TS_3GBTS_SW_0181-I1

Technical Support Note TSN-3GBTS-SW -0181

3G - 3G RX Diversity sharing with Flexi Multiradio WCDMA BTS Radi o Networks Fl exi Multi radio BTS W CDMA This document contains following type of information Informative

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Preventive Corrective Additional categorization Urgent Security Release Upgrade SW Update Information is classified as Internal Public Customer Specific

Nokia Siemens Networks © CONFIDENTIAL TS-3GBTS-SW-0181 APPROVED 1.0

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Table of Contents 1. Validity......................................................................................................................................... 3 2. Compatibility / Dependencies to other products ........................................................................... 3 3. Keywords .................................................................................................................................... 3 4. Summary ..................................................................................................................................... 3 5. Supported configurations ............................................................................................................. 3 6. Cabling Instructions ..................................................................................................................... 5 6.1 Additional RX Gain parameter – compensation of additional LNA gain ...................................... 6 6.1.1 Values for Additional RX Gain parameter – LNA gain of different RF module variants............ 7 6.1.2 Example – Antenna line settings in commissioning wizard of Site Element Manager ............. 9 6.2 Commissioning of MHA settings ............................................................................................... 10 6.2.1 Example of commissioning of the MHA settings in commissioning wizard of Site Element Manager ...................................................................................................... 10 6.3 RX Signal level monitoring ...................................................................................................... 14 6.4 Commissioning RX div sharing by defining the Virtual MHA is not recommended .................... 15 7. References ................................................................................................................................ 15 8. Disclaimer ................................................................................................................................. 16 Contact: Contact your local Nokia Siemens Networks support.

Summary of changes: 02-July-2013


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Purpose This Technical Support Note document describes how to configure RX Diversity Sharing into use between the two NodeB.

1. VALIDITY Product

Release

Flexi WCDMA BTS software release Flexi WCDMA BTS software releases

WN6.0 MP4.x WN7.0 x.x

2. COMPATIBILITY / DEPENDENCIES TO OTHER PRODUCTS N.A

3. KEYWORDS RX diversity sharing, commissioning, RX out, uplink diversity, RAN2514, Additional RX Gain, RX div

4. SUMMARY This document describes how to configure RX Diversity Sharing in to use. This allows Rx diversity over two Flexi Multiradio RF-modules operating in the same frequency band. In this solution, the RX diversity is gained by cross connecting the RX main uplink signals led trough the RX out interface (located at the front panel of the Radio Module). Setting of the Additional RX Gain parameter is required in the BTS commissioning for the diversity antenna branches. Value of the Additional RX Gain parameter is depending on product variant of RF module.

5. SUPPORTED CONFIGURATIONS RX sharing capability of Flexi Multiradio RF-modules enables operators to reduce site complexity and site upgrade costs by reusing and leveraging the existing antenna system for an additional Node B. • • • •

2 antenna feeder lines instead of 4 Only one X-Pol antenna per sector No need for Multiradio Combiner (MRC) Enables easier implementation of additional NobeB to a hot spot location


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Antenna Sharing

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RFM 2100

Iub NodeB #1 System module

Iub

NodeB #2 System Module

RFM 2100

Figure 1 System schematic of RX shared BTS site In this solution, RX main branch is provided for the Node B from TX antenna branches, whereas the RX diversity is gained by cross connecting the uplink signals led trough the RX out interface (located at the front panel of the Radio Module). With the RX diversity sharing same configuration principles are applying than with the common A-type BTS configuration. Below is a example of typical site HW configuration with RX diversity sharing.


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Figure 2 Typical site HW configuration with RX sharing In RX diversity sharing all the uplink carriers of the cells must fit inside the RX bandwidth of Radio module, which for example is 20 MHz for FRGP (2100 MHz) and FXDA (900MHz). The restriction need to be taken into account when planning the carrier frequencies for the RX sharing BTS Site In case of a small margin in available frequency band, the Over ride nominal frequency of filter center –option in BTS commissioning can be utilized to fit the carriers to RX band.

6. CABLING INSTRUCTIONS RF cabling for the RX diversity sharing is cross fed from the Radio Modules’ Rx out interface to the other Radio Modules’ Rx div. The main antenna interfaces (TX/RX main) are cabled normally and also optical cables between system module and radio module are connected normally.

PWR IN

Ant 6 Rx

Ant 5 Tx/Rx

Ant 5 Rx Out EAC

Nokia Siemens Networks © CONFIDENTIAL TS-3GBTS-SW-0181 APPROVED 1.0 PWR IN

Ant 6 Rx Ant 5

Ant 4 Rx

Ant 3 Tx/Rx

Ant 3 Rx Out

Ant 5 Tx/Rx

Ant 4

Approved Rx 1.0 Ant 3

Ant 2 Rx

OPT 1

Ant 3 Tx/Rx

Ant 1 Tx/Rx

Ant 1 Rx Out OPT OPT 2 3

Ant 2 Rx Ant 1

Ant 1 Tx/Rx

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Figure 3 Cross connection cabling of RX div antenna connectors A cable kit has been prepared for implementing the required cross connections for RX Diversity Sharing, NSN product code 472454A RDSA Rx Diversity Sharing Kit 2m. The kit includes 6 cables and thus can cover the connections between two triple RFmodules i.e. three sectors.

Figure 4 A cable of RDSA kit.

6.1 Additional RX Gain parameter – compensation of additional LNA gain BTS commissioning is proceeded normally according to the used cabling and configuration, except the antenna line settings. The Additional RX Gain parameter is required to be set for each diversity antenna line receiving the uplink signal from RxOut interface of other BTS’s RF module. As illustrated in the block diagram below, the LNA in the Front End of RX Main branches produces already the needed high gain for the UL signal received from the antenna line. Nokia Siemens Networks © CONFIDENTIAL TS-3GBTS-SW-0181 APPROVED 1.0

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This additional gain provided by the other module is required to be compensated by the Additional RX Gain parameter for achieving correct calculation of reference level in UL. Additionally, setting the Additional RX Gain parameter enables the LNA in RX div branch to operate in a low gain mode.

Figure 5 UL signal path when RXOut - RXdiv are cross connected

6.1.1 Values for Additional RX Gain parameter – LNA gain of different RF module variants Operating range of LNA gain is depending on Flexi Multiradio RF Module variant. Therefore value for the Additional RX Gain parameter need be to set accordingly.


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Table 1 Additional RX Gain value of different radio modules

RF module FRGP FRIE FXCA FXCB FXDA FXDB FXFA FXFB FXEB


Additional RX Gain (dB) 29 19 29 29 29 29 29 29 29

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6.1.2 Example – Antenna line settings in commissioning wizard of Site Element Manager. Antenna line settings for RX main (ANT1 TX/RX, one sector demonstrated)

Figure 6 Main RX/TX antenna line settings, no changes required for commissioning

Antenna line settings for RX div (ANT2 RX):


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Additional RX Gain is required to be set accordingly.

Figure 7 Div RX antenna line settings. Correct value for the additional gain parameter must be set.

6.2 Commissioning of MHA settings Commissioning of MHA settings doesn’t differ in case of RX div sharing. Whenever there is a MHA used in the physical antenna feeder lines, commissioning of the MHA settings is required for the TX/RX main branch in both of the BTS.

6.2.1 Example of commissioning of the MHA settings in commissioning wizard of Site Element Manager. BTS #1 – master for MHA operation, detects and operates WMHD in AISG mode


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Figure 8 BTS #1 - MHA detected, LNA1 is set in use for the TX/RX main branch

Figure 9 BTS #1 - LNA2 is set to be used for the other BTS (TX/RX main of BTS #2)


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Figure 10 BTS #1 - MHA settings for TX/RX main antenna line need to set as is with a regular BTS site configuration

Figure 11 BTS #1 - MHA settings for RXdiv antenna line. No any MHA is set in use.


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BTS #2 – not controlling MHA operation, MHA type of the LNA2 is commissioned as Other

MHA type is set as Other for the LNA2 No feeder voltage enabled MHA Gain is set respectively 12 dBm

Figure 12 BTS #2 - MHA settings for TX/RX main antenna line. MHA type is set as Other for the LNA2.


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Figure 13 BTS #2 - MHA settings for RXdiv antenna line. No any MHA is set in use.

6.3 RX Signal level monitoring It is recommended to activate RX Signal Level Monitoring feature for the BTS utilizing the RX diversity sharing. It is essential for verifying the installation and commissioning as well for monitoring signal level provided by the other NodeB and its’ antenna line.


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Figure 14 RX signal level monitoring - RX main and div are at the same level, configuration was done correctly.

Figure 15 RX signal level monitoring - RX signal level failure, The Additional RX Gain parameter value was not set when commissioned.

6.4 Commissioning RX div sharing by defining the Virtual MHA Technical Note 144 describes commissioning of RX sharing with the older 3G BTS SW releases (WN6.0 MP3.x) where support of the Additional RX Gain parameter did not exist. This previous way of commissioning by using the Virtual MHA is not necessary and preferred any more. Whereas, commissioning with utilizing the Additional RX Gain parameter should be preferred whenever a new RX sharing site is configured, as it provides simpler, more straightforward and fault tolerating approach for defining the commissioning and plan parameters.

7. REFERENCES TS-3GBTS-SW-0144 RX Diversity sharing between Flexi EDGE BTS and Flexi WCDMA BTS


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8. DISCLAIMER The information in this document is subject to change without notice and describes only the product defined in the introduction of this documentation. This documentation is intended for the use of Nokia Siemens Networks customers only for the purposes of the agreement under which the document is submitted, and no part of it may be used, reproduced, modified or transmitted in any form or means without the prior written permission of Nokia Siemens Networks. The documentation has been prepared to be used by professional and properly trained personnel, and the customer assumes full responsibility when using it. Nokia Siemens Networks welcomes customer comments as part of the process of continuous development and improvement of the documentation. The information or statements given in this documentation concerning the suitability, capacity, or performance of the mentioned hardware or software products are given “as is” and all liability arising in connection with such hardware or software products shall be defined conclusively and finally in a separate agreement between Nokia Siemens Networks and the customer. However, Nokia Siemens Networks has made all reasonable efforts to ensure that the instructions contained in the document are adequate and free of material errors and omissions. Nokia Siemens Networks will, if deemed necessary by Nokia Siemens Networks, explain issues which may not be covered by the document. Nokia Siemens Networks will correct errors in this documentation as soon as possible. IN NO EVENT WILL NOKIA SIEMENS NETWORKS BE LIABLE FOR ERRORS IN THIS DOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA, THAT MAY ARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT. This documentation and the product it describes are considered protected by copyrights and other intellectual property rights according to the applicable laws. The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark of Nokia Corporation. Siemens is a registered trademark of Siemens AG. Other product names mentioned in this document may be trademarks of their respective owners, and they are mentioned for identification purposes only. Copyright © Nokia Siemens Networks 2013. All rights reserved.


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TS_3GBTS_SW_0181-I1

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