Wavence UBT Installation MOP

MOP Document

X☐Regulated document

Document Version 1

Document status Approved

Creation Date 2022-08-11

Creator Shady Shawky

Function Technical Manager

Approver Arvin Ramballee

Approval Date 2022-08-11

Expiry Date 2022-11-10

Doc Location MEA Supplier Onboarding Home - Home (sharepoint.com)

Change History

Version Handled by Approved by Approval Date Comments

1 Shady Shawky 2020-04-19

2 Shady Shawky Arvin Ramballee 2022-08-08

This material, including documentation and any related computer programs, is protected by
copyright controlled by Nokia. All rights are reserved. Copying, including reproducing, storing,
adapting or translating, any or all of this material requires the prior written consent of Nokia.
This material also contains confidential information, which may not be disclosed to others
without the prior written consent of Nokia.

Wavence UBT Installation MOP © Nokia 2022

Contents
1 Introduction .......................................................................................................................... 5

1.1 Scope Description ................................................................................................................ 5

1.2 Project Contact information ............................................................................................... 6
1.3 Equipment overview............................................................................................................. 7
1.3.1 UBT architecture................................................................................................................... 7
1.3.2 MSS ......................................................................................................................................... 10
1.3.3 Ethernet Access Cards (EAC) ............................................................................................... 12
2 Equipment Assembling ........................................................................................................ 14

2.1 AIM installation...................................................................................................................... 14

2.1.1 AIM RFID ................................................................................................................................. 14
2.1.2 AIM installation on UBT-S .................................................................................................... 15
2.1.3 AIM-T-O installation on UBT-T ........................................................................................... 17
2.1.4 UBT-S/UBT-T installation on Antenna............................................................................... 18
2.2 UBT-S/UBT-T Polarization................................................................................................... 18
2.2.1 UBT-S Polarization ............................................................................................................... 18
2.2.2 AIM-T-O with UBT-T Polarization ....................................................................................... 19
2.2.3 AIM-T-D with UBT-T Polarization ....................................................................................... 20
2.3 UBT Couplers ........................................................................................................................ 20
2.3.1 UBT OMT-C Coupler ............................................................................................................. 20
2.3.2 OMT-C 6-7-8Ghz Sway bar ................................................................................................. 23
2.3.3 Hybrid coupler 7/8 GHz 3 dB .............................................................................................. 24
2.4 Mounting Plate installation (non-integrated antenna) ................................................... 25
2.4.1 Co Polar - Mounting Plate 1 ................................................................................................ 25
2.4.2 Fixation points ...................................................................................................................... 26
2.5 Grounding for UBT ............................................................................................................... 27
2.5.1 Dual Polar - Mounting plate 2 ............................................................................................. 28
2.6 Antenna installation ............................................................................................................. 29
2.7 UBT Connectors .................................................................................................................... 29
2.7.1 UBT Connector Types .......................................................................................................... 29

Wavence UBT Installation MOP © Nokia 2022

2.7.2 UBT Connectors Installation ............................................................................................... 30
2.7.3 Coaxial cable Components.................................................................................................. 30
2.8 Caps for unused ports ......................................................................................................... 31
2.9 MSS-UBT Physical Connection ............................................................................................ 31
2.10 Data Connection ................................................................................................................... 32
2.11 Power Connection ................................................................................................................ 32
2.11.1 Power Components to of Coaxial cable to CB: ................................................................ 33
2.12 OCM Installation ................................................................................................................... 35
2.12.1 Assembling OCM on Pole Mounting ................................................................................... 35
2.12.2 OCM CP Antenna connection with Flex-twist ................................................................... 37
2.12.3 OCM AP Antenna connection with Flex-twist ................................................................... 37
2.12.4 Assembling UBT-T on OCM Unit ......................................................................................... 38
2.12.5 Recommended UBT-T cables routing ............................................................................... 38
3 Link Configuration ................................................................................................................ 40

3.1 Legend ................................................................................................................................... 40

3.2 UBT-S Links Configuration .................................................................................................. 40
3.2.1 UBT-S 1+0 Integrated antenna .......................................................................................... 40
3.2.2 1+0 nonintegrated antenna ............................................................................................... 41
3.2.3 1+1 HSB SD Integrated antenna ........................................................................................ 41
3.2.4 1+1 HSB SD nonintegrated antenna ................................................................................. 42
3.3 UBT-T ..................................................................................................................................... 43
3.3.1 1+0 integrated ...................................................................................................................... 43
3.3.2 1+0 non-integrated ............................................................................................................. 44
3.3.3 2+0 XPIC Integrated............................................................................................................. 44
3.3.4 2+0 XPIC non-integrated .................................................................................................... 45
3.3.5 2+2 XPIC_SD integrated ...................................................................................................... 45
3.3.6 2+2 XPIC_SD Non-Integrated ............................................................................................. 46
3.3.7 4+0 XPIC Integrated............................................................................................................. 47
3.3.8 4+0 XPIC Non-Integrated (High polarity site) .................................................................. 47
3.3.9 4+0 XPIC Non-integrated (Low polarity site) ................................................................... 48

Wavence UBT Installation MOP © Nokia 2022

3.3.10 4+0 XPIC in a Ring Configuration ....................................................................................... 49
3.3.11 4+4 XPIC_SD integrated ...................................................................................................... 50
3.3.12 4+4 XPIC_SD non-integrated ............................................................................................. 52
3.4 OCM ........................................................................................................................................ 53
3.4.1 4+0 XPIC without Rejection Filter ...................................................................................... 53
3.4.2 4+0 XPIC with Rejection filter ............................................................................................. 53
3.4.3 4+4 XPIC_SD without Rejection filter ................................................................................ 53
3.4.4 4+4 XPIC_SD with Rejection filter ...................................................................................... 54
4 Labeling:................................................................................................................................. 56

4.1 Indoor labelling ..................................................................................................................... 56

4.2 Outdoor Labelling................................................................................................................. 56
5 Tools ....................................................................................................................................... 57

5.1 Alignment Tool ...................................................................................................................... 57

6 Quality Installation Notes .................................................................................................... 58

6.1 BNC Connector ..................................................................................................................... 58

6.2 OCTIS Installation ................................................................................................................. 58
6.3 OCTIS Lock............................................................................................................................. 59
6.4 Unused Ports......................................................................................................................... 59
6.5 Port Dummy Plate ................................................................................................................ 60

Wavence UBT Installation MOP © Nokia 2022

1 Introduction
IMPORTANT WARNING

Purpose of this Method of Procedure document is to summarize the scope of installation

and to provide the guidelines for auxiliaries and connectivity between the different network
elements in subject project, this document does not focus on the Hardware installation
itself, that’s why the installation teams must use Nokia Hardware installation manuals
together with this MoP document to be able to complete the site installation as per Nokia
standards and customer requirements.

It’s mandatory that the installation team members are trained on the installation of Nokia
hardware and other network elements related to the scope of this project, the installation
teams must hold all necessary certificates required to complete the work onsite as per
Nokia requirements, standard practice and country regulations, certificates such as but not
limited to; Nokia PTID, electrical works, work at hight, telecom cabling & fibre works, …, etc.

1.1 Scope Description

The purpose of this documents is to provide an introduction and a guideline for Nokia
Microwave installation in Airtel account (Kenya, Malawi, Zambia, Madagascar, and Congo).

The Nokia Wavence microwave product family introduces innovative high-capacity Ultra-
Broadband Transceivers (UBT) to better address and enhancing the existing 9500 MPR
platform including the below components introducing UBT-T and UBT-S

All network elements targeting using software Wavence R20A.

Configuration provided for Airtel based on split mount configuration using UBT-S and UBT-T

Split mount is the traditional configuration where there is ODU (UBT/MPT) connected to the
indoor unit (MSS) and the indoor unit is connected to the aggregation box or BTS including the
below configuration

▪ UBT-S 1+0
▪ UBT-S 1+1 HSB
▪ UBT-S 1+1 HSB SD
▪ UBT-T 1+0
▪ UBT-T 2+0 XPIC
▪ UBT-T 2+2 XPIC_SD

Wavence UBT Installation MOP © Nokia 2022

 ▪ UBT-T 4+0 XPIC
▪ UBT-T 4+4 XPIC_SD

The Nokia Wavence is composed of two main building blocks:

• MSS: Indoor unit including all user interfaces, switching capability, multichannel
functionalities, and radio protection.
• UBT (or MPT): Ultra Broadband Transceiver part including radio and modem.

1.2 Project Contact information

General Contact

Role Name E-mail

CDM Salah Mustapha mustapha.salah@nokia.com
PD Joseph Kaime joseph.kaime@nokia.com
Microwave Technical Manager Shady Shawky Shady.Shawky@nokia.com

Kenya Contact

Role Name E-mail

Project Manager Justus kamau justus.kamau@nokia.com
Roll Out Manager Daniel Njoroge daniel.njoroge_karanja@nokia.com
Technical Support Ahmed Sayed ahmed.sayed_ahmed.ext@nokia.com

Malawi Contact

Role Name E-mail

Project Manager Colin Ngeno colin.ngeno@nokia.com
Roll Out Manager

Wavence UBT Installation MOP © Nokia 2022

 Technical Support Ahmed Sayed ahmed.sayed_ahmed.ext@nokia.com

Zambia Contact

Role Name E-mail

Project Manager Dushyant Gupta dushyant.gupta@nokia.com
Roll Out Manager
Technical Support Niyitegeka Theophile niyitegeka.theophile@nokia.com

Congo Contact

Role Name E-mail

Project Manager Ahmed Benhalima ahmed.ben_halima@nokia.com
Roll Out Manager
Technical Support Ahmed Sayed ahmed.sayed_ahmed.ext@nokia.com

Madagascar Contact

Role Name E-mail

Project Manager Ahmed Benhalima ahmed.ben_halima@nokia.com
Roll Out Manager
Technical Support Ahmed Sayed ahmed.sayed_ahmed.ext@nokia.com

1.3 Equipment overview

1.3.1 UBT architecture

The UBT can be connected to a dedicated plug-in (EAC card or EASv2) according to requested
configuration by Airtel.

The Nokia Wavence UBT implements a flexible product design, with a hardware split between
the active wideband radio part (UBT-S, UBT-T) and the Antenna Interface Module (AIM), a
passive component interfacing the antenna.

1.3.1.1 UBT-S
UBT-S or Ultra-Broadband Transceiver Single. It is a type of ODU compatible with all the frequencies
commonly used in the FH transmission and up to 42GHz. The “single” designates the fact that
the ODU supports only one carrier frequency.

Wavence UBT Installation MOP © Nokia 2022

This type of ODU is installed with an AIM-S containing 1 duplexer.

Radio unit interfaces Architecture block diagram

1.3.1.2 UBT-T

The UBT-T is a “dual carrier in a box” configuration supporting traditional multiple microwave
frequencies.
UBT-T or Ultra-Broadband Transceiver Twin. It differs from UBT-S by the fact that it can support up to 2
carrier frequencies belonging or not to the same band. This type of ODU is installed with an
AIM-T containing 2 duplexers.
UBT-T which can provide up to 2.5Gbps is used for high reliability links.

Radio unit interfaces Architecture block diagram

Wavence UBT Installation MOP © Nokia 2022

1.3.1.3 UBT Types
2 types of UBT have been provide to Airtel UBT-S and UBT-T

▪ UBT-S is supporting 1 channel

▪ UBT-T is supporting up to 2 channels

Below how to differentiate between the 2 UBT types.

Difference between UBT-S and UBT-T from the Radio port

1.3.1.4 AIM Types

3 types of AIM

Wavence UBT Installation MOP © Nokia 2022

 ▪ AIM-S → to be used for all UBT-S
▪ AIM-T-O → to be used with UBT-T with integrated antenna in configuration 1+0 and
2+0 XPIC
▪ AIM-T-D → to be used with UBT-T with non-integrated antenna I all configuration and
integrated antenna with 4+0 XPIC configuration.

1.3.2 MSS

1.3.2.1 MSS-HE

Product Specifications

Eth: 2 x SFP+ 10G, 2 x SFP, 2 x RJ45 (2PoE), 2 x Combo (SFP or RJ45)

TDM: 16 E1/DS1
Front panel interfaces Synch-in/out, management, alarms, housekeeping
ODU powering: 2 x QMA

Double battery input

TDM/PDH
Services MEF compliant E-Line, E-Tree, E-LAN
L3 HW ready

Nodal up to 8 radios
Networking ITU-T G.8032
Carrier Aggregation

Switching fabric 60 Gbps

Power consumption 28W (typ)

Input voltage / Connector type -38.4 to -57.6 V DC / sub-D 2 poles DC connector

Cooling Natural convection cooling

Dimensions 22 x 439 x 188 mm (without brackets)

Weight 1.77 Kg (without brackets)

Operating temperature range Forced air: -40°C ÷ +65°C, Still air: -40°C ÷ +55°C, Cold start: -20°C

1.3.2.2 MSS-4

Product Specifications

Wavence UBT Installation MOP © Nokia 2022

 Modular 1U
Chassis
2 core slots (1+1), 2 interface slots

10G interfaces and networking

Front panel interfaces Up to 24GE, 64 E1/DS1, 4 DS3, 2 E3, 4 STM1/OC3, 4x10G SFP+

Sync-in/out, management, ODU powering

TDM/PDH, Sonet/SDH
Services MEF compliant E-Line, E-Tree, E-LAN
IP/MPLS L3VPN

Nodal
Networking ITU-T G.8032
Carrier Aggregation

Switching fabric 100 Gbps

Input voltage / Connector type -38.4 to -57.6 V DC / sub-D 2 poles DC connector

Cooling Internal Fan

Dimensions 44 x 482 x 250mm (with brackets)

Weight 1.8 Kg (shelf)

Operating temperature range -40°C ÷ +55°C, cold start: -20°C

1.3.2.3 MSS-8

Product Specifications

Modular 2U
Chassis
2 core slots (1+1), 6 interface slots

10G interfaces and networking

Up to 54GE, 192E1/DS1, 12DS3, 2E3, 12STM1/OC3, 6x10G SFP+

Front panel interfaces
Sync-in/out, management, housekeeping, ODU powering

Dual battery input

TDM/PDH, Sonet/SDH
Services MEF compliant E-Line, E-Tree, E-LAN
IP/MPLS L3VPN

Wavence UBT Installation MOP © Nokia 2022

 Nodal
Networking ITU-T G.8032
Carrier Aggregation

Switching fabric 100 Gbps

Input voltage / Connector type -38.4 to -57.6 V DC / sub-D 2 poles DC connector

Cooling Internal Fan

Dimensions 88 x 482 x 250mm (with brackets)

Weight 3.6 Kg (shelf)

Operating temperature range -40°C ÷ +65°C, cold start: -20°C

1.3.3 Ethernet Access Cards (EAC)

The Ethernet Access Cards can be used as an interface to connect of UBTs and/or additional
user ports.

1.3.3.1 EAC-1G

- 2 x RJ45 1Gbs PoE

- 2 x SFP 1/2.5 Gbs

- 1 x QMA (for UBT powering)

1.3.3.2 EAC-10G

- 2 x RJ45 1Gbs PoE

- 2 x SFP 1/2.5 Gbs

- 1 x SFP+ 10Gbs

- 2 x QMA

Wavence UBT Installation MOP © Nokia 2022

Wavence UBT Installation MOP © Nokia 2022
2 Equipment Assembling
IMPORTANT WARNING

Purpose of this Method of Procedure document is to summarize the scope of installation

and to provide the guidelines for auxiliaries and connectivity between the different network
elements in subject project, this document does not focus on the Hardware installation
itself, that’s why the installation teams must use Nokia Hardware installation manuals
together with this MoP document to be able to complete the site installation as per Nokia
standards and customer requirements.

It’s mandatory that the installation team members are trained on the installation of Nokia
hardware and other network elements related to the scope of this project, the installation
teams must hold all necessary certificates required to complete the work onsite as per
Nokia requirements, standard practice and country regulations, certificates such as but not
limited to; Nokia PTID, electrical works, work at hight, telecom cabling & fibre works, …, etc.

2.1 AIM installation

2.1.1 AIM RFID

A mechanism has been implemented to automatically retrieve the radio capabilities of the AIM
(and consequently of the ODU).

This mechanism is based on RFID: the AIM supports a RFID tag which contains the capability of
the AIM. At UBT switch-on, the reader (in the active part) illuminates the tag and retrieves the
information. Consequently, it is no longer necessary to manually select the shifters from a long
list.

Note: Don't remove the AIM RFID and it should be aligned with the reader in the UBT to
correctly read the AIM characteristics.

UBT-T RFID UBT-S RFID

Wavence UBT Installation MOP © Nokia 2022

 AIM-T RFID AIM-S RFID

2.1.2 AIM installation on UBT-S

Wavence UBT Installation MOP © Nokia 2022

If the A I M is installed on the Active part, as shown in the figure on the left side, the

UBT-S will transmit in the Low sub-band (this means that the Tx frequency is lower than
the Rx frequency).

Wavence UBT Installation MOP © Nokia 2022

If the A I M is installed on the Active part, as shown in the figure on the right side, the UBT-
S will transmit in the High sub-band (this means that the Tx frequency is higher than the Rx
frequency).

2.1.3 AIM-T-O installation on UBT-T

Wavence UBT Installation MOP © Nokia 2022

 If the A I M is installed on the Active part, as shown in the figure, as shown in the figure on
the left side, the UBT-T will transmit in the Low sub-band (this means that the Tx frequency
is lower than the Rx frequency).
If the A I M is installed on the Active part, as shown in the figure, as shown in the figure on the
right side, the UBT-T will transmit in the High sub-band (this means that the Tx frequency is
higher than the Rx frequency).

2.1.4 UBT-S/UBT-T installation on Antenna

Before to install the UBT on the RFS antenna insert the 4 fixing screws in the relevant UBT-S
holes.

The fixing screws are inside the UBT box.

2.2 UBT-S/UBT-T Polarization

2.2.1 UBT-S Polarization

Wavence UBT Installation MOP © Nokia 2022

 If the UBT-S is installed on the antenna, as shown in the left side where letter H is at the top,
the used polarization will be Horizontal.

If the UBT-S is installed on the antenna, as shown in the right side where letter V is at the
top, the used polarization will be Vertical.

The connectors must be always down, because the cables have to come down from below

2.2.2 AIM-T-O with UBT-T Polarization

Wavence UBT Installation MOP © Nokia 2022

 If the UBT-T is installed on the antenna, as shown in the left side where letter H is at the top,
the used polarization will be Horizontal.

If the UBT-T is installed on the antenna, as shown in the right side where letter V is at the
top, the used polarization will be Vertical.

The connectors must be always down, because the cables must come down from below.

2.2.3 AIM-T-D with UBT-T Polarization

In AIM-T-D the polarization of each channel is depending on the connection between channel
and antenna port (Vertical or Horizontal)

2.3 UBT Couplers

2.3.1 UBT OMT-C Coupler

The OMT plus Coupler (OMT-C) is a passive device that permits the coupling of four carriers
(two in V polarization and two in H polarization) on a single integrated DP antenna.

This function is used with the Nokia UBT Twin (UBT-T) equipped with the AIM-T-D.

Wavence UBT Installation MOP © Nokia 2022

Wavence UBT Installation MOP © Nokia 2022
 OMT-C Installation

Fit the OMT-C to the antenna Spirit level Position on OMT-C

Spirit level has 2 position according to antenna position

UBT interfaces gaskets fitted into the Fit the UBT-T AIM-T-D to the UBT
groves interface

Wavence UBT Installation MOP © Nokia 2022

2.3.2 OMT-C 6-7-8Ghz Sway bar

Sway-bar assembling instruction for OMT-C 6-7-8Ghz

Step 1: Fix the U-bolt to the pole Step 2: Fix the Sway-bar to the U-bolt

Step 4, Fix the bolt to the product after adding

Step 3: Remove the sealing screw
a plastic flat washer.

Wavence UBT Installation MOP © Nokia 2022

2.3.3 Hybrid coupler 7/8 GHz 3 dB

3db Hybrid coupler is using for configuration 4+0 XPIC

Coupler Diagram Coupler Installation on antenna Pole

Wavence UBT Installation MOP © Nokia 2022

2.4 Mounting Plate installation (non-integrated antenna)

2.4.1 Co Polar - Mounting Plate 1

Wavence UBT Installation MOP © Nokia 2022

The pole mount is used in case of not integrated antenna configuration. The Picture shows the
pole mount for Single Polarization.

The UBT installed on Mounting Plate 1 can be UBT-S or UBT-T with A I M - T - C. The flexible
waveguide is connected to the antenna

Mounting of the Nose on the support plate (V and H polarization)

2.4.2 Fixation points

Fixation points for UBT-S and T for UBT-T

Wavence UBT Installation MOP © Nokia 2022

2.5 Grounding for UBT

Connect the UBT ground point to the nearest grounding plate using the ground cable

16mm². Washer, screw and lug are provided with the UBT.

Wavence UBT Installation MOP © Nokia 2022

2.5.1 Dual Polar - Mounting plate 2

The picture shows the pole mount for Dual Polarization or for Dual band antenna in
feature releases.

The UBT installed on Mounting Plate 2 is UBT-T with A I M - T - D. The

flexible waveguides are connected to the antenna.

Wavence UBT Installation MOP © Nokia 2022

2.6 Antenna installation

During antenna installation it is required to confirm that the mark TOP to be exactly
mentioned on the top of antenna and aligned with the notch and V mark.

This will help to get the correct UBT polarization for alignment and XPD adjustment.

2.7 UBT Connectors

2.7.1 UBT Connector Types

The DC power port (PWR) and Ports 1 to 4 are connected through special connectors called
OCTIS. The OCTIS connector concept is a common housing and blocking mechanism hosting
internally a connector suitable for different applications. The ports on the UBT are protected
by a plug, which must be removed when connecting a cable with OCTIS connector. For later
use, the plug and the corresponding OCTIS protection cap must be secured together on a
support with a tie-rap (included),

Different colors of the gland nut have been decided for facilitating the connector
identification:
▪ orange for OCTIS DC connector
▪ black for OCTIS Electrical (RJ45) connector
▪ blue for OCTIS Optical SFP connector
▪ orange for OCTIS Exchange connector (XPIC cord 3DB28411AA for UBT-m and
XPIC cord 3DB28410AX for UBT-S already terminated with OCTIS Exchange
connector)

Wavence UBT Installation MOP © Nokia 2022

2.7.2 UBT Connectors Installation

Assembly instruction Power OCTIC Connector Fiber OCTIC Connector

OCTIS
Connector.pdf
User instructions 1AB235300005 SFP
OCTI327000 - 04-12-19.pdf fiber User instruction OCTI117000.pdf

2.7.3 Coaxial cable Components

2.7.3.1 QMA connector Installation Instruction

Installation Instruction Installation Video

1216978761527_28S
20T-049N3 Ass instruction.pdf

2.7.3.2 Coaxial N connector Installation Instruction

1182348702031_Ass
embly Instruction AFA163-6.pdf

2.7.3.3 pigtail N to 2 wires indoor

3CC52159BAAAHDZ
ZA_01_1.pdf

2.7.3.4 DC pigtail N to 2 wires outdoor

3CC52159BAAAHDZ
ZA_01_1 (1).pdf

Wavence UBT Installation MOP © Nokia 2022

2.8 Caps for unused ports

For protection and EMI/EMC reasons, unused ports must be closed with the dedicated
shielded caps (NOKIA PN 1AB461770002).

UBTs are provided with these caps on the power and data exchange ports.

Remove the caps only for the ports that will be connected and keep the unused ports closed.

Retain the removed caps by inserting them in the protection cap of the connector that will
remain hanged to the connector.

The removed protection cab for used ported should be attached to connector cap and be hold to
UBT using tie-rap.

2.9 MSS-UBT Physical Connection

As requested by Airtel all the MSS – UBT connection as below

▪ Data connection using fiber cable

▪ Power Connection using Coaxial cable

Wavence UBT Installation MOP © Nokia 2022

2.10 Data Connection

Fiber cables are provided into different cable length as below

Description PN

Fiber cord MM LC-LC for UBT+MSS-O 50m 3CC52210BD

Fiber cord MM LC-LC for UBT+MSS-O 80m 3CC52210BE

Fiber cord MM LC-LC for UBT+MSS-O 100m 3CC52210BF

Fiber cord MM LC-LC for UBT+MSS-O 120m 3CC52210BG

Overlength are using to roll the extra fiber cable, one Overlength is provided per antenna.

The power and fiber cables must be supported min every 1m. When the old ling is recovered
the new cables will reuse the cable clamps or cable attachment method of the old cables.

2.11 Power Connection

All power connection is using coaxial cable and to be powered from QMA port on EAC card.

2 types of Coaxial power cable have been provided according to

Max Length for power cables:

Coaxial Cable
Coaxial Cable
EAC (6.85
(10.3mm)
mm)

Wavence UBT Installation MOP © Nokia 2022

 UBT-S low freq 150m 330m

UBT-S high freq 200m 400m

UBT-T low freq 75m 160m

UBT-T high freq 110m 240m

Cable assembly structure:

Coaxial Cable
UBT Type EAC connection UBT Connection
Type

Coaxial Cable (6.85 coax cable without connector + Octis

EAC board - QMA connector
mm) DC
UBT twin
Coaxial Cable EAC board - QMA/Nf jumper - Nm connector + Nf/free 6.85 mm
(10.3mm) Nm connector jumper + Octis DC

Coaxial Cable (6.85 coax cable without connector + Octis

EAC board - QMA connector
mm) DC
UBT single
Coaxial Cable EAC board - QMA/Nf jumper - Nm connector + Nf/free 6.85 mm
(10.3mm) Nm connector jumper + Octis DC

2.11.1 Power Components to of Coaxial cable to CB:

Item Qty

OCTIS connector housing for fibers 1

coax cable 50ohms 6,85mm per m. 70m

conn Nm straight for coax cable 6,85mm 1

Lightning arrestor kit 1

wall support 4 lightning arrestors coax 1

power supply cable N to 2 wires 1

Wavence UBT Installation MOP © Nokia 2022

2.11.1.1 Lightning arrestor kit
It is used for UBT lighting protection, it comes with a grounding cable which should be
connected a grounding point.

Lighting attestor should be install inside the cabinet

2.11.1.2 wall support 4 lightning arrestors coax

this plat can handle up to 4 serge arrestors

2.11.1.3 power supply cable N to 2 wires

a Pigtail to provide a conversion from coaxial cable to 2 wires to be connected to external CB

Wavence UBT Installation MOP © Nokia 2022

2.12 OCM Installation

2.12.1 Assembling OCM on Pole Mounting

Wavence UBT Installation MOP © Nokia 2022

Wavence UBT Installation MOP © Nokia 2022
2.12.2 OCM CP Antenna connection with Flex-twist

2.12.3 OCM AP Antenna connection with Flex-twist

Wavence UBT Installation MOP © Nokia 2022

2.12.4 Assembling UBT-T on OCM Unit

2.12.5 Recommended UBT-T cables routing

Wavence UBT Installation MOP © Nokia 2022

Wavence UBT Installation MOP © Nokia 2022
3 Link Configuration
3.1 Legend

3.2 UBT-S Links Configuration

3.2.1 UBT-S 1+0 Integrated antenna

Wavence UBT Installation MOP © Nokia 2022

3.2.2 1+0 nonintegrated antenna

3.2.3 1+1 HSB SD Integrated antenna

Wavence UBT Installation MOP © Nokia 2022

3.2.4 1+1 HSB SD nonintegrated antenna

Wavence UBT Installation MOP © Nokia 2022

3.3 UBT-T

3.3.1 1+0 integrated

Wavence UBT Installation MOP © Nokia 2022

3.3.2 1+0 non-integrated

3.3.3 2+0 XPIC Integrated

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3.3.4 2+0 XPIC non-integrated

3.3.5 2+2 XPIC_SD integrated

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3.3.6 2+2 XPIC_SD Non-Integrated

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3.3.7 4+0 XPIC Integrated

3.3.8 4+0 XPIC Non-Integrated (High polarity site)

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3.3.9 4+0 XPIC Non-integrated (Low polarity site)

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3.3.10 4+0 XPIC in a Ring Configuration

For 4+0 XPIC configuration in a ring configuration:

▪ EASv2 card is used, 1 EASv2 per direction.

▪ There is no Coupling cable between the 2 UBT-T.
▪ UBT-T should be powered from external CB.

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3.3.11 4+4 XPIC_SD integrated

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3.3.12 4+4 XPIC_SD non-integrated

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3.4 OCM

3.4.1 4+0 XPIC without Rejection Filter

3.4.2 4+0 XPIC with Rejection filter

3.4.3 4+4 XPIC_SD without Rejection filter

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3.4.4 4+4 XPIC_SD with Rejection filter

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4 Labeling:
Important Notes:

▪ Content of the Label should be readable after sticking

▪ Don’t leave any sticky parts of the label open
▪ Make labels clean and tidy, then they won’t be peeled off
▪ For Indoor content should be printed using labeling machine with white paper with black
characters, printed in a half of the label, other half is used to stick the label
▪ All outdoor labels should be Metal or plastic.

4.1 Indoor labelling

4.2 Outdoor Labelling

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5 Tools
5.1 Alignment Tool

BNC to banana adapter tool is used for UBT alignment

Received Signal Strength Indicator is used on UBTs for antenna alignment. UBT-S has one BNC
connector to access RSSI voltage giving an indication of the RSL, while UBT-T has two BNC
connectors. The BNC connector on the left is associated with carrier A, while the BNC connector on
the right is associated with carrier B.

UBT-S UBT-T

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6 Quality Installation Notes
6.1 BNC Connector

6.2 OCTIS Installation

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6.3 OCTIS Lock

6.4 Unused Ports

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6.5 Port Dummy Plate

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