Configuration Guide

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Integrated gNB

Document version: 01

Configuration Guide

Summary of content (75 pages)

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About This Document This document describes the configuration of the integrated gNB for software version BaiBBU_QSS_1.1.x. It is a guide that how to configure the device after its installation completes. Copyright Notice Baicells Technologies, Inc., copyrights the information in this document. No part of this document may be reproduced in any form or means without the prior written consent of Baicells Technologies, Inc.
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Contents 1. 2. 3. Configuration Flow ...................................................................................................... 1 Login Web Client ......................................................................................................... 3 2.1 Web Client Environmental Requirements ............................................................... 3 2.2 Connect Web Client to Base Station ........................................................................ 3 2.
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6. 7. 5.4 Configure Core Network .......................................................................................... 27 5.5 Configure Static Route ............................................................................................. 27 Configure BTS Parameter ........................................................................................ 29 6.1 Configure Management Server .............................................................................. 29 6.
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7.8.3 SSB .................................................................................................................... 53 7.8.4 UL RSSI Measurement ...................................................................................... 54 7.8.5 DRX ................................................................................................................... 54 7.8.6 Voice .................................................................................................................
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Figure 4-5 Diagnostics................................................................................................ 14 Figure 5-1 Configure WAN/VLAN............................................................................... 16 Figure 5-2 Add WAN Card .......................................................................................... 17 Figure 5-3 Configure WAN Interface Attribute............................................................ 18 Figure 5-4 IPv4 Configuration Parameters............
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Figure 7-15 QoS Setting .............................................................................................
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List of Tables Table 1-1 Data Planning ............................................................................................... 1 Table 2-1 Environmental Requirements of the Client ................................................ 3 Table 2-2 Alarm ............................................................................................................. 6 Table 3-1 Quick Setting Parameter Description ...........................................................
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Table 7-12 XN Parameter Description ...................................................................... 45 Table 7-13 A1 Event Threshold Parameter Description .......................................... 47 Table 7-14 B1 Event Threshold Parameter Description .......................................... 49 Table 7-15 Period Measurement Parameter Description ........................................ 51 Table 7-16 CU Parameter Description ......................................................................
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1. Configuration Flow The Baicells gNB is loaded with its own GUI for configuring its operating parameters. You can log in to the GUI either locally through the Local Maintenance Terminal (LMT), which is an Ethernet port, or remotely via IP address. You can also use the Baicells Operations and Maintenance Center (OMC) to configure the gNB; this document, however, focuses only on using the gNB GUI.
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Item Parameters Parameter Description TAC Planned by the customer. CellID Planned by the customer. NREF(PointA, SSB) Planned by the customer. Offset To PointA Planned by the customer. Kssb Planned by the customer.
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2. Login Web Client 2.1 Web Client Environmental Requirements Table 2-1 describes the requirements on computer of the client. Table 2-1 Environmental Requirements of the Client Item Description CPU Above Intel Core 1GHz Memory Above 2G RAM Hard disk No less than 100 MB space available Operating system   Microsoft: Windows XP, Windows Vista, Windows7 or Windows10 Mac: MacOSX10.5 or above Screen resolution Above 1024 x 768 Browser Recommend to use Chrome 6 or higher 2.
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Figure 2-1 Internet Protocol Version (TCP/IPV4) Select either “Obtain an IP address automatically” or “Use the following IP address”:  If “Obtain an IP address automatically” selected, go directly to step 7  If “Use the following IP address” selected, follow step 5 ~ step 7 NOTE: In general, if the auto obtaining fails, one needs to set up the IP address manually. 5. Select “Use the following IP address”. 6.
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7. In the command window, execute ping 192.168.150.XXX and check whether the connection between the client computer and the server works. If the ping command fails, contact network engineers to ensure network connectivity. 2.4 1. Log In Open a web browser, and enter https://, as shown in Figure 2-2. Figure 2-2 GUI Login 192.168.150.1 is the initial IP address. If the IP address is changed, log in through new IP address. 2. Input user name, password, and click “Login”.
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NOTE: The menus and information may vary by product type or software version. The homepage displays the navigation pane on the left, and shows the window for the first menu: Basic Setting > Basic Info. This window is like a dashboard for the device. The left of the window shows basic information such as the hardware version, software version, and serial number, etc. The right of the window shows the status information, such as cell status, F1 status, NG status, overall upgrade status, IPsec status, etc.
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3. Basic Setting 3.1 Quck Setting The quick settings determine important RF parameters, as well as connectivity to Baicells ColudCore Evolved Packet Core (EPC). These parameters need to be planned in advance in the network planning stage. 1. In the navigation column in the left, select “Basic Setting > Quick Setting” to enter the quick setting page, as shown in Figure 3-1. Figure 3-1 Quick Setting 2. Input quick setting parameters, the parameter descriptions are given in Table 3-1.
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Parameter Description 30kHz in this version. 3. DL CarrierBandWidth(RB) Downlink carrier bandwidth. UL SubCarrierSpacing Uplink subcarrier spacing. The eNB supports 30kHz in this version. UL CarrierBandWidth(RB) Uplink carrier bandwidth. Power Modify Transmit power. Range from 0 to 43dBm. Click “Save” to complete the quick settings for the gNB.
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4. Configure System Parameter 4.1 Configure NTP This page includes the time zone and the NTP configuration, which are configured according to the actual needs. If the NTP is used by the gNB as an external clock source, up to five NTP servers are supported, where one for master NTP service and the others for backup. 1. In the navigation column on the left, select “System > NTP” to enter the NTP setting page, as shown in Figure 4-1.
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5. Click “Save” to complete the NTP server configuration. 4.2 Configure Log In the navigation column on the left, select “System > Log” to enter the log level setting page, as shown in Figure 4-2. Figure 4-2 Log Level Setting The gNB supports the log level setting for Media Access Control (MAC) log, Radio Link Control (RLC) log and RLCL. Following levels are supported:  FATAL  ERROR  INFO  BRIEF  DETAILED  DETAILED ALL 4.
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Caution: Firmware upgrade may lead to the damage of the eNB file, contact the support engineer before upgrade. If necessary, the vendor will provide the technical support. 4.3.1 Firmware Upgrade 1. In the navigation column on the left, select “System > Upgrade” to enter the upgrade management page, as shown in Figure 4-3. Figure 4-3 Upgrade 2. The operator gets the firmware file of new version and save it in local computer. 3. Select whether to preserve the current settings. 4.
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6. In the pop-up window click “PROCEED”. In the “Basic Setting > Basic Info” page, the upgraded version will be displayed in “Software Version". 4.3.2 Rollback Only one rollback operation is allowed for each upgrade. Under the rollback permission of the BBU, the software can roll back to the version before upgrade. After the rollback, a new rollback will not be permitted until an upgrade has taken place. If the previous version is “-”, there is no software version for rollback. 1. Click “Click Rollback”.
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Figure 4-4 System Backup 4.4.1 Backup Current Configuration 1. Click “Get Backup Files”. 2. In the pop-up download dialog box, select the file path to save the current configuration file to the local computer. 4.4.2 Backup Log Files 1. Click “Get Log Files”. 2. In the pop-up download dialog box, select the file path to save the log files to the local computer. 4.4.3 Backup Crash Logs 1. Click “Get Crash Logs”. 2.
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4.4.4 Restore Default Configuration Attention: After the restore operation, the eNB will reboot immediately. Be careful to operate the “Restore Default Configuration” restore. It will disrupt the current service. 1. Click “Restore Default Configuration”. 2. In the pop-up download dialog box click “OK”, the base station will reboot immediately. Wait for about three minutes, the base station will reboot completely. 4.4.5 Import Configuration File 1.
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Table 4-2 Table 4-2 Parameter Description of tcpdump Command Parameter Description Method of Diagnostics The current version supports tcpdump command. Command Tcpdump command Count of captured packetsThe number of captured packets. 3. Click “Start” to run the tcpdump command. Click “Stop” to stop running. Click “Get File” to download the file to the local computer. 4.6 Reboot Caution： The reboot operation will interrupt the current service, be careful to operate this operation. 1.
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5. Configure Network Interface The configuration of the network interface includes the WAN interface, VLAN, IPsec, Differentiated Services Code Point (DSCP) and static route, etc. 5.1 Configure WAN/LAN Interface The WAN interface is an external communication portal (Internet connection) the gNB’s NMS and the core network. The gNB’s NMS may be the Baicells Operation and Maintenance Center (OMC) or other NMS. The only option for the Interface name field is WAN.
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Figure 5-2 Add WAN Card 3. Input parameters of the WAN card, as shown in Table 5-1. Table 5-1 WAN Card Parameter Description Parameter 4. Description Index Index. Generated automatically. Enable Enable or disable the port. Name Name UserLabel User label Max Bit Rate Select maximum bit rate of the port from the drop-down list. The unit is Mbit/s.  10  100  1000  Auto Max Bit Rate Select the working mode of the port from the drop-down list.
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Figure 5-3 Configure WAN Interface Attribute 5. Configure IPv4, IPv6, or VLAN parameters based on the actual network deployment.  IPv4 Click on “WAN IPv4 table” zone to display the IPv4 configuration parameters, as shown in Figure 5-4 Figure 5-4 IPv4 Configuration Parameters The description of IPv4 configuration parameters is shown in Table 5-2.
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Parameter Description usage of the port.  Ng  Xn  Ng/Xn  S1  X2  S1/X2  F1  E1  OAM  Other  IP When “Addressing Type” is set to “static”, the parameter displays. IP address of the WAN interface. Default Gateway When “Addressing Type” is set to “static”, the parameter displays. IP address of the default gateway. Subnet Mask When “Addressing Type” is set to “static”, the parameter displays. Subnet mask address of the IP address.
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Table 5-3 IPv6 Parameter Description Parameter  Description Addressing Type The interface protocol used by WAN interface, include:  DHCPv6: If DHCP is selected, no other parameter needs to be configured.  Static: If Static is selected, the IP address, prefix length, and gateway should be configured. Port Type WAN port type. According to the network plan, specify the usage of the port.
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The description of VLAN configuration parameters is shown in Table 5-4. Table 5-4 VLAN Parameter Description Parameter 6. Description Name VLAN name. ID VLAN ID Enable Enable or disable the VLAN.  0: Disable  1: Enable Click “Save” to complete the WAN and VLAN configuration. 5.2 Configure IPsec The security gateway (SeGW) in the network can provide security protocol in the network layer to ensure the safety for message transmission.
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2. Select enable or disable the IPsec function. The IPsec function is enabled by default. 3. If the IPsec function is enabled, click 4. In “IPsec Tunnel List” area, click Figure 5-8. to add a IPsec tunnel. to enter the edit dialog box, as shown in Figure 5-8 Edit IPsec Tunnel The description of basic parameters is shown in Table 5-5. Table 5-5 IPsec Tunnel Basic Parameter Description Parameter Description Enabled Enable or disable this IPsec tunnel.
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Parameter Description on the security gateway side. Right Subnet IP address of the remote subnet, which must be consistent with the security gateway side. Message within this address range will be packed as a tunnel. Right Id Identification of the server end (0-48 digits string). It must be consistent with the security gateway side. If there is no security gateway right identifier, leave this field empty. SecretKey File name of private key.
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Parameter IKE DH Group Description IKE Diffie-Hellman (DF) key computation, or exponential key agreement, to be used between two entities.  MODP768  MODP1024  MODP1536  MODP2048  MODP4096 IKE Authentication Authentication algorithm  SHA1  SHA1_160  SHA256_96  SHA256 ESP Encryption Encapsulating Security Payload (ESP) – member of the IPsec protocol suite that provides origin authenticity, integrity, and confidentiality protection of packets.
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Parameter Description    5. Clear Hold Restart Dpddelay Time interval for sending the DPD detection message. Format: Seconds, Minutes, Hours or Days. Left Interface The interface on the eNB side. Input strong wan configuration parameters, as shown in Table 5-7. Table 5-7 Strong Wan Parameter Description Parameter Description IKE Debug Level IKE debug level. Range: -1,0,1,2,3,4。 ESP Debug Level ESP debug level. Range: -1,0,1,2,3,4。 CFG Debug Level CFG debug level.
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Figure 5-9 Configure DSCP 2. Click to display DSCP adding window as shown in Figure 5-10. Figure 5-10 Add a DSCP 3. Input DSCP parameters, as shown in Table 5-8.
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Table 5-8 DSCP Parameter Description Parameter 4. Description DSCP DSCP code, which is used to differentiate the priority level. Range from 0 to 63 integer. Vlan Priority Vlan priority. Range from 0 to 7 integer. Click “Save” to complete the DSCP setting. On the lower of the page, you can specify DSCP value and VLAN priority for NGAP, X2AP, F1AP, XNAP and OAM. 5.4 Configure Core Network This version does not support the this menu. 5.
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Figure 5-12 Configure Static Route 3. Input the configuration parameters of static route, which are given in Table 5-9. Table 5-9 Static Route Parameter Description Parameter Description IP Address Version   Port Name IPv4 IPv6 Port Name Destination Network The destination IP address. NOTE: The target IP address must reachable from the original IP address of WAN interface or VLAN source port. 4. Subnet Mask The subnet mask of target IP address.
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6. Configure BTS Parameter 6.1 Configure Management Server For the Network Management System (NMS), an operator has the option to use the Baicells Cloudcore OMC, a local OMC, or other their own management server. After the NMS settings, you can login the NMS to check whether the gNBs have been added or not. Once added, the gNB can be configured and managed on the NMS. 1. In the left navigation column, select “BTS Setting > Management Server” as shown in Figure 6-1.
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Figure 6-2 Performance Management 2. Input the performance management parameters, which descriptions are given in in Table 6-2. Table 6-2 Performance Management Parameter Description Parameter Description PM Enable or disable the performance management. ON: Enable OFF: Disable Alise The alise. URL http://localhost.
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1. In the left navigation column, select “BTS Setting > Sync Setting” to enter the synchronization configuration page, as shown in Figure 6-3. Figure 6-3 Synchronization Mode Setting 2. Select GPS source.  GPS  GLONASS  BEIDOU  GALILEO  QZSS 3. Input PPS time offset. Range is from 0 to 5,000,000ns. 4. Click “Save” to complete the synchronization setting.
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Figure 6-4 License Management Remain Time Indicates the remaining days of the License. If 0 is displayed, apply for a License and upload it to update it as soon as possible. Otherwise, the cell cannot be activated or user access is restricted. 2. Select the License file from the local computer. 3. Click “Import License” to upload the license file to the gNB. After the License file is uploaded, it will display in the license list. 6.
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Figure 6-5 Cell Management This version supports one cell.
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7. Configure NR Parameter 7.1 1. Configure LTE Neighbor Frequency and Cell In the left navigation column, select “NR Setting > LTE Freq/Cell” to enter the LTE neighbor frequency and cell configuration page, as shown in Figure 7-1. Figure 7-1 LTE Neighbor Frequency/Cell Settings Users can add, modify, and delete the LTE neighbor frequency and cell. Up to eight LTE neighbor frequencies and 16 LTE neighbor cells can be set. 2. Input TRSelectionNR. (Range from 0 to 7 integer) LTE Neighbor Frequency 3.
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Parameter Description neighboring gNBs, as determined by the received signal level at the UE. If the received signal level is better from a neighboring gNB by at least this amount of difference in dB, the UE will reselect the other cell. The range is -24 to +24. A typical value is 0dB. WideBandRsrqM The RSRQ measurement of the bandwidth. Range is 0 or 1. eas CellReselection Priority of the cell reselection to cells at this frequency. Range is Priority 0 to 7 (integer). A typical value is 4.
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Parameter Description N PhyCellID Physical Cell Identifier (PCI) of the neighbor cell. QOffset Frequency offset this neighbor cell. Indicates the difference in signal level between the serving and this neighboring eNB, as determined by the received signal level at the UE. If the received signal level is better from a neighboring eNB by at least this amount of difference in dB, the UE will reselect this cell. Range is +24 to -24. A typical value is 0dB. Cell minimum received level offset.
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Figure 7-2 NR Neighbor Frequency/Cell Settings Users can add, modify, and delete the NR neighbor frequency and cell. Intra Frequency Measurement 2. In the IntraFREQ Measurement list, click to enter the page for adding an intra frequency measurement, the parameter descriptions are given in Table 7-3.
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Parameter Description SSBFrequency The frequency of SSB. Range is from 0 to 3279165. SubcarrierSpacing The space between subcarriers. SmtcPeriodicity The period of (SSB-based RRM Measurement Timing Configuration) SMTC.  sf5  sf10  sf20  sf40  sf80  sf160 SmtcOffset The offset of SMTC. Range is from 0 to 159. SmtcDuration The duration time of SMTC. PLMN PLMN ID Inter Frequency Measurement 3.
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Parameter Description SSBlocksConsolidationS The consolidation of SSB blocks of Signal to Interference inr plus Noise Ratio (SINR). Range is from 0 to 127. NrofSSBlocksToAverage This parameter indicates the signal quality of a cell in NR measurement of SSB. Range is from 2 to 16. RsrpOffsetSSB The SSB offset of RSRP. Range is from 0 to 30. RsrqOffsetSSB The SSB offset of RSRQ. Range is from 0 to 30. SinrOffsetSSB The SSB offset of SINR. Range is from 0 to 30.
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Parameter Description dB, the UE will reselect this cell. Range is +24 to -24. A typical value is 0dB. 5. QRxLevMinOffsetCell Cell minimum received level offset. This parameter represents the cell’s minimum received level offset. It is used only when the UE resides in the VPLMN and cell selection is triggered due to periodic searches for high-priority PLMNS. Range is from 1 to 8. QQualMinOffsetCell Cell minimum received signal quality offset.
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Figure 7-3 SIB Setting The gNB supports SIB1 to SIB5.  SIB1 The parameter description of SIB1 is shown in Table 7-6. Table 7-6 SIB1 Parameter Description Parameter  Description QRxLevMinSIB1 The minimum received level of SIB1. Range is from -70 to -22. Qqualminoffset Cell minimum received signal quality offset. This parameter represents the cell’s minimum received signal quality offset. Range is from 1 to 8. QRxLevMinOffset Cell minimum received level offset.
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Table 7-7 SIB2 Parameter Description Parameter  Description Enable Enable or disable SIB2. Qhyst Delay time for re-selection. General the value of the parameter is 2. Range is from 0 to15. This parameter will overestimate the signal strength of the serving cell to delay the cell reselection. QRxLevMinSIB2 The minimum received level of SIB2. Range is from -70 to -22. SIntraSearchP The threshold of intra frequency measurement. Range is from 0 to 31. TReselectionNR Cell reselection timer for NR.
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 SIB5 The parameter description of SIB1 is shown in Table 7-10. Table 7-10 SIB5 Parameter Description Parameter Enable Enable or disable SIB5. SIB5 valueTag The tag of SIB5 value. Range is from 0 to 31. 7.4 1. Description Configure ANR In the left navigation column, select “NR Setting >ANR” to enter the ANR configuration page, as shown in Figure 7-4. Figure 7-4 ANR Settings 2. Input ANR parameters, the parameter description is shown in Table 7-11.
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Parameter 3. EUTRANEnable Enable or disable the EUTRAN.  ON: Enable  OFF: Disable BiNRCellEnable Enable or disable the BiNR cell.  ON: Enable  OFF: Disable MRTriggerType MR trigger type.  Event  Period AbsoluteThreshold Absolute threshold. Range is from 0 to 127. RelativeThreshold Relative threshold. Range is from -30 to 30. AbsEnable Enable or disable the Abs.  ON: Enable  OFF: Disable KPIPeriod The period of KPI. Range is from 0 to 3279165.
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Figure 7-5 XN Settings 2. In the XN list, click to pop up the XN configuration parameters. 3. Input XN parameters, the parameter description is shown in Table 7-12. Table 7-12 XN Parameter Description Parameter Description PLMNID PLMN ID RemoteAddress The remote IP address. XnLinkEnable Enable or disable the XN link.  ON: Enable  OFF: Disable XnHoEnable Enable or disable the XN handover.  ON: Enable  OFF: Disable BlackList IP IP addresses of the black list. 4.
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Figure 7-6 PCI Setting 2. Select whether enable the PCI conflict detection function. 3. Click “Save” to complete the PCI setting. 7.7 Configure Mobility Parameter In the left navigation column, select “NR Setting > Mobility Parameter” to enter the mobility parameter configuration page. The Mobility Parameter menu pertains to how roaming UE sessions are handled between different gNBs in the same service area. When a UE is actively connected to an gNB is referred to as the serving gNB or cell.
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Ms+Hys
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Parameter Description 2: Inter-RAT EUTRA measurement. The customized measurement event is from 10. Report Amount The number of report. Range is from 1 to 100. MaxNrofRSIndexToRe The maximum number of RS measurement report. Range port is from 1 to 32. 2. Report Interval The report interval of A1 event triggering report. Report Quantity The quantity of the measurement report. Report Quantity RS IDX The RS measurement report of the A1 event, including RSRP, RSRQ, and SINR.
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7.7.4 A4 Event Threshold The A4 event is triggered when the neighbor cell becomes better than the serving cell by as much as the relative threshold value. A4 event is used to the handover based on coverage of intra-frequency and inter-frequency.. 1. In the A4 list, click to display A4 event configuration parameters. 2. Input the value of A4 event, which is the same as A1 event, refer to Table 7-13. 3. Click “Save” to complete the A4 event threshold setting. 7.7.
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Parameter Description B1 Threshold1 EUTRA The SINR threshold value for triggering B1 event. SINR Range is from 0 to 127. 2. Hysteresis This parameter Refers to the hysteresis (historical records) of the handover measurement event. The value is used to avoid the frequent triggering of cell handover evaluation due to the fluctuation in wireless signals. This setting tells the UE, if you hear another gNB with at least this amount of dB better, initiate a handover.
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7.7.8 Period Measurement Parameter 1. In the Period Measure list, click to display period measurement configuration parameters, which are shown in Table 7-15. Table 7-15 Period Measurement Parameter Description Parameter 2. Description Report Quantity The RS measurement report of the V1 event, including RSRP, RSRQ, and SINR. Max Report Cells The maximum cells of reported. Range is from 0 to 8. Report Interval The report interval of A1 event triggering report.
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Parameter 2. Description NR N311 This parameter is used to indicate that the Pcell receives the maximum continuous “in-sync” message from the bottom layer. NR T319 RRC timer. When the gNB receives the RRCResumeRequest message, the timer starts up. F1ap Local IP The CU IP address in control plane of F1 interface. F1U IP The CU IP address in user plane of F1 interface. NGAP Local IP The local CU IP address of the NG interface. Click multiple IP addresses. NGU IP The IP address of the NGU.
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Parameter Description PAT2 of Downlink Symbols Subframe ratio. The special time slot downlink symbol configuration of PAT2. Range is from 0 to 13. PAT2 of Uplink Slots Subframe ratio. The uplink time slot configuration of PAT1. Range is from 0 to 320. PAT2 of Uplink Symbols Subframe ratio. The special time slot uplink symbol configuration of PAT1. Range is from 0 to 13. Max DL HARQ ReTX The maximum number of downlink HARQ retransmission. Range is from 0 to 4.
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Parameter Description 50. 2. SSB Absolute Freq The frequency point of SSB. Range is from 0 to 3279165. SsbResourceReserved The reserved resource of SSB.  ON: Enabled  OFF: Disabled Click “Save” to complete the SSB setting. 7.8.4 UL RSSI Measurement NOTE: In this software version, UL RSSI does not be supported. 7.8.5 DRX 1. Click + in the front of “DRX” to display Discontinuous reception (DRX) configuration parameters, as shown in Table 7-19.
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Parameter ShortDRXCycle ShortCycleTimer DRXSlotOffset 2. Description Short DRX period. The timer of DRX short period. Range is from 0 to 16.  If the value is set to 1, it means 1 * ShortDRXCycle.  If the value is set to 1, 2 * ShortDRXCycle And so forth. DRX Slot offset. Range is from 0 to 31. Click “Save” to complete the DRX setting. 7.8.6 Voice 1. Click + in the front of “Voice” to display the voice configuration parameters, as shown in Table 7-20.
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7.8.8 Multi PLMN 1. Click + in the front of “Multi PLMN” to display multi PLMN configuration parameters. 2. Whether enable multi PLMN. 3. Click “Save” to complete the multi PLMN setting. 7.9 1. Configure PLMN In the left navigation column, select “NR Setting > PLMN” to enter the PLMN configuration page, as shown in Figure 7-7. Figure 7-7 PLMN Settings 2. Click to display PLMN configuration parameters, as shown in Table 7-22. Table 7-22 PLMN Parameter Description Parameter 3.
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7.10 Configure BWP NOTE: In this software version, BWP does not be supported. 7.11 Configure SCS 1. In the left navigation column, select “NR Setting > SCS” to enter the Sub-carrier Space (SCS) configuration page, as shown in Figure 7-8. Figure 7-8 SCS Setting 2. In the DL SCS list, click to display the downlink SCS parameters, which description is shown in Table 7-23. Table 7-23 DL SCS Parameter Description Parameter Description SubcarrierSpacing The sub carrier spacing is 30kHz.
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7.12 Configure CSI 1. In the left navigation column, select “NR Setting > CSI” to enter the CSI configuration page, as shown in Figure 7-9. Figure 7-9 CSI Setting 2. Click to display CSI configuration parameters, the configuration parameter description is shown in Table 7-24. Table 7-24 CSI Parameter Description Parameter Description Csi Report Periodicity CSI report period Nr Subband Size NR sub-band size. Csi Report Config Type The configuration type of the CSI report.
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Parameter Format Ind 3. Description   widebandPMI subbandPMI Click “Save” to complete the CSI setting. 7.13 Configure SRS NOTE: In this software version, SRS does not be supported. 7.14 Configure PUSCH 1. In the left navigation column, select “NR Setting > PUSCH” to enter the PUSCH page, as shown in Figure 7-10. Figure 7-10 PUSCH Setting 2. Input the value of “UlMcsLimit”. Range is from 0 to 28. 3. Click “Save” to complete the PUSCH setting. 7.15 Configure PDSCH 1.
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Figure 7-11 PDSCH Setting 2. Input PDSCH configuration parameters, which description is shown in Table 7-25. Table 7-25 PDSCH Parameter Description Parameter 3. Description Power Control Enable or disable the power control function.  ON: Enable  OFF: Disable Power Control Value Start The start value of power control. Range is from -6 to 6. Power Control Value End The end value of power control. Range is from -6 to 6. DIMcsLimit The limit of uplink MCS. Range is from 0 to 28.
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Parameter Description   3. ON: Enable OFF: Disable ClpcPucchSinrEnable Enable or disable Clpc PUCCH SINR.  ON: Enable  OFF: Disable ClpcPucchBlerEnable Enable or disable Clpc PUCCH BLER.  ON: Enable  OFF: Disable Click “Save” to complete the PUCCH setting. 7.17 Configure QoS 1. In the left navigation column, select “NR Setting > QoS” to enter the QoS configuration page, as shown in Figure 7-13. Figure 7-13 QoS Setting 2.
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Parameter Description Enable Enable or disable QoS function. MappingDrbIndex Index 5QI 5QI Range is from 1 to 255. Type   Priority Priority Range is from 1 to 16. MinBr MinBr IsDefault Whether the QoS is default. UeInactivityTimerConifg UE inactivity Timer. TReorderingPdcp TReordering PDCP Range is from 0 to 35. TReorderingUE TReordering UE Range is from 0 to 35. DiscardTimer Discard timer. StatusReportRequired Enable or disable report status. PdcpSnSizeUl Uplink PDCP SN size.
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Parameter Description ShortDrxCycle Short DRX cycle. ShortDrxCycleTimer Short DRX cycle timer. DrbInactivityTimerConfig DRB inactivity timer. 3. In the SST list, click to display the SST configuration parameters, which description is shown in Table 7-28. Table 7-28 SST Parameter Description Parameter 4. Description SST Enable or disable SST. SstResourceType SST source type. MaxResourceReserved The maximum reserved resource. Range is from 0 to 273.
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Appendix A Terminology & Acronym Acronym Full Name AGL Above Ground Level ARP Address Resolution Protocol CBRS Citizen Broadband Radio Service CBRD CBRS Service Device CHAP Challenge Handshake Authentication Protocol CPI Certified Professional Installer CSFB Circuit Switched Fallback DHCP Dynamic Host Configuration Protocol DNS Domain Name System DRX Discontinuous Reception DSCP Differentiated Services Code Point ECI E-UTRAN Cell Identity EIRP Effective Isotropic Radiated Power E
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PDSCH Physical Downlink Shared Channel PLMN Public Land Mobile Network PPPOE Point to Point Protocol over Ethernet PRACH Physical Random Access Channel PRB Physical Resource Block PUCCH Physical Uplink Control Channel PUSCH Physical Uplink Shared Channel RRC Radio Resource Control RSRP Reference Signal Receiving Power RSRQ Reference Signal Receiving Quality RSSI Received Signal Strength Indicator SAS Spectrum Access System SFR Single Frequency Reuse SINR Signal to Interference plu
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Appendix B FCC Compliance This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.