dbs3800 data configuration(dbs3800v100r007)
DESCRIPTION
DBS3800 Data ConfigurationTRANSCRIPT
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Physical Layer
VPI-10
VPI-20
VCI-100
VCI-101
VCI-100
VCI-101
ATM Cell
segmentation packing
Iub data
CBR
E1/T1/SDH(STM-1)
ATM Layer
AAL Layer
VBR-NRT
AAL5
AAL1
AAL2
VBR-RT
VPI-10
IMA/UNI/STM-1
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Configuring Transport over ATMProcedure of Transport ConfigurationTransportConfigurationCreate NodeBAdd Fractional ATMAdd UNI LINKAdd IMA GroupAdd HBBUAdd IMA LinkAdd Treelink PVCAdd NCP/CCP/IPoA DeviceAdd ALCAPAdd AAL2 PathAdd Time SlotAcrossEndEnd
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Configuring Transport over ATMPhysical Links ConfigurationPhysical ports(DBS3800)
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Configuring Transport over ATMPhysical Links ConfigurationAdd a UNI link
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Configuring Transport over ATMPhysical Links ConfigurationAdd an IMA Group
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Configuring Transport over ATMPhysical Links ConfigurationAdd an IMA link to an IMA group IMA Link No. : defines the E1/T1 No. on the HBBU
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Configuring Transport over ATMPhysical Links ConfigurationAdding a Fractional ATM LinkBearing port No. : defines the E1/T1 No. on the HBBU
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DBS3800HBBU
RNC Iub interface board
HBBU E1 0/1
Fractional ATM link
ATM cell carrying 3G data
Fractional E1 slots available for ATM cell, others may be used by 2G BTS
Transport other information rather than ATM cell
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Configuring Transport over ATMPhysical Links ConfigurationAdding a Timeslot Across Channel Add the corresponding Fractional ATM link on HBBU E1/T1 0 first
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DBS3800HBBU
RNC Iub interface board
timeslots available on HBBU No.2/3 E1/T1
ATM cell carrying 3G data
2G BTS data
2G BSC data
Fractional ATM Link
Timeslot across channel
HBBU No.0 E1/T1
Fractional E1/T1timeslots are used by Fractional ATM; other timeslots are used by timeslot across channel
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Configuring Transport over ATMAdding NCPAdding the NCP to the Iub interfaceNoteOnly one NCP is configured to the NodeBNegotiated with the peer end RNC VPI and VCI of NCPTraffic over the NCP covers: Service type, Peak cell rate , Sustain cell rate
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Configuring Transport over ATMAdding CCP Adding a CCP to the Iub interfaceNoteOne NodeB supports multiple CCPs Negotiated with the peer end RNC CCP No.VPI and VCI of CCPTraffic over the CCP covers: Service type, Peak cell rate , Sustain cell rate
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Configuring Transport over ATMAdding ALCAP Node and link Adding the ALCAP node to the NodeB and an ALCAP link to the Iub interfaceNoteOne NodeB is configured with only one ALCAP linkNegotiated with the peer end RNC ATM address of NodeBVPI and VCI of the ALCAP linkTraffic over the ALCAP link covers: Service type, Peak cell rate , Sustain cell rate
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Configuring Transport over ATMAdding AAL2 Path Adding an AAL2 path to the Iub interfaceNoteOne NodeB may have multiple AAL2 pathsThe number of paths can be calculated based on the traffic model over the Iub interfaceNegotiated with the peer end RNCAAL2 path IDVPI and VCI of the AAL2 pathTraffic over the AAL2 path covers: Service type, Peak cell rate , Sustain cell rate
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Configuring Transport over ATMAdding Tree link PVCAdding a Treelink PVC to the lower level NodeBThe Treelink PVC enables the NodeB to connect with its upper level node and lower level NodeB through different E1/T1 portsNoteOptional for NodeB initial configurationAdd Treelink PVCs to all the upper level NodeBs when is the NodeB is cascaded with the other NodeBsNegotiated with the lower level NodeB PVC to lower level NodeBNegotiated with the upper level NodeB PVC to upper level NodeB
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Configuring Transport over ATMArchitecture of Treelink PVC
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ATM physical layer bearer
ATM layer (PVC)
RNC
DBS3800(A)
DBS3800(B)
A
AA
Transport Physical medium
AAL layer and higher layer
ATM physical layer bearer
ATM layer PVC
Transport Physical medium
TREELINK PVC
D
E1/T1 or Optical fiber
E1/T1 or Optical fiber
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Configuring Transport over ATMVPI Planning for VP-only Switching Treelink PVC
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ATM physical layer bearer
ATM layer (PVC)
RNC
DBS3800(A)
DBS3800 (B)
A
AA
Transport Physical medium
AAL layer and the higher layer
ATM physical layer bearer
ATM layer PVC
Transport Physical medium
TREELINK PVC
D
E1/T1 or Optic fiber
E1/T1 or Optic fiber
VPI range: (6, 6)
VPI range: (7, 7)
VPI range: (8, 8)
DBS3800 (C)
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Chapter 3 Configuring TransportSector 1 Configuring Transport over ATMSector 2 Configuring Transport over IP
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Configuring Transport over IPIub interface protocol
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Configuring Transport over IP
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Configuring Transport over IPConfigure the PPP, MP, PPPoE, and Ethernet IP In a single transport mode, configure one type of transport links. In hybrid transport mode, configure E1 and FE transport links.For E1 links, configure PPP or MP.For FE links, configure PPPoE or Ethernet IP. IP hybrid transmission
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Configuring Transport over IPConfigure the IP routeIf the gateway type of the route is Ethernet, the next hop address and the gateway IP address must be in the same network segment If the NodeB and RNC are in layer 2 networking The IP addresses of the FE ports on the NodeB and RNC should be in the same subnetIf the NodeB and RNC are in layer 3 networking The next hop address is the IP address of the router that connects to the NodeB or the IP address of the port on a layer 3 switch.The destination address of packets has the corresponding route in the routing table.The corresponding link layer address can be found only when the router specifies the next hop IP address (gateway).Configure just one route to the same destination address.
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Configuring Transport over IPConfigure the QoS To configure signaling and OM priorities IP Quality of Service (QoS) is an IP network capability to provide specific services over the IP network that uses mutiple bottom-layer network technologies such as MP, FR, ATM, Ethernet, SDH, and MPLSIP QoS supports the switching between the IP precedence and DSCPThe IP QoS configuration is flexible
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Configuring Transport over IPConfigure the NBAPConfigure destination IP address & local IP interface The IP routes for destination addresses are availableOnly one NCP can be configured Several CCPs can be configuredThe destination IP address, local port number, and destination port number of the NCP/CCP on the same link should be differentWhen you choose one NCP/CCP on the NBAP tab page, the corresponding links are displayed in the middle part, and the corresponding routes are displayed in the lower part
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Configuring Transport over IPConfigure the OMEnsure that the route from the LMT (or M2000) to the subnet is configuredOnly one OM channel can be configuredIf you choose an OM channel in the upper part of the OM tab page, the corresponding route is displayed in the lower part The destination IP address of the OM channel is the IP address of the NodeB LMT or M2000
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Configuring Transport over IPConfigure the IP pathThe IP routes for destination addresses are availableThe IP path does not have bandwidth limit. Therefore, to configure the IP path is to differentiate service priorities. When the HSDPA service is transmitted, configure two IP paths with different path IDs. The two paths correspond to R99 service and HSDPA service. There is no service priority at the NodeB side. Therefore, configure one IP path at the NodeB sideIf you choose one path on the upper part of the IP path tab page, the corresponding links are displayed in the middle part and the corresponding route is displayed in the lower part
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Chapter 1 Data Configuration OverviewChapter 2 Configuring Physical Equiment Chapter 3 Configuring TransportChapter 4 Configuring Local Cell Chapter 5 Configuring Operation and Maintenance Channel
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Configuring Local cell Procedure of Local Cell ConfigurationAddA SiteAddA SectorAddA LocalCellA LocalCell
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Configuring Local cell Adding SiteAdding a site to the NodeBNoteA site number within the same NodeB must be unique.Adding Sector Adding a sector to the NodeBNoteA sector number must be unique within the same NodeBConfiguring a sector is mainly configuring the corresponding antenna and feeder system
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Configuring Local cell Adding Local Cell Adding a local cell to the NodeBNoteLocal Cell ID must be unique within the same NodeBNegotiated with the peer end RNCLocal Cell IDUplink FrequencyDownlink Frequency
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Chapter 1 Data Configuration OverviewChapter 2 Configuring Physical Equiment Chapter 3 Configuring TransportChapter 4 Configuring Local Cell Chapter 5 Configuring Operation and Maintenance Channel
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Configuring Operation and Maintenance Channel NodeB provides two modes of operation and maintenance:Near end operation and maintenance: Far end operation and maintenance:
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Operation and Maintenance Channel ConfigurationIPoA maintenance configuration
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Configuring Operation and Maintenance Channel Adding IPoA Device Configuring an IPoA maintenance channel to the NodeB Through the IPoA maintenance channel, you may log in to the NodeB remotely form the LMT or the M2000NoteYou can add only one IPoA maintenance channel to a NodeBNegotiated with the peer end RNC Local IP and Local IP MaskPeer IP and Peer IP MaskVPI/VCIService Type
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The information of the server Name: user-defined CME server name IP Address: IP address of the CME server Port: port numberThe default port number of the CME server is 1433. User Name: user name for logging in to the CME serverThe default user name is sa. Password: password for logging in to the CME serverThe default password is sql.
The HSDPA supported baseband unit (HBBU) consists of:Baseband processing moduleTransport moduleControl moduleInterface module
Parameter DescriptionIUB Clock Source: If the NodeB reference clock source is an Iub clock source, you need to determine from which link the 8 kHz clock signal is extracted.Parameter DescriptionRRU Chain No.: Unique number of the RRU chainChain Type: Value range: chain, ring Head Port No.: The number of the HBBU/HBOI CPRI port number where the RRU chain head is located.Break Position 1: Break position 1 for the new RRUIf it is set to OFF, the new RRU is located at the end of the chain. Tail Port No.: The number of the HBBU/HBOI CPRI port where the chain tail is located.This port number is valid only when it is an RRU ring. Break Position 2:Break position 2 for the new RRU.This break position is valid only when it is an RRU ring. A HBBU provides 8 E1/T1 PortsPort 0 and 1 support fractional ATM work modePort 0,2 and 3 support timeslot cross technique (port 0 is fixed to connect with RNC, while port 2 and 3 are connect with lower level NodeB)Port 0~7 support IMA and UNI work modeE1 ports are used to connect with the lower level equipment in CES
The UNI mode is an ATM transport mode in the TC sublayer of ATM physical layer. In UNI mode, ATM cells are directly mapped to the valid timeslots of a single E1/T1. This mode is a non-IMA E1/T1 mode for ATM cell transport.Figure A-4 shows the mapping of the ATM cells to E1 timeslots in UNI mode. As shown in the figure, the 53 bytes of an ATM cell are sequentially filled in 53 timeslots of an E1. Note: timeslots 0 and 16 of the E1 do not bear any ATM data. 125us=1/(2*4000)256bit=32*8bitThe Inverse Multiplex on ATM (IMA) mode is an ATM transport mode in the TC sublayer of ATM physical layer IMA flexibly combines several narrowband transport links to transport high-speed ATM cell streams, which is referred as inverse multiplex on ATM. By this way the existing narrowband transport links, especially two Mbit/s links, can serve broadband ATM transmission. IMA also enhances transmission reliability.
As shown in Figure, several ATM cells, IMA control protocol (ICP) cells and filler cells form an IMA frame. The length "m" of the frame is defined when IMA group is configured. In IMA mode, the mapping of cells to each physical link transmission frame, such as E1/T1 link, is similar to that implemented in UNI modeAn NDTI supports eight E1/T1 links. Each link can be configured as UNI link or IMA link. An IMA group contains up to eight E1/T1 links. The E1/T1 links in an IMA group must belong to the same NDTI. The Fractional ATM mode is an ATM transport mode in the TC sublayer of ATM physical layer. In fractional ATM, ATM cells are transmitted using some of the 32 E1/T1 timeslots. AMT cells are mapped to some of the E1/T1 timeslots, instead of all of the timeslots. At the peer end, the ATM cell stream is recovered from these E1/T1 timeslots. The timeslots that are unavailable for ATM cell transmission can transmit other information.NDTI No.0 E1 is directly connected to RNC or the upper level NodeB.No.2 or 3 E1 of the same NDTI is connected to 2G BTS or monitoring device Timeslot across channel affects the PM sublayer of ATM physical layer. Parts of the timeslots in BTS38XX NDTI E1/T1 port 2/3 are connected with those in E1/T1 port 0. The data transported on these timeslots of the NDTI E1/T1 port 2/3 are directly switched to the corresponding timeslots in NDTI E1/T1 port 0 and then sent out. On the receipt end, the data on the timeslots of the port corresponding to NDTI E1/T1 0 are switched to the port connecting with 2G BSC. The timeslot across channel serves to transport environment monitor data or 2G equipment data. ParameterDescriptionVPIThe virtual path identification over the link.Value. range: 0 to 29VCIThe virtual channel identification over the link.Value. range: 32 to 127Service TypeThe type of service carried on the link.Value range: CBR: ATM path of constant bit rate RTVBR: ATM path of real time variable bit rate NRTVBR: ATM path of non-realtime variable bit rateIf the value is CBR, only the PCR needs to be configured. If the value is RTVBR or NRTVBR, both the PCR and SCR need to be configured. Default value: CBRPeak Cell Rate (kbps)To set the maximum transport rate for the ATM cellSustain Cell Rate (kbps)To set the average transport rate for the ATM cell Virtual Port No.To set the numbers of the E1/T1 ports for NCP data transmissionParameterDescriptionCCP No.The number of the CCP port.Value range: 0 to 65535It is valid when NCP/CCP Port Type is set to CCP.Default value: 0VPIThe virtual path identification over the link.Value. range: 0 to 29VCIThe virtual channel identification over the link.Value. range: 32 to 127Service TypeThe type of service carried on the link.Value range: CBR: ATM path of constant bit rate RTVBR: ATM path of real time variable bit rate NRTVBR: ATM path of non-realtime variable bit rateIf the value is CBR, only the PCR needs to be configured. If the value is RTVBR or NRTVBR, both the PCR and SCR need to be configured. Default value: CBRPeak Cell Rate (kbps)To set the maximum transport rate for the ATM cellSustain Cell Rate (kbps)To set the average transport rate for the ATM cell Virtual Port No.To set the numbers of the E1/T1 ports for CCP data transmission
ParameterDescriptionATM AddressThe ATM address of the NodeBA hexadecimal character string of 20 bytes (excluding H'). Format: H 394703A405B60708CD00010AF304050EB7080900Note that the length of one byte here equals to that of two characters. Therefore, you must specify a hexadecimal string of 40 characters.VPIThe virtual path identification over the link.Value. range: 0 to 29VCIThe virtual channel identification over the link.Value. range: 32 to 127Service TypeThe type of service carried on the link.Value range: CBR: ATM path of constant bit rate RTVBR: ATM path of real time variable bit rate NRTVBR: ATM path of non-realtime variable bit rateIf the value is CBR, only the PCR needs to be configured. If the value is RTVBR or NRTVBR, both the PCR and SCR need to be configured. Default value: CBRPeak Cell Rate (kbps)To set the maximum transport rate for the ATM cellSustain Cell Rate (kbps)To set the average transport rate for the ATM cell Virtual Port No.To set the numbers of the E1/T1 ports for ALCAP data transmission
ParameterDescriptionAAL2 path IDThe AAL2 paths ID over the Iub interfaceValue range: 1 to 4294967295VPIThe virtual path identification over the link.Value. range: 0 to 29VCIThe virtual channel identification over the link.Value. range: 32 to 127Service TypeThe type of service carried on the link.Value range: CBR: ATM path of constant bit rate RTVBR: ATM path of real time variable bit rate NRTVBR: ATM path of non-realtime variable bit rateIf the value is CBR, only the PCR needs to be configured. If the value is RTVBR or NRTVBR, both the PCR and SCR need to be configured. Default value: CBRPeak Cell Rate (kbps)To set the maximum transport rate for the ATM cellSustain Cell Rate (kbps)To set the average transport rate for the ATM cell Virtual Port No.To set the numbers of the E1/T1 ports for AAL2PATH data transmission
ParameterDescriptionCascade NodeB Band Width:The bandwidth of transport links to cascaded NodeB sValue range: E1: 30 to 1920T1: 30 to 1536 The available PVC bandwidth depends on the bandwidth of the physical port in use. If the parameter value exceeds the physical port bandwidth allowed, the system returns an error message.Source Port:VPI and VCI at the source portValue range: VPI 0 to 29, VCI 32 to 127Source Virtual Port:The number of E1/T1 port for data transmission at the source node, namely, the upper level NodeBDestination Port:VPI and VCI at the destination portValue range: VPI 0 to 29, VCI 32 to 127Destination Virtual Port:The number of E1/T1 port for data transmission at the destination node, namely, the lower level NodeB.This value must be different from the source Node number.
Note:The treelink PVC provides ATM switching routes for all the PVCs of the cascaded lower-level NodeB, including NCP, CCP, ALCAP, AAL2 path, and IPoA PVC.For VP switching, the VPIs in the treelink PVC connecting to the upper level and lower level nodes must not fall within the NodeB VPI range.For VC switching, the VPIs in the treelink PVC connecting to the upper level and lower level nodes must fall within the NodeB VPI range or be set to 1.
Planned dataNumber of virtual port connected to upper level NodeNumber of virtual port connected to lower level Node According to the TCP/IP protocol stack, configure the IP transport data starting from the bottom layer as follows:Physical layer: uses E1/T1 or Ethernet cables. Set the parameters in the properties of the interface boards. For more information, refer to sections 6.4.3 6) and 6.4.3 10)Data link layer: involves PPP, MP, PPPoE, and Ethernet IPIP layer: IP addresses and route data is configured.Radio network layer: The NCP, CCP, and IP path are configured. ParameterDescriptionSite No.A site number must be unique in the NodeB. Site NameA site name is named after its physical location.ParameterDescriptionLocal Cell IDConsistent with RNC.Local cells include intra-sector cells and intra-frequency cells.Value range: 0 to 228-1Uplink FrequencyConsistent with RNC.Value. range: 0 to 65535 Unit: 0.2 MHzDownlink FrequencyConsistent with RNC.Value. range: 0 to 65535 Unit: 0.2 MHzCell RadiusCell radius depends on network planning.Cell Inner Handover RadiusThe value must be less than or equal to Cell Radius.Desensitization IntensityThe desensitization intensity of the cell.To set desensitization intensity is to decrease the receiver sensitivity by adding some noise to the receive signals. Thus, the UL coverage and the DL coverage of the NodeB match.Max Transmit PowerKeeps consistent with the RNC, depending on network planning.Value range: 0 to 500 (within the power range allowed by the MRRU) Unit: 0.1 dBmTRU No1The Tx unit of the cellTRU No2The Tx unit of the cell. The parameter is valid only when the sector is set to Tx diversity mode.HSDPA CapabilityTo enable or disable the HSDPA functionCQI Weightor (%)The parameter is valid only when the HSDPA function is enabled.ParameterDescription\
The local IP address of the IPoA device and that of the NodeB cannot stay within the same network segment. The local IP address of the IPoA device and that of the peer end must stay within the same network segment.