46394382 NodeB Data Configuration V100R007

8/11/2019 46394382 NodeB Data Configuration V100R007

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HUAWEI TECHNOLOGIES CO., LTD. All rights reserved

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Internal

NodeB Data Configuration

V100R007


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HUAWEI TECHNOLOGIES CO., LTD. All rights reserved Page 2

Upon completion of this course, you

will be able to:

Master data configurationprocedure with CME

Master procedure of NodeB data

configuration


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References

WRAN CME User Guide

BTS3812E&BTS3812A Initial Configuration Guide

DBS3800 Initial Configuration Guide


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Chapter 1 Data Configuration Overview

Chapter 2 Configuring Physical Equipment

Chapter 3 Configuring Transport

Chapter 4 Configuring Local Cell

Chapter 5 Configuring Operation and Maintenance Channel


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Data Configuration Overview

Confi guration Tool CME


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CME for Initial Configuration in Network Commissioning

RAN Initial Data Configuration

Configuring data based on the RAN network planning

Exporting configuration data files

Loading the files to the RNC and NodeB through LMTs

CMEWizardsof thetask focused

Planned Radiodata

Cell RadioParametertemplates

NodeBTemplates

Script is downloaded

and activated

RAN

RNSRNC

NodeB

RNSRNC

NodeB


7/57HUAWEI TECHNOLOGIES CO., LTD. All rights reserved Page 7

CME for Data Modification in Network Expansion

CMEWizardsof thetask focused

Planned Radiodata

Cell RadioParametertemplates

NodeBTemplates

Script is downloadedand activated

Upload

RAN

RNSRNC

NodeB

RNSRNC

NodeB

RAN Data Modification Adding/deleting/modifying a RNC WRBS

Adding/deleting/modifying a NodeB

Adding/deleting/modifying a cell

Modifying algorithm setting for RNO


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Data Configuration Overview

Procedure of NodeB Data Configuration

Configuring

NodeB

Data

Configuring

Physical

Equipment

Configuring

Transport

Configuring

Local cell

Physical equipment must be configured first


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Physical

EquipmentConfiguration

Add NMPT

Add

NAOI/NDTI

Add UL BBResource Group

Add HBBI

Add NMON

NEMU/GPS

Add

NPMU

Add

NCMU

Add

NPSUAdd

Battery

Create

NodeB

Add MRRU

Chain/Ring

Add HBBU

Add NPMU for

MBBU

Add NPMU

For MRRU

Add MRRU

USED FOR 3812E&A USED FOR DBS3800

Add HBOIAdd

HULP/HDLP

AAdd

MTRU/MAFU

A

End

Procedure of Physical Equipment Conf iguration

Configuring Physical Equipment


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Configuring Physical Equipment

Creating NodeB

Adding NodeB basic data

The basic data includes NodeB name and

some basic NodeB data such as clockreference source, transmission line type,

IP address, time zone, and demodulation

mode

Note

A NodeB name must be unique in one RNS


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Configuring Physical EquipmentBTS3812E/A

Adding Boards to Baseband SubrackAdding boards to the baseband subrack

The board can be NMPT,NMON,HBBI,HBOI,HULP,HDLP,NDTI orNAOI board

Note

You must configure NMPT first, and configure HBBI beforeconfiguring MTRU and MAFU. NMPT, HBBI/HBOI and NDTI/NAOI(alternative) are mandatory

N

C

C

U

1 2 3 4 50 6 7 8 9 10 11 12 13 14 15 16 17

N

M

O

N

N

A

O

I

N

D

T

I

H

B

B

I

H

B

B

I

H

U

L

P

H

U

L

P

H

U

L

P

H

U

L

P

H

U

L

P

H

U

L

P

H

D

L

P

H

D

L

P

N

M

P

T

N

M

P

T

N

U

T

I


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Configuring Physical Equipment BTS3812E/A

Adding Boards to RF Subrack

Adding boards to the RF subrack. The board can be MTRU orMAFU board

Note

MTRU and MAFU have a one-to-one relationship

You must add HBBI first before you are adding MTRU andMAFU

MAFU0 MAFU1 MAFU2 MAFU3 MAFU4 MAFU5

MTRU0 MTRU1 MTRU2 MTRU3 MTRU4 MTRU5


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Configuring Physical Equipment BTS3812E/A

Adding UL Baseband Resource Group

Adding a UL baseband resource group and UL process units

Note

Each UL baseband resource group administrates up to six cells

Cells in the same frequency band shall be assigned in the same

UL baseband resource group

N

C

C

U

1 2 3 4 50 6 7 8 9 10 11 12 13 14 15 16 17

N

M

O

N

N

A

O

I

N

D

T

I

H

B

B

I

H

B

B

I

H

U

L

P

H

U

L

P

H

U

L

P

H

U

L

P

H

U

L

P

H

U

L

P

H

D

L

P

H

D

L

P

N

M

P

T

N

M

P

T

N

U

T

I


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Configuring Physical Equipment ----DBS3800

Adding HBBU

Adding an HBBU

Note

You can add only one HBBU to a NodeB


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Configuring Physical Equipment DBS3800

Adding MRRU Chain/Ring

Adding an MRRU chain or ring

Note

The MRRU chain or ring is configured

to the HBBU/HBOI CPRI ports

Each HBBU/HBOI has three CPRIports

The MRRU chain occupies one CPRI

port, and the MRRU ring occupies two

CPRI ports

Adding MRRUNote

For the data configuration of a distributed NodeB, each MRRU isconsidered as a subrack. The subrack number of an MRRU must beunique within the distributed NodeB system

Chain

Ring

Star


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Configuring Physical Equiment

Configuring GPS Receiver

GPS receiver is a peripheral of the

NodeB

It is used to locate UE

Antenna

Bracket

NodeB

Cabinet

JumperFeeder

TMA

Jumper

Jumper

Adding TMA

Adding a TMA

Adding RET

Adding a RET


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Sector 1 Configuring Transport over ATM

Sector 2 Configuring Transport over IP


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Configuring Transport over ATM

I ub Interface protocol over ATM

Control Plane

Transport Network

Control Plane

User plane

RadioNetworkLayer

Transport Network

User PlaneTransportNetworkLayer

Transport

Network

User Plane

NCP CCP

A B C

CCP

NBAP

SAAL UNI AAL2 PATH

Physical Layer

ALCAP

SAAL UNI

RACHF

P

FACHF

P

ATM


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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 LayerAAL Layer

VBR-NRT

AAL5AAL1 AAL2

VBR-RT

VPI-10

CES

AAL2 PATH

NCP or CCP or ALCAP or IPoA

IMA/UNI/STM-1

AAL2PathRNC

NodeBNCP

CCP 1~n RNC

Control

Plane ALCAP

NodeB

User

Plane

Adjnode

I ub Interface protocol



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TransportConfiguration

Create NodeB

Add NAOI

Add FractionalATM

Add UNI LINKAdd IMA Group

Add NDTI/HBBU

Add IMA Link

Add Treelink PVCAdd NCP/CCP/

IPoA DeviceAdd ALCAPAdd CES

(only3812E&A)

Add AAL2 Path

Add Time SlotAcross

Add STM-1 Link

End


Procedure of Transport Conf iguration


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Configuring Physical Links at Transport Layer

Adding the physical links to the NodeB for data transmissionover Iub interface

Note

An E1/T1 port can be configured to any of the following links for

data transmission: UNI link

Fractional ATM link

IMA link

CES linkAn optical port can be configured to any of the following links for

data transmission:

STM-1 link


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Board type Port number Work mode

NDTI

E1/T1 port No.0

IMA,UNI,

CES, Fractional ATM,Timeslot cross (connect with RNC)

E1/T1 port No.1 IMA,UNI,

CES, Fractional ATM

E1/T1 port No.2~3 IMA, UNI,

Timeslot cross

(connect with lower level NodeB)

E1/T1 port No.4~7 IMA,UNI

NAOIE1/T1 port No.0~3 CES

Optical port No.0~1 STM-1


Physical Links Configuration

Physical ports(BTS3812E&A)


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Physical ports(DBS3800)

Board type Port number Work mode

HBBU

E1/T1 port No.0IMA,UNI,

Fractional ATM,

Timeslot cross (connect with RNC)

E1/T1 port No.1 IMA,UNI,

Fractional ATM

E1/T1 port No.2~3 IMA, UNI,Timeslot cross

(connect with lower level NodeB)

E1/T1 port No.4~7 IMA,UNI


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Physical Links ConfigurationAdd an UNI link

Header

256 bits/125 ls

ATM cell mapping field: 30 octets (TS1 - TS15 and TS17 - TS31)

TS0 provides F3 OAM functions:Performance monitoring (CRC-4)

Transmission of FERF and LOC

Performance reporting

Detection of loss of frame alignment

Header

Header

Header

TS16: Reserved for signaling

ATM cell 53 octets

Header


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Physical Links

Configuration

Add an IMA Group

PHY

PHY

PHY

PHY

PHY

PHY

ATMOriginal ATM cell streamfrom ATM layer

IMA group Physical I ink #0 IMA group

Recovered ATM cell

stream to ATM layer

Physical I ink #1

Physical I ink #2

IMA virtual link


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Add an IMA link to an IMA group

IMA Link No. : defines the E1/T1 No. on the NDTI/HBBU

IMA Frame 2 IMA Frame 1 IMA Frame 0

ATM ATM ICP2F

...

F ATM

...

F ATM ATM ICP2 F

...

F ATM ICP1

...

ATMICP1

...

ATM ICP1

...

ATM ICP0

...

ATMICP0 F

...

ATM ICP0

...

ATM

F ATMICP2

FF

ATM ATM ATMF F ATM

F

ATM F FLink 0

Link1

Link2

Time

F ATM ICP2Filler cell ATM layer cell ICP cell in frame #2

0123m-10123m-1 0123m-1

F ATM ATM ATM


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Configuring Transport over ATM Physical Links Configuration

Adding a Fractional ATM Link

Bearing port No. : defines the E1/T1 No. on the NDTI

BTS38XXNDTI

RNC Iubinterface

board

NDTI E1 0/1Fractional ATM linkATM cell carrying

3G data

Fractional E1 slots available for ATMcell, others may be used by 2G BTS

Transport other information

rather than ATM cell


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Adding a Timeslot Across Channel

Add the corresponding Fractional ATM link onNDTI/HBBU E1/T1 0 first

BTS38XX

NDTI

RNC Iub

interfaceboard

timeslots available on

NDTI No.2/3 E1/T1

ATM cell carrying 3G data

2G BTS data 2G BSC data

Fractional ATM Link

Timeslot across channel

NDTI No.0 E1/T1

Fractional E1/T1timeslots are used

by Fractional ATM; other timeslotsare used by timeslot across channel


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Adding a CES Channel If NDTI is used, NDTI No.0/1 E1 is directly connected to 2G BTS

If NAOI is used, NAOI E1/T1 is directly connected to 2G BTS

BTS38XX

NDTI/NAOIRNC Iub

interface

board

E1/T1, some

timeslots available

ATM cell transport

2G BTS data 2G BSC data

CES channel

E1/T1 timeslot data

packed into ATM cellE1/T1 timeslot data

restored from ATM cell

3G data packed

into ATM cell

E1/T1, some

timeslots available


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Adding NCP

Adding the NCP to the Iub interface

Note

Only one NCP is configured to the NodeB Negotiated with the peer end RNC

VPI and VCI of NCP

Traffic over the NCP includes: Service type,

Peak cell rate , Sustain cell rate


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Adding CCP

Adding a CCP to the Iub interface

Note

One NodeB supports multiple CCPs Negotiated with the peer end RNC

CCP No.

VPI and VCI of CCP

Traffic over the CCP includes: Service type, Peakcell rate , Sustain cell rate


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Adding ALCAP Node and link

Adding the ALCAP node to the NodeB and an ALCAPlink to the Iub interface

Note

One NodeB is configured with only one ALCAP link

Negotiated with the peer end RNC

ATM address of NodeB

VPI and VCI of the ALCAP link

Traffic over the ALCAP link includes :Service type,Peak cell rate , Sustain cell rate


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Adding AAL2 Path

Adding an AAL2 path to the Iub interface

Note

One NodeB may have multiple AAL2 paths The number of paths can be calculated based on the

traffic model over the Iub interface


AAL2 path ID

VPI and VCI of the AAL2 path Traffic over the AAL2 path includes :Service type,

Peak cell rate , Sustain cell rate


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Configuring Transport over ATMArchitecture of Treeli nk PVC

ATM physical layer bearer

ATM layer (PVC)

RNCBTS38XX(A) BTS38XX(B)

AAA

Transport Physical medium

AAL layer and higher layer


ATM layer PVC


TREELINK

PVC

D

E1/T1 or Optical fiber E1/T1 or Optical fiber


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VPI Planning for VP-only Switching Treelink PVC


ATM layer (PVC)

RNCBTS38XX (A) BTS38XX (B)

AAA


AAL layer and the higher layer


ATM layer PVC


TREE

LINK

PVC

D

E1/T1 or Optic fiber E1/T1 or Optic fiber

VPI range: (6, 6) VPI range: (7, 7) VPI range: (8, 8)

BTS38XX (C)


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Sector 1 Configuring Transport over ATM

Sector 2 Configuring Transport over IP

C fi i T t IP


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Configuring Transport over IPI ub interface protocol over I P

Control Plane User Plane

RadioNetworkLayer

TransportNetworkLayer

Transport NetworkUser Plane

NCP CCP

A C

CCP

NBAP

Data Link Layer

Physical Layer

Data Link Layer

RACHF

P

FACHF

P

IP

UDP

IP

SCTP

USCHF

P

CPCHF

P

Transport NetworkUser Plane


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Configuring Transport over IP

Configurethe IP Route

Configure the MPConfigure the PPP Configure thePPPoEConfigure theEthernet IP

NodeB

Configure

the QoS(optional)

IP Route

Configurethe NBAP

IP Route

Configure

the OM

Configure

the IP path

Start

End


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C fi i T t IP


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Configuring Transport over IP Configure the IP route

If 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 subnet

If 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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Configure the QoSTo 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

MPLS

IP QoS supports the switching between the IP precedence and DSCP

The IP QoS configuration is flexible


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Configure the NBAP

Configure destination IP address & local IP interface, port type and

port number

The IP routes for destination addresses are available

Only one NCP can be configured

Several CCPs can be configured

The destination IP address, local port number, and destination port

number of the NCP/CCP on the same link should be different

When 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 Based on IP

Configure the OM

Ensure that the route from the

LMT (or M2000) to the subnet is

configured

Only one OM channel can be

configured

If you choose an OM channel inthe 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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Configure the IP path

The IP routes for destination addresses are available

The 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 noservice priority at the NodeB side. Therefore, configure one IP path at

the NodeB side

If 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 2 Configuring Physical Equiment





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Configuring Local Cell

Procedure of L ocal Cell Conf iguration

Add

Site

Add

Sector

Add

Local

Cell

Locall

cell


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Configuring Local Cell

Adding Site

Adding a site to the NodeB

Note

A site number within one

NodeB must be unique.

Adding Sector

Adding a sector to the NodeB

Note

A sector number must be unique within one NodeB

Configuring a sector is mainly configuring the corresponding

antenna and feeder system


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Chapter 2 Configuring Physical Equiment





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Configuring Operation and Maintenance Channel

NodeB provides two modes of operation andmaintenance:

Near end operation and maintenance:

Far end operation and maintenance:

RNC

SNTP Server

M2000

Subnet 2 Subnet 3

IPoA local IP

IPoA Peer IP

RNC BAM IP

Subnet 5

Subnet 4

LMT 2

LMT1

Subnet 1

BTS3812E

NMPT EthernetPort IP address


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Operation and Maintenance Channel Configuration

I PoA maintenance conf iguration

LocalBTS3812E

IP1

Lower levelNode B

RNC LMT

IP4IP3

IP0BTS3812ENMPT ETH IP IP2

IP5IP6

The route to LMT

(IP4), SNTP Server,

gateway: IP2

(A) Configure IPoA

(B) local IP: IP1

IPoA peer

IP: IP2

(C) Configure LMT

EthernetIP: IP4

(D) Configure the

route to

BTS3812E (IP1),

gateway:IP3

Configure the route to

lower NodeB (IP6),

gateway:IP3

(B) Configure

networking PVCIPoA peer

IP:IP5

The route to

LMT(IP4)

gateway:IP5 Configure IPoA

local IP: IP6


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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 login to the NodeB remotely with the LMT or the M2000

Note

You can add only one IPoA maintenance channel to aNodeB


Local IP and Local IP Mask

Peer IP and Peer IP Mask

VPI/VCI

Service Type


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46394382 NodeB Data Configuration V100R007

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