sub-unit number corresponds to an AISG device that can be controlled independently.

The superior channel is used for SDTMA device of NSN private protocol. The value for other devices is 0.

The local channel is used for SDTMA device of NSN private protocol. The value for other devices is 0.


Uplink connection mode.



The physical port number.

The physical port is attached to RU board or not.

The physical port rate (matched with the optical module type and the SFP port type).

The protocol type used by the optical module.

Wireless radio mode.





The E1 port number.



The T1 port number.



Indicates whether to use SyncE to send clock to cascading device.

Configures the Phase Locked Loop (PLL) reference clock source.

Indicates whether to enable link aggregation function.

Indicates the media type for link aggregation: optical or electrical port.

The working mode of IQ switching. The boards with IQ switching function can only be configured to load sharing mode.

The physical port number 0,2,4,6indicates the Iub/Abis interface. 1 indicates the Debug port.

Indicates the media access type on the uplink interface.

Require two independent uplink interfaces when this function is enabled.

Indicate queue priority



Self Negotiation mode is the mode that is automatically adaptable to the other end.

Configure rate limitation switch, indicates whether to enable ingress rate limitation or not.

Limit of the ingress transmission rate.

Configure rate limitation switch, indicates whether to enable egress rate limitation or not.

Limit of the egress transmission rate.

Port configuration on the board. Different ports have different functions, including optical ports, electrical ports, and switching ports.

Indicate whether to enable the port. The parameter is invalid when the port is set to 'backboard SGMII interface CC1 interface' or 'backboard SGMII interface CC2 interface'.

The Uplink interface is connected to RNC/BSC/CN. The cascading port is connected to subordinate SDR.

Specifies the belonging VLAN group number for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7 (SGMII port CC2 port on the backplane) cannot be configured in the same VLAN group.

Configure the mode of ingress rate limitation.



Configure the working mode for the boards with power device functions.

Configure the control mode for power-down



RDN


Customized information by the user.

The switch of dry contact alarm. Valid when the dry contact type is input dry contact.

RDN

The dry contact port number on which dry contact alarms are configured. Supported by the SA, FCE series boards and radio frequency boards.

Indicates whether the current dry contact number is used for configuration of input dry contact or output dry contact.

The configuration status of output dry contact. Valid when the dry contact type is output dry contact.

Customized description of output dry contact. Valid when the dry contact type is output dry contact.

Indicates whether the dry contact alarm is customized. Valid when the dry contact type is input dry contact. The customized dry contact needs to be imported by the user.

Configure the content of dry contact alarms. You can customize dry contact to configure or select built-in dry contact alarms.


RDN


The RF port number on RU.

The type of environment monitoring.

Upper limit of environment monitoring.

Lower limit of environment monitoring.

The upper limit alarm recovery value of environment monitoring. Can be modified.

The lower limit alarm recovery value of environment monitoring. Can be modified.

RDN


Fan number.

RDN


The voltage of AISG and NSBT.

RDN


Power outlet port number.

Configure switch for AISG/NSBT and for RS485 to select the AISG or NSBT channel. The switch is not available for the TAM board.

Indicates the working current value of the port.

Configure the switch status of whether to enable current control.

RDN


Specify object ID of external device.


Specify the external device type.

Indicate the board (SA/SE/RU) for BBU to connect to the external device.

RDN


TMA number.

The alarm is reported when the current of the port is abnormal. Configure this parameter for the detection mode of output current

When the actual current value of the TAM board and RSU internal NSBT's power supply channel is lower than the value of (Working Current Value*local value/100), low current alarm is raised.

When the actual current value of the TAM board and RSU internal NSBT's power supply channel is higher than the value of (Working Current Value*local value/100), over current alarm is raised.

Indicate the mode for NE to process related data (such as alarm and configuration data) of embedded power and shelter devices. Transparent transmission indicates that the data is transmitted without being processed. Parsing mode indicates that the data is parsed by base station itself or uploaded to OMC to parse.

Downlink delay of the tower mounted amplifier (TMA).

Uplink delay of the tower mounted amplifier (TMA).

RDN


Name of the intelligent antenna vendor.

Antenna type

Intelligent antenna gain

Antenna interval (for line array) or radius (for circle array).

Specify number of antenna array units.

Type of the antenna.

RDN


Used antenna attribute.

Coverage scenario.

RET device type connected with the antenna entity.

A-TMA corresponds to the AISG tower mounted amplifier.A-COM corresponds to the AISG combiner.TMA corresponds to common tower mounted amplifier.ETMA corresponds to high-gain common tower mounted amplifiers.A-ETMA corresponds to the AISG tower mounted amplifier with high gain.

Uplink gain of the tower mounted amplifier (TMA).The unit for different TMA types: A-TMA: 0.25dB, A-COM: 0.5dB, TMA: 0.1dB, ETMA: 0.1dB, A-ETMA: 0.25dB.

Downlink gain of the tower mounted amplifier (TMA).Unit: 0.1dB.

TMA noise coefficient. Unit: 0.1dB.

The antenna orientation of circle array is the offset angle of the 0th antenna from the north direction. The antenna orientation of line array is the offset angle of the sector transmission direction from the north direction.

Indicates whether the geographical information is valid.

Valid when geographical information is valid.








The user identification.

The value of RET pitch angle.

The value of maximum pitch angle.

The value of minimum pitch angle.

Mechnical offset

RET group name

Maximum azimuth.

Minimum azimuth.

Indicate space diversity.

Indicate diversity type.

Pattern label

Cell list.

RDN


The Ir antenna group ID.

Used antenna.

The RRU to which local IR antenna group belongs.

Specify object ID of RF cable.


Downlink attenuation of the RF cable.

Downlink delay of the RF cable.

Uplink delay of the RF cable.

The antenna connected with the RF cable.

The tower mounted amplifier (TMA) connected with the RF cable.

Indicate beam width of 3dB antenna on the horizontal plane.

Indicate beam width of 3dB antenna on the vertical plane.

Uplink attenuation of the RF cable. When the RF cable is used to connect the remote unit to the tower mounted amplifier, the default value is 0.5dB. In other cases, the default value is 0dB.

The RF port connected with the RF cable. It is the radio frequency port of RU.

RDN


Downlink attenuation of the RF cable.

Uplink attenuation of the RF cable. The default value is 0dB.

Downlink delay of the RF cable.

Uplink delay of the RF cable.

Main RU.

Extended RU.

RDN


The upper level port for cable cascading connection.

The lower level port for cable cascading connection.

RDN


RDN


Configure the physical medium used by physical layer port.

Physical layer port number is used to uniquely identify the physical layer resource. Can customize it within its value range.

The opposite NE connection with the object. In base station cascading, it is set to SDE for upper level. If it is set to Third party device, in the case of ATM+FE cascading, local base station provides data transmission channel for third-party devices.

E1 bearer used by the port. It is used in ATM transmission mode or IP over PPP transmission mode.

T1 bearer used by the port. It is used in ATM transmission mode or IP over PPP transmission mode.

Ethernet used by the port. It is used in IP transmission mode.

The configuration of transmission media. It is used in ATM transmission mode.

Indicate the working mode of backup Ethernet port.

Indicate the Ethernet port priority.

RDN


Unique identification of TC and IMA, customized by the user.

Object protocol type represented by local MO. It must be consistent on the opposite end.

IMA group number, unique within a network element.

Frame length of IMA group. It must be consistent on the opposite end.

Clock mode of IMA group. It is recommended to be consistent on the opposite end.

When Ethernet IP transmission mode is used on physical layer port, Working mode and Transmitting bandwidth need to be configured.

Indicate the backup Ethernet port ID and IP transmission mode. 0, 2, 4, 6 represent Iub/Abis port. Do not need to configure this parameter on CCC board.

Indicates whether to enable descrambling. It is the IMA protocol parameter indicating whether to descramble cell net load. The configuration must be consistent on the opposite end device.

E1 or T1 time slot used by TC. Each bit within the value range represents a time slot. 0 indicates the time slot is not used. 1 indicates the time slot is used. For E1, time slot 1-31 can be configured. For T1, time slot 1-24 can be configured.

It is valid when ATM layer protocol is IMA and TC. The transmission media used by physical layer port must be E1, T1, or STM-1. Only one physical layer port is used when ATM layer protocol is TC.

RDN


PVC number of AAL2. It must begin from 1 and must be consecutive. Input by the user.

Link that bears AAL2.

RDN


AAL5 PVC link number.

VPI of the AAL5 link. It must be consistent with the configuration on the opposite end.

VCI of the AAL2 link. It must be consistent with the configuration on the opposite end.

Link that bears AAL5.

RDN


Configure this parameter when channelized STM-1 is used. Only one channelized STM-1 is used when ATM layer protocol is TC.

Path ID of the AAL2 link. It must begin from 1. It is customized by the user, and must be consistent with the configuration on the opposite end. If the configuration is incorrect, the public transmission channel cannot be established and UE cannot be accessed.

VPI of the AAL2 link. It must be consistent with the configuration on the opposite end. Or else the public transmission channel cannot be established and UE cannot be accessed.

VCI of the AAL2 link. It must be consistent with the configuration on the opposite end. Or else the public transmission channel cannot be established and UE cannot be accessed.

ATM flow attribute configuration, including the maximum transmitting bandwidth and the minimum transmitting bandwidth.

AAL5 flow attribute configuration, including the maximum transmitting bandwidth and the minimum transmitting bandwidth.

AAL5 link that bears ALCAP.

RDN


Ingress VPI of the ATM route. It must be consistent with the RNC/BSC/CN configuration.

Base station cascading type. It indicates how a base station transmits data to the lower-level base station. It is irrelevant to the high-layer data protocol. Time slot cross means mapping from the time slots of input E1/T1 to the time slots of output E1/T1 within the base station. ATM routing means local base station forwards the input foreign PVC according to the configured routing.

Indicate the time slot cross link ID in TSI cascading mode. Indicate the routing number in ATM cascading mode.

In TSI cascading mode, represents the E1/T1 for upper-level base station to connect with RNC/BSC/CN (ingress E1 or T1).

Describes which time slots in the inlet E1/T1 are reserved for the lower-level base station. Each bit corresponds to one time slot. 0 indicates not reserved for the lower-level base station. 1 indicates reserved for the lower-level base station.

In TSI cascading mode, represents the E1/T1 for upper-level base station to connect with SDR (outlet E1 or T1).

Describes which time slots in the outlet E1/T1 are reserved for the lower-level base station. Each bit corresponds to one time slot. 0 indicates not reserved for the lower-level base station. 1 indicates reserved for the lower-level base station. It must be one-one corresponding to the lower-level time slots.

Ingress VCI of the ATM routing. It must be consistent with the RNC/BSC/CN configuration.

Ingress PVC low-layer link of the ATM routing. It can only be IMA or TC, and must be consistent with the RNC/BSC/CN configuration

Egress VPI of the ATM route. It must be consistent with the lower-level SDR configuration.

Egress VCI of the ATM route. It must be consistent with the lower-level SDR configuration.

Egress PVC infrastructure link of the ATM routing. It can only be either IMA or TC. It must be consistent with the RNC/BSC/CN configuration.

RDN


HDLC link number. The range is customized by the user.

Physical layer port which bears HDLC.

RDN


PPP link number. The range is customized by the user.

PPP encapsulation type. It must be consistent on the opposite end.

The time interval of sending the Echo-Request message.

Maximun slicing size when MLPPP is segmented.



ATM flow attribute configuration, including the maximum transmitting bandwidth and the minimum transmitting bandwidth.

Destination base station ID. It is used in early versions and does not take effect currently. Configuration is not required.

In LACP cascading mode, represents the LACP group for upper-level base station to connect with RNC/BSC/CN.

In LACP cascading mode, represents the LACP group for lower-level base station to connect with SDR.

E1 or T1 time slot used by TC. Each bit represents a time slot. 0 indicates the time slot is not used. 1 indicates the time slot is used.

IP address of the base station. It is used for signaling and service data transmission in the IP network. 0.0.0.0 indicates obtaining the local IP address by negotiating with NE on the opposite end.

Long/short sequence format of the ML-PPP packet header. If it is different from on the opposite end, ML-PPP will automatically perform negotiation.

Indicates the number of supported priorities when ML-MC PPP is supported (When MC is supported, two bits in the frame format are used to represent the priority).

Indicates whether the ML-PPP link supports the IP compression mode. If it is different on the opposite end, ML-PPP automatically performs negotiation.

Indicates whether the PPP link is used for cascading. The cascading mode is E1/T1+Ethernet.

Indicate physical layer port of Ethernet.



RDN


Ethernet link number. One Ethernet physical port corresponds to one link.

Physical layer port which bears Ethernet.

LACP Aggregation Port which bears Ethernet.

RDN


EthernetOam mode. Only the NE in the active mode can initiate the OAM connection.

Information related to error frame and error symbol.

RDN


DHCP relay number. Can be customized within the value range.

Represents the maximum transmitted bytes of each Ethernet link layer packet. Larger value indicates higher bandwidth usage. However, it might cause the end-to-end transmission delay to increase. It can be adjusted according to the actual on-site situation to avoid the data packet being segmented in transmission.

VLAN number contained in the Ethernet frame. It is optional and a maximum of 30 numbers can be configured.

It is used to configure the timeout period of the OAM session. When the period expires, the link is considered to be broken.

It is used to configure the EthOam packet transmission period (unit: 100 ms). The protocol specifies that the number of packets transmitted per second is 1-10.

Configuration information of the IP port that bears VLAN. The transmission medium must be Ethernet.

Used IP layer configuration.

Whether the DHCP relay function is enabled.

IP address of DHCP server. Do not support IPv6.

Specify object ID of bandwidth resource group.


Indicate maximum available bandwidth of egress.

Specify object ID of bandwidth resource.


Specify bandwidth resource number.

Configure transmission bandwidth weight.

RDN


RDN


IP configuration ID. Can be customized within the value range.

PPP link that bears IP.

Ethernet link that bears IP.

Same as a VLAN in refEthernetLink.

Specify the bandwidth resource group number, which must be unique in the same bearer mode. In the Ethernet bearer mode, the number can be set to 0-7.

Indicate on which Ethernet link the bandwidth allocation rule is applied. It is mutually exclusive with refPppLink.

Configure QoS queue number of IP bandwidth resource. The QoS queue number of the same IP bandwidth resource must be unique.

This attribute indicates differential services code point, corresponding to the DSCP field in IP packets.

IP address of the base station. When the PPP link is used, the IP address information cannot be configured. It can be IPv4 address or IPv6 address. The IPv4 address format is dotted decimal format, i.e. 10.0.0.1, IPv6 address is colon hexadecimal format, i.e. 2011:0db8:85a3:0000:1319:8a2e:0370:7366. It cannot be configured with the IP address of the 192.254 network segment, the 127 network segment and the 200 network segment.

Gateway. It can be IPv4 address or IPv6 address. The IPv4 address format is dotted decimal format, i.e. 10.0.0.1, IPv6 address is colon hexadecimal format, i.e. 2011:0db8:85a3:0000:1319:8a2e:0370:7366.

Subnet mask. Only IPv4 address can be configured.

Prefix length configuration. Only IPv6 address can be configured.

Specify object ID of DSCP to COS mapping.


Configuration of IP layer that bears SCTP association.

Indicate differential services code point, corresponding to the DSCP field in IP packet.

Indicate service class, corresponding to the COS field in Ethernet 802.1q frame.

Specify object ID of service and DSCP mapping.


Configure the IP parameter of bearer services.

Specify object ID of static routing configuration.


The unique ID of static routing. It cannot be duplicated.

The information of the domain which IP address belongs to. 0XFF indicates that it does not belong to any domain.

Valid when local IP address is used for LTE transmission. It is used for the LTE X2 self-establishment.

Valid when local IP address is used for LTE transmission. It is used for the LTE X2 self-establishment.

Configure the bandwidth resource of bearer services. This parameter must be configured if the bandwidth is configured.

Mapping rule between LTE FDD service and DSCP. It indicates with which QoS priority the IP layer bears the corresponding service. If DSCP is set to 0xFF, it indicates that this IP layer does not bear the corresponding service.

Mapping rule between TD-LTE service and DSCP. It indicates with which QoS priority the IP layer bears the corresponding service. If DSCP is set to 0xFF, it indicates that this IP layer does not bear the corresponding service.

Indicate for which operator the bandwidth rule is allocated. If it is not set, bandwidth control is not implemented between operators.

The destination network mask of static routing.

The prefix length configuration. Configured only for IPv6 addresses.

The routing distance configuration. Configured only for IPv6 addresses.

The priority of IP routing. 0 indicates the highest priority.


It is the same as a certain VLAN in refEthernetLink.

RDN


Routing detection object number.

Indicates the destination address.

Routing detection mode, use ICMP or ARP protocol.

Period of routing detection.

Timeout period must less than or equal to detection period.

The maximum lost packets allowed.


RDN


IKE policy number.

IKE policy priority.

The destination network address of static routing. It can be IPv4 or IPv6 address. The IPv4 format is decimal separated by dots, such as 10.0.0.1. The IPv6 address is hexadecimal separated by colon, such as 2011:0db8:85a3:0000:1319:8a2e:0370:7366.

The gateway address configuration of next hop. It can be IPv4 or IPv6 address. The IPv4 format is decimal separated by dots, such as 10.0.0.1. The IPv6 address is hexadecimal separated by colon, such as 2011:0db8:85a3:0000:1319:8a2e:0370:7366.

IKE version.

IKE negotiation encryption algorithm.

Hash algorithm.

Random number function algorithm.

DH group.

IKE SA lifetime.



IPSec proposal number.

IPSec mode.

ESP authentication algorithm.

ESP encryption algorithm.

IPSec Security Policy Database Object ID


IPSec security policy group number.

IPSec security policy configuration.



XAUTH user name.

XAUTH password.



Configure whether the NAT traversal is supported.

Configure transmission interval of NAT keep-alive message.

RDN


IPSec configuration number.

IKE negotiation authentication method.

Negotiate entity ID load type: RFC2408 and RFC4306.

IKE version.

Remote IP address.

PFS value when IPSec is at the second stage.

IPSec policy generation method.

SA byte lifetime. 0 is a valid value indicating the parameter is disabled.

SA lifetime. 0 is a valid value indicating the parameter is disabled.

Pre-shared key.

Host domain name (FQDN)

Used XAUTH configuration.


Used IPSec proposal.

Used IPSec Security Policy Database Object


RDN


Access control rule number.

Local IP address filtered by ACL.

Local IPv4 mask.

Dead Peer Detection (DPD) is based on the ISAKMP to exchange information and provides a method to detect whether the peer end is disabled. If a peer end fails to respond within a certain time period, all associated SAs are normally considered to be disabled.

Remote IP address filtered by ACL.

Remote IPv4 mask.

Start value of filtered range for local port number.

End value of filtered range for local port number.

Start value of filtered range for remote port number.

End value of filtered range for remote port number.

Filter protocol number corresponding to ACL rule.

Configuration of ACL filtering direction.

The action executed by filtering ACL.


RDN


Application layer protocol which is used for CMP message transmission.


IP address of CA server.

The generated private key length. It can be 1024 or 2048 and the unit is bit.

Used to enter CerRequest information of CMP protocol according to CA/RA strategy.

RDN


SCTP association link number. Can be customized within the value range.

Local port number of SCTP association link. It is the interconnection parameter.

Configuration of IP layer that bears SCTP association.

Configure the bandwidth resource.

Remote port number of SCTP association link. It is the interconnection parameter.

Specify the CA server type. At present, open source EJBCA and commercial RCM servers can be used.

The server side URL of CMP protocol (the remaining part with host address and port removed) is entered according to the CMP protocol configuration of CA server.

Used to fill in the application subject (subject field value) of base station certificate. The writing format should meet the X.500 Standard. For example, C=CN,O=ZTE,CN=Nodeb01.

Used to fill in the application subject (subject field value) of base station certificate's issuer. The writing format should meet the X.500 Standard. For example, C=CN,O=ZTE,CN=Nodeb01.

Used to fill in the extended option of certificate application. The writing format is 'attribute name=attribute value;'.

Transport layer port number of CA server. It should be entered according to the actual CA server configuration.

The time interval of sending the HEARTBEAT message.

SCTP coupling used in which radio standard, such as GSM or UMTS.

RDN


MD number. It begins from 0 and must be unique.

MD index number. It begins from 1, in ascending order, and must be unique.

MD level.

RDN


MA number. It begins from 0 and must be unique.

MA index number. It begins from 1, in ascending order, and must be unique.

Remote IP address of SCTP association link. It is the interconnection parameter. It can be IPv4 or IPv6 address. The IPv4 address format is dotted decimal format, i.e. 10.0.0.1, IPv6 address is colon hexadecimal format, i.e. 2011:0db8:85a3:0000:1319:8a2e:0370:7366.

Corresponds to the four IP addresses in association. One of the four IP addresses is selected as the preferred path.

Number of incoming and outgoing streams of SCTP association. A maximum of six incoming and outgoing streams can be configured.

IP service model configuration. Different models are chosen according to the actual scenario.

After the SCTP link-establishment timed out, the maximum retransmission times of the INIT message.

After sending the DATA message timed out on a single path of SCTP, the maximum retransmission times on the single path of SCTP.

After sending the DATA message timed out on a SCTP link, the maximum retransmission times on the SCTP link.

After sending the DATA and HEARTBEAT messages timed out, the minimum time interval of retransmission.

After sending the DATA and HEARTBEAT messages timed out, the maximum time interval of retransmission.

An Ethernet port that belongs to local MD on the local base station. Currently only the Iub/Abis interface on CC board can be used.

MD name. The ending character of the attribute must be printable ASCII code. No space is allowed at the beginning or end.

IP link used by MA.

VLAN used by MA. Currently one MA only supports one VLAN.

RDN


MP number. It begins from 0 and must be unique.

MP index number. It begins from 1, in ascending order, and must be unique.

MEP type.

Configure local MEP detailed parameters. It is valid when MPE type is set to Local MEP.

Represents the UDP object.



RDN


MA name. The ending character of the attribute must be printable ASCII code. No space is allowed at the beginning or end.

CCM detection period. If the CCM message from the opposite end is not received after 3.5 times of the period, the link is considered to be abnormal.

MEP number (MEPId). It is customized by the user, and must be unique within the MA range.

Configure remote MEP detailed parameters. It is valid when MPE type is set to Remote MEP.

Indicates whether to enable CCM detection. If MEP type is Local MEP, enabling the CCM detection means that the multicast CCM detection is executed on local end. If MEP type is Remote MEP, enabling the CCM detection means that the unicast CCM detection is executed on remote end. The current version only supports multicast CCM detection.

Bidirectional forwarding detection link number. Can be customized within the value range.

Remote IP address and local IP address form an IP path that can be detected by BFD. Do not support IPv6.

BFD packet service quality priority. Can be customized within the value range. It is recommended to set it to 46.

UDP link that bears BFD.

Configuration related to BFD authentication.

RDN


Indicate the 1588 clock device type adopted by BS.

Indicate the 1588 link mode adopted by BS.

1588 clock packet transmission way.

RDN


The detection mode is multi-hop detection or single-hop detection. For direct connection, set it to N (single-hop detection). If there are other switching devices in the connection, set it to Y (multi-hop detection).If the BFD detection mode is multi-hop detection, only one multi-hop BFD can be configured for one IP address. If and only if the BFD detection mode is single-hop detection, the local IP address and the remote IP address must be within the same network segment.

Configure minimum interval of transmitting packets expected by local end. The value is determined by the negotiation of both ends. If the value is changed, BFD session will be negotiated again.

Configure minimum interval of receiving packets supported by local end. The value is determined by the negotiation of both ends. If the value is changed, BFD session will be negotiated again.

Configure the detection time accumulator of BFD session. If the value is changed, BFD session will be negotiated again.

IP clock link priority.

PTP network protocol.

1588 clock message transmission mode.

IP address of 1588 clock synchronization server.

PTP port mode.

Indicates whether to enable link setup by negotiation.


Same as a VLAN in used ethernet link.

UDP link that bears 1588 clock.



Indicate user-oriented description of the object.

Indicate local IP address.

Indicate remote IP address.

Indicate VLAN ID.

Indicate DSCP.

RDN


Itf-UniBTS channel number. Can be customized within the value range.

1588 clock packet service quality priority. Can be customized within the value range. It is recommended to set it to 46.

The multicast type of IPv6 indicates the multicast is one of the following types: link domain, admin domain, site domain, organization domain, and global domain.

Specify KPI measurement number. The number for the measurement object of the same type must be unique.

Itf-UniBTS packet encapsulation type, IPINIP, IPOA (used in the ATM mode) or IP (independent networking). The O&M packet can use IPINIP or IPOA mode through RNC/BSC resolution transferring. The O&M packet can use the independent networking mode without RNC/BSC resolution.

The inner IP address of base station configured in the IPINIP mode. It is used for OMC and it is an interconnection parameter (interconnected with OMC).

IP address of the OMC server configured in the independent networking mode.

Subnet mask of the OMC server configured in the independent networking mode.


AAL5 link used in the IPOA mode.


RDN


Operator name.


RDN


The Mobile Country Code of a PLMN identity used in the radio network.

The Mobile Network Code of a PLMN identity used in the radio network.

RDN


Indicates whether to enable SLA switch.

Indicates whether to Forbid FTP switch.

The IP address of OMC gateway configured in the IPINIP mode. The O&M packet is forwarded to the OMC server through the gateway (in RNC/BSC). It can be IPv4 address or IPv6 address. The IPv4 address format is dotted decimal format, i.e. 10.0.0.1, IPv6 address is colon hexadecimal format, i.e. 2011:0db8:85a3:0000:1319:8a2e:0370:7366.

The transmission quality priority of O&M packet. It is customized by the user. It is recommended to set it to '46:EF service, accelerated forwarding, minimum delay, and maximum flow'.

IP address in the IPOA transmission mode. It is customized by the user, and it is an interconnection parameter. 0.0.0.0 indicates that the IP address is obtained automatically.

Subnet mask of the OMC server configured in the independent networking mode. Only IPv6 omcServerIP address can be configured.

The reset time of base station self-recovery function, which indicates when the broken duration of the transmission layer control link (SCTP, SSCOP), LMT O&M channel, and OMC O&M channel exceed the parameter, automatic reset is executed on the base station to solve the broken link problem which might be caused by hardware fault.

Indicates whether to enable Bypass switch. Bypass means in daisy chain condition, previous-level BBU provides auto-bridging function to transfer the E1 connected with BSC/RNC to the next-level BBU when the previous-level BBU is powered down or abnormal. In this way the effect range of the fault is smaller.

Indicates whether to Forbid TELNET switch.

RDN


RRU channel power saving switch.

Start time of RRU power saving.

End time of RRU power saving.

Power amplifier power saving switch

Indicate RSSI report period.

RDN


Antenna calibration period.

The start time of periodical antenna calibration. Unit: minute.

RDN


Related parameter configuration for hardware auto-discovery.

Related parameter configuration for auto-commissioning.

Related parameter configuration for auto-setup transmission.

Configure related parameters for data rollback.

Indicate the OSPF instance ID.


Uniquely identify a router, represented in the form of IP address.

Indicate SPF calculation time interval.

Indicate whether the RFC1583 rule is compatible.

Indicate OSPF area sequence number.


Indicate OSPF area number, represented in the form of IP address.

Specify object ID of OSPF stub settings.

Amplitude difference threshold of antenna calibration channel wAcAmpDiffThres,10-80 (default value 30, step value 1 corresponding to 1.0-8.0db. Step is 0.1 db. Unit is 0.1 db).

Amplitude difference threshold of antenna calibration process wAcSubFnAmpDiffThre, 5-60 (default value 30, step value 1 corresponding to 0.5-6.0db. Unit is 0.1 db).

Angle difference threshold of antenna calibration process wAcSubFnAngleDiffThres, 0-360 (default value 5, step value 1).


Indicate sequence number of OSPF interface.


Indicate the OSPF interface number.

Indicate cost.

Indicate interval for sending Hello message.

The local IP link number. It is corresponding to the ipNo attribute of IpLayerConfig object.

RDN


User ID.

User password.


It is the same with a certain VALN of used Ethernet link.

Check whether neighbor in the Up status, If no response within the dead time from the neighbor, regarding the neighbor in the Down status.

Set interface priority. If the priority is set to 0, it indicates that the interface cannot be elected as DR or BDR.

A timer used by the Supplicant PAE to determine how long to wait for a request from the Authenticator before timing it out.

A timer used by the Supplicant PAE state machine to determine when an EAPOL-Start PDU is to be transmitted.

A timer used by the Supplicant state machine to define periods of time during which it will not attempt to acquire an Authenticator.

The maximum times of successful EAPOL-Start message transmission before the client ensure that there is no authentication end.

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ZTE中兴内部公开▲

<本文中的所有信息均为中兴通讯股份有限公司内部信息，未经允许，不得外传> 共 342 页 , 第 267 页

Table Name Parameter Name

Maximum Transmitting Bandwidth

Average Transmitting Bandwidth

Minimum Transmitting Bandwidth

Maximum Receiving Bandwidth

Average Receiving Bandwidth

Minimum Receiving Bandwidth

Service Type

Maximum Transmitting Bandwidth

Average Transmitting Bandwidth

Minimum Transmitting Bandwidth

Maximum Receiving Bandwidth

Average Receiving Bandwidth

Configuration of ATM Throughput Poroperty

Configuration of AAL5 Throughput Poroperty



Minimum Receiving Bandwidth

Service Type

Product Information Product name

Product number

Local MEP Parameter Local MEP Level

the Lowest Alarm Level

Remote MEP Parameter Related Local MP Index

MAC of Remote MEP

BFD Authority Parameter Authentication type

Authentication key ID

Authentication key

Information of event type Event Type



Window Size

Threshold

IPSec Security Policy Configuration IPSec Security Policy Index

Source addressSource address subnet maskDestination addressDestination address subnet mask

Maximum rule of protocol codeMinimum rule of protocol codeMaximum source portMinimum source portMaximum destination portMinimum destination portRule action

Function switch

Configuration for site auto-opening Auto-opening switch

Operating mode

Automatic chain-establishment switch

Automatic chain-establishment mode

Configuration for hardware auto-discovery

Configuration for Auto-setup Transmission Link



Tolerant time of first time link broken

Tolerant time of next time link broken

Transmission priority 1 of LTE service











Mapping relation from LTE service type to DSCP at IP layer














Ethernet configuration parameter Working mode

Transmitting bandwidth



Configuration Recovery Configuration for rollback switch

Tolerance duration of the first link broken



Short Name Parameter Format

maxEgressBitRate long

averageEgressBitRate long

minEgressBitRate long

maxIngressBitRate long

averageIngressBitRate long

minIngressBitRate long

serviceCategory long

maxEgressBitRate long

averageEgressBitRate long

minEgressBitRate long

maxIngressBitRate long

averageIngressBitRate long



minIngressBitRate long

serviceCategory long

productName string

productNumber long

localLevel long

alarmLowestLevel long

localMPIndex long

remoteMEPMacAddr string

authorityType long

authorityKeyId long

authorityKeyValue string

eventType long



windowSize long

threshold unsigned long

spIndex unsigned long

sourceIp stringsourceSubnetMask stringdestinationIp stringdestinationSubnetMask string

ruleMaxProtocol longruleMinProtocol longmaxSourcePort longminSourcePort longmaxDestinationPort longminDestinationPort longruleAction long

functionSwitch long

functionSwitch long

operatingMode long

functionSwitch long

autoConnectionMode long



firstBrokenTolerantTime long

nextBrokenTolerantTime long

serviceDscp1 long

long

long

long

long

long

long

long

long

long

long

serviceDscp2

serviceDscp3

serviceDscp4

serviceDscp5

serviceDscp6

serviceDscp7

serviceDscp8

serviceDscp9

serviceDscp10

serviceDscp11



long

long

long

long

long

long

long

long

long

long

long

long

long

long

serviceDscp12

serviceDscp13

serviceDscp14

serviceDscp15

serviceDscp16

serviceDscp17

serviceDscp18

serviceDscp19

serviceDscp20

serviceDscp21

serviceDscp22

serviceDscp23

serviceDscp24

serviceDscp25



long

long

long

long

long

long

long

long

long

long

long

long

long

long

serviceDscp26

serviceDscp27

serviceDscp28

serviceDscp29

serviceDscp30

serviceDscp31

serviceDscp32

serviceDscp33

serviceDscp34

serviceDscp35

serviceDscp36

serviceDscp37

serviceDscp38

serviceDscp39



long

long

long

long

long

long

long

long

long

long

long

long

long

long

serviceDscp40

serviceDscp41

serviceDscp42

serviceDscp43

serviceDscp44

serviceDscp45

serviceDscp46

serviceDscp47

serviceDscp48

serviceDscp49

serviceDscp50

serviceDscp51

serviceDscp52

serviceDscp53



long

long

long

long

long

long

long

long

long

long

long

operatingMode long

egressPeakBitRate unsigned long

serviceDscp54

serviceDscp55

serviceDscp56

serviceDscp57

serviceDscp58

serviceDscp59

serviceDscp60

serviceDscp61

serviceDscp62

serviceDscp63

serviceDscp64



functionSwitch long

brokenTolerantTime long



Range and Step Default Value

[0..30000] 2048

[0..30000] 2048

[0..30000] 2048

[0..30000] 2048

[0..30000] 2048

[0..30000] 2048

SRVC_CBR

[0.1500] 128

[0..1500] 128

[0.1500] 128

[0..1500] 128

[0..1500] 128

SRVC_CBR, SRVC_RTVBR, SRVC_NRTVBR, SRVC_UBR, SRVC_ABR, SRVC_OTHER

E1

tiantao136059: 对于属性的取值范围的描述规定如下： 1、连续的范围：“[1..19] step:10”，step表示步长，如果不说明，step默认为1； 2、枚举值：“0xFF:无效{英文描述},0x22:有效{英文描述}”，每个枚举值用“,”号隔开，key和label用“:”分隔，“{}”对应英文描述； 3、不连续范围：“[1..19] step:1,55,88,0xAA:枚举{英文描述}”，两种范围类型间用“,”分隔； 4、字符串长度的描述：“[0..10]”，字符串长度指的是UTF-8编码后的字节长度,不包括串尾符。字符串中不允许出现XML文件格式需要使用的特殊字符，如& < > ' "。



[0..1500] 128

SRVC_CBR

[1..201] N/A

[0..65535] 0

[0..7] 0

[1..5] 1

[1..32] 1

Simple Password

[1..255] 1

N/A 0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0

SRVC_CBR, SRVC_RTVBR, SRVC_NRTVBR, SRVC_UBR, SRVC_ABR, SRVC_OTHER

Not support authentication, Simple Password, Keyed MD5, Meticulous Keyed MD5, Keyed SHA1, Meticulous Keyed SHA1

Errored frame second link event, Errored frame period link event, Errored frame link event, Errored symbol period link event



[1..48] 1

0.0.0.00.0.0.00.0.0.00.0.0.0

[0..255] 255[0..255] 0[0..65535] 65535[0..65535] 0[0..65535] 65535[0..65535] 0

protect

Close

Close

Autonomous mode

Close

Errored frame second link event: [10..900], Errored frame period link event: [1..600], Errored frame link event, : [1..60], Errored symbol period link event: [1..65535]

Errored frame second link event: [60],Errored frame period link event: [600],Errored frame link event: [1],Errored symbol period link event: [1]

Errored frame second link event: [1..900], Errored frame period link event: [1..65535], Errored frame link event, : [1..65535], Errored symbol period link event: [1..0xFFFFFFFF]

bypass, discard, protect

Close, Open

Close, Open

Autonomous mode, Controlled mode

Close, Enable automatic establishment of chain, Enable FE auxiliary establishment of chain

Disable automatic chain-establishment switch: [Try Ethernet/PPP/ATM mode, Try Ethernet/PPP mode, Try Ethernet/ATM mode, Try Ethernet mode, Try PPP/ATM mode, Try PPP mode, Try ATM mode], Enable automatic establishment of chain: [Try Ethernet/PPP/ATM mode, Try Ethernet/PPP mode, Try Ethernet/ATM mode, Try Ethernet mode, Try PPP/ATM mode,

Disable automatic chain-establishment switch: [Try Ethernet/PPP/ATM mode],Enable automatic establishment of chain: [Try Ethernet/PPP/ATM mode],Enable FE auxiliary establishment of chain: [Try Ethernet mode]



[1..300] 10

[1..300], Invalid Invalid

[0x00..0x3F], Invalid Invalid
























Electrical port self-adaptiveElectrical port self-adaptive,Electrical port 10Mbps FDT,Electrical port 100Mbps FDT,Optical port 100Mbps FDT,Optical port 1000Mbps FDT,Optical port 1000Mbps self-adaptive,Optical port 10000Mbps FDT

Self Negotiation: [100..1000000] step 100, Electrical port 10Mbps FDT: [100..10000] step 100, Electrical port 100Mbps FDT: [100..100000] step 100, Optical port 1000Mbps FDT: [100..1000000] step 100, Optical port 100Mbps FDT: [100..100000] step 100Optical port 10000Mbps FDT: [100..10000000] step 100

Self Negotiation: [100000],Electrical port 10Mbps FDT: [10000],Electrical port 100Mbps FDT: [100000],Optical port 1000Mbps FDT: [1000000],Optical port 100Mbps FDT: [100000],Optical port 10000Mbps FDT: [10000000]Optical port 1000Mbps self-adaptive: [1000000]



0

[15..1000] 30

Close,Open



Unit EMS Path

kbps

kbps

kbps

kbps

kbps

kbps

N/A

kbps

kbps

kbps

kbps

kbps

Managed Element/Transmission Network/ATM Transport Network/AAL2

Managed Element/Transmission Network/ATM Transport Network/SaalUni



kbps

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Equipment/Cabinet



Managed Element/Transmission Network/Network Detection/Bidirectional Forwarding Detection

Managed Element/Transmission Network/Network Detection/Ethernet Fault Detection Configuration



N/A

times

N/A

N/AN/AN/AN/A

N/AN/AN/AN/AN/AN/AN/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Network Security/IPSec Security Policy Database Object






min

min

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Managed Element/Transmission Network/Signalling and Business/Service and DSCP mapping



N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A



N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

kbps

Managed Element/Transmission Network/Physical Hosting/Physical Layer Port



N/A

min




Possible Means of Parameter Setting Modification When to Take Effect





























N/A N/A

N/A N/A

N/A

N/A

N/A N/A

N/A N/A

N/A

N/A

N/A

N/A N/A





N/A N/A

N/A N/A

N/A N/A

N/A N/AN/A N/AN/A N/AN/A N/A

N/A N/AN/A N/AN/A N/AN/A N/AN/A N/AN/A N/AN/A N/A

N/A N/A

N/A N/A

N/A N/A


N/A N/A



N/A N/A

N/A N/A


It is required to synchronize the modified tables.























N/A

N/A

N/A

N/A
























Impact on Service Related Parameters

N/A N/A

N/A serviceCategory

N/A serviceCategory

N/A N/A

N/A serviceCategory

N/A serviceCategory

N/A N/A

N/A N/A

N/A serviceCategory

N/A serviceCategory

N/A N/A

N/A serviceCategory



N/A serviceCategory

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/AN/A N/AN/A N/AN/A N/A

N/A N/AN/A N/AN/A N/AN/A N/AN/A N/AN/A N/AN/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A functionSwitch



N/A functionSwitch

N/A functionSwitch

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

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N/A N/A

N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A



N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A N/A

N/A refGeDevice

N/A refGeDeviceoperatingMode



N/A N/A

N/A functionSwitch



Reference Protocol

ITU-T I.363.2 B-ISDN ATM Adaptation Layer specification: Type 2 AAL














N/A

N/A

802.1ag

802.1ag

N/A

N/A

RFC 5880

RFC 5880

RFC 5880

N/A





N/A

N/A

N/A

N/AN/AN/AN/A

N/AN/AN/AN/AN/AN/AN/A

N/A

N/A

N/A

N/A

N/A



N/A

N/A

RFC2474 - Definition of the Differentiated Services Field (DS Field) in the IPv4 and IPv6 Headers













IEEE802.3

IEEE802.3














N/A

N/A



Parameter Explanation Change Records

Indicate the maximum transmission bandwidth. No change

Indicate the average transmission bandwidth. No change

No change

Indicate the maximum receiving bandwidth. No change

Indicate the average receiving bandwidth. No change

No change

No change

Indicate the maximum transmission bandwidth. No change

Indicate the average transmission bandwidth. No change

No change

Indicate the maximum receiving bandwidth. No change

Indicate the average receiving bandwidth. No change

Indicate the minimum sending bandwidth (that is, the minimum bandwidth guaranteed for sending).

Indicate the minimum receiving bandwidth (that is, the minimum bandwidth guaranteed for receiving).

Indicate the category of ATM services. All categories of ATM services can be divided into two types: real-time services (SRVC_CBR and SRVC_RTVBR) and non-real-time services (SRVC_NRTVBR, SRVC_UBR, SRVC_ABR, and SRVC_OTHER). Real-time services are generally used for transmitting voice and signaling data. Non-real-time services are generally used for transmitting data services.

Indicate the minimum sending bandwidth (that is, the minimum bandwidth guaranteed for sending).



No change

No change

No change

Uniquely identify a product. No change

Indicate the local MEP level. No change

No change

No change

No change

No change

No change

No change

Indicate the event type that needs to be configured. No change

Indicate the minimum receiving bandwidth (that is, the minimum bandwidth guaranteed for receiving).

Indicate the category of ATM services. All categories of ATM services can be divided into two types: real-time services (SRVC_CBR and SRVC_RTVBR) and non-real-time services (SRVC_NRTVBR, SRVC_UBR, SRVC_ABR, and SRVC_OTHER). Real-time services are generally used for transmitting voice and signaling data. Non-real-time services are generally used for transmitting data services.

Specify the product name. Refer to Physical Device Definition for product names.

Indicate the lowest alarm level of the local MEP. The local MEP only responds to the received alarm whose level is higher than the lowest level.

Indicate the local MP index (EthernetCfmMp.mpIndex) associated with the remote MEP.

Indicate the MAC address of the remote MEP. The digits in the MAC address are separated with the symbol "-", such as, 00-AA-BB-88-99-DD.

Indicate the BFD authentication type. It is a parameter for interconnection.

It uniquely identifies authentication key. It is a parameter for interconnection.

Indicate the authentication key that consists of 20 values, with each within the range of 0-255. Different values are separated by a dot. (1) When the authentication type is 1, the valid value of the authentication password is the first 5 values.(2) When the authentication type is 2 or 3, the valid value of the authentication password is the first 16 values.Default value is: 0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0



No change

Indicate the threshold of the corresponding event type. No change

It uniquely identifies an IPSec SPD security policy. No change

Indicate the source address. No changeIndicate the subnet mask of the source address. No changeIndicate the destination address. No changeIndicate the subnet mask of the destination address. No change

Indicate the protocol upper limit. No changeIndicate the protocol lower limit. No changeIndicate the upper limit of the source port. No changeIndicate the lower limit of the source port. No changeIndicate the upper limit of the destination port. No changeIndicate the lower limit of the destination port. No changeIndicate the action that shall be taken when the IPSec rule is fulfilled. No change

Enable or disable hardware auto-discovery function. No change

Enable or disable auto-commissioning function. No change

Indicate operating mode of auto-commissioning function. No change

No change

No change

Indicate the window size of the corresponding event type.eventType=0, unit: second.eventType=1, unit: ten thousand PPS.eventType=2, unit: second.eventType=3, unit: million PPS.

Indicate automatic chain-establishment switch. The automatic chain-establishment function means that the base station automatically establishes the O&M channel between various physical media and OMC.

Select on which physical media the automatic chain-establishment is attempted. Precisely selecting the transmission mode can accelerate the automatic chain-establishment.



No change

No change

Transmission priority 1 of LTE service. No change











Indicate when to initiate automatic connection after the link is broken for the first time. The automatic connection is started by the base station if the broken duration of the following parameters exceed this value: Transmission layer control link (SCTP, SSCOP), LMT O&M channel, and OMC O&M channel.

Indicate when to initiate automatic connection after the link is broken after the first time. The automatic connection is started by the base station if the broken duration of the following parameters exceed this value: Transmission layer control link (SCTP, SSCOP), LMT O&M channel, and OMC O&M channel.














No change

No change

The Ethernet working mode. It should match with the configuration on the opposite end. The rate mode configuration depends on whether it is supported by the Ethernet cable.

Transmission bandwidth in the Ethernet transmission mode.



Enable or disable the function of configuration rollback. No change

No changeWhen the link-broken time of LMT O&M channel and OMC O&M channel exceeds this duration, the configuration data of BS is automatically rolled back.

ZXSDR UniRAN (V3.10.20) Ground Parameter Reference

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