Nokia Academy RA4140 FL16 Feature Delta BTS Site Solutions LTE Features
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Contents • • • • • • • • • • • • • •
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LTE2099: Support for harmonized MHA family LTE2155: Inheritance of RF Sharing configurations with FSMF for GSM LTE2270: LTE TDD+FDD inter eNB CA basic BTS configurations LTE2273: Classical WCDMA-LTE RF-sharing with dedicated Power Amplifiers LTE2333: WCDMA-LTE RF sharing with 4TX/4RX RRH LTE2355: Supporting classical WCDMA/LTE RF-sharing on 2Tx/2Rx RRH 4.0 family LTE2363: Classical LTE/GSM RF-sharing configurations with 6-pipe RF-module LTE2368: Classical WCDMA/LTE RF-sharing support for 6-pipe RF-module (RF-module Rel. 3.2-family) LTE2437: Supported RAS installation options in FL16 release LTE2456: Support of classical WCDMA/LTE RF-sharing with different bands (shared/dedicated) on one local cell set LTE2668: Classical WCDMA/LTE RF sharing with 4Rx-diversity (3-pipe RF-module) LTE2901: Centralized RAN Supported Configurations LTE2905: FYGG Firmware Upgrade Summary of new radio modules
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LTE2099: Support for harmonized MHA family Feature Benefit • Feature introduces support for new Masthead Amplifiers (MHAs), which streamlines the MHA family. It also introduces the possibility to explicitly select MHA's power sources. • The LTE2099: Support for harmonized MHA family feature provides the following benefits: - Harmonized MHA family provides comprehensive MHA portfolio supporting new MHA requirements from the operators. - Dual band MHAs based on dual AISG mode provide full MHA visibility for both frequency bands. - Full visibility/recovery of fault situation in both bands is enabled. - New MHAs have a gain of 12 dB. They replace high-gain MHAs.
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LTE2099: Support for harmonized MHA family Functional Description • • • • • • • • • • •
•
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Harmonized Nokia MHA family Harmonized Nokia MHA family consists of a wide-range MHAs for single and dual band use, which have the following functionalities: AISG 2.0 support 12 dB gain excellent Passive Inter Modulation specification (-116 dBm) dual AISG/RET enabling flexible control for dual band MHAs MHA/RET control according to AISG/3GPP standard RF by-pass functionality built-in lightning protection guaranteed compatibility with Nokia Multiradio BTS Configuration management tools can identify new MHAs as part of the harmonized MHA family and recognize them through Nokia product codes in the user interface. Note: Nokia MHAs are active (AISG2.0) MHAs. However, it is possible for the operator to use them in a passive (CWA) mode, if needed. Within the harmonized MHA family, only single band MHAs (MDTB, MDGB, MDDB and MDPB) can support CWA mode.
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LTE2099: Support for harmonized MHA family MHA name
Band
Product code
Additional information
MHA name
Band
Product code
Additional information
FLPA FLPB FLMB
APT700 APT700 EU800
473052A 473053A 472979A
Low band High band Has replaced old 24 dB FLMA
FLDB
EU800/900
473050A
4 antenna ports
FLGA
1800/2100
472962A
2 antenna ports
MDTB
850
473060A
Has replaced old 32 dB MDTA
FLGC
1800/2100
473051A
4 antenna ports
MDGB
900
473058A
Has replaced old 32 dB MDGA
FLSA
1800/2600
473054A
2 antenna ports
MDDB
1800
472980A
Has replaced old 33 dB MDDA
FLSB
1800/2600
473055A
4 antenna ports
MDPB
1900
473059A
Has replaced old 33 dB MDPA
FLTA
2100/2600
473056A
2 antenna ports
FLDA
EU800/900 CS7299440
FLTB
2100/2600
473057A
4 antenna ports
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2 antenna ports
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LTE2155: Inheritance of RF Sharing configurations with FSMF for GSM • The LTE2155: Inheritance of RF Sharing configurations with FSMF for GSM feature extends RF Sharing support for FSMF GSM in order to bring GSM FSMF on par with GSM ESMB/C related to RF Sharing configurations. • The LTE2155: Inheritance of RF Sharing configurations with FSMF for GSM feature introduces full SRAN RF sharing configuration parity for FSMF GSM SM to ESMB/C GSM SM for classical LTE-GSM RF Sharing.
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LTE2270: LTE TDD+FDD inter eNB CA basic BTS configurations •
•
The LTE2270: LTE TDD+FDD inter eNB CA basic BTS configurations feature introduces BTS configurations for TDD-FDD inter eNB Carrier Aggregation (CA) as provided by LTE2180 and LTE2316. The configurations consist of one System Module for FDD LTE side and one System Module for TDD side. Both System Modules are interconnected with a SRIO link. The configurations support inter-eNB CA TDD-FDD with two component carriers (CCs) or three component carriers (CCs). The LTE2270: LTE TDD+FDD inter eNB CA basic BTS configurations feature provides the following benefits: -
•
•
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Significant increase of downlink peak rates for operators using FDD and TDD bands Extended coverage for TDD cells that are frequently UL-limited Support for further frequency bands that do not take part in inter-eNB CA TDD-FDD
In TDD, a maximum of six secondary cells (SCells) is supported. The TDD cell always acts as the Secondary Cell (SCell), while the FDD cell acts as the Primary Cell (PCell). In most configurations an additional Flexi Baseband Extension Module (FBBA or FBBC) is needed to process the increased downlink throughput in FDD. The FBBA/FBBC is not needed if the FDD bandwidth is limited to 10 MHz in 2 TX/2 RX and a maximum of two carriers with 20 MHz + 10 MHz in TDD are used for CA. Both System Modules operate as independent eNBs. They are connected to each other with a SRIO interface through which the required data for the TDD-FDD CA is exchanged. The clock and phase synchronization is provided by the LTE1710 feature.
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LTE2273: Classical WCDMA-LTE RF-sharing with dedicated Power Amplifiers • The LTE2273: Classical WCDMA-LTE RF-sharing with dedicated Power Amplifiers feature enhances the LTE435: RF Sharing WCDMA-LTE by adding dedicated power amplifiers. This feature introduces additional WCDMA-LTE RF-Sharing configurations with dedicated power amplifiers with different LTE bandwidths. • The LTE2273: Classical WCDMA-LTE RF-sharing with dedicated Power Amplifiers feature provides the following benefits: -
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Easy and future proof BTS site evolution from WCDMA to multiband multi RAT technology by using shared same Flexi Multiradio RF modules. Easy and future proof BTS site evolution by using the same Flexi Multiradio RF Modules by SW mode either in WCDMA only mode, or in concurrent WCDMA/LTE mode or in LTE only mode. Operator can run both WCDMA and LTE concurrently by the same Flexi Multiradio RF Module(s). Operational costs are significantly cut by sharing the RF HW. Shared use of feeders and antennas, dedicated for each RAT. No additional external combiners are required. This feature helps the operator to allocate and share BTS RF resources between WCDMA/LTE in a flexible way.
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LTE2273: Classical WCDMA-LTE RF-sharing with dedicated Power Amplifiers Bands 850 MHz
Modules FXCA FXCB
900 MHz
FXDA FXDB
1.7/2.1 GHz
FRIE
1900 MHz
FXFA FXFC
2.1 GHz
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FRGP.A
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LTE2333: WCDMA-LTE RF sharing with 4TX/4RX RRH • The LTE2333: WCDMA-LTE RF sharing with 4TX/4RX RRH feature introduces the configurations of 4Tx/4Rx Remote Radio Heads (RRHs) in WCDMA-LTE RF sharing. • Additional information on the configuration: -
WCDMA: 2 carriers (Tx) in ports 1, 2 and 2 carriers (Tx) in ports 3, 4. The shared band can be combined with any valid cell set dedicated for LTE. The basic cell set is needed for the LTE 5 MHz and 10 MHz bandwidth. The extended cell set is needed for the LTE 15 MHz and 20 MHz RRH is deployed either as a stand-alone RRH or together with Radio Antenna System. Additional dedicated LTE bands are supported as defined in LTE2080: LTE-WCDMA RF sharing with full FBBC support. Cells/Sectors WCDMA: 4+4+4 LTE: 1+1+1
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Configurations type LTE BW WCDMA: 2Tx/4Rx, VAM 5, 10, 15, 20 MHz (J-type) LTE: 4Tx/4Rx, (M-type)
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System Module RF Modules (shared) WCDMA: FSMF / FSMF + 4Tx/4Rx RRHs (1-3 FBBA or FSMF + RRHs supported) 2xFBBAs LTE: FSMF + FBBA/C
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LTE2355: Supporting classical WCDMA/LTE RF-sharing on 2Tx/2Rx RRH 4.0 family • The LTE2355: Supporting classical WCDMA/LTE RF-sharing on 2Tx/2Rx RRH 4.0 family feature introduces the configurations of 2Tx/2Rx Remote Radio Heads (RRHs) from Flexi HW 4.0 in WCDMA-LTE RF sharing. • Configurations introduced by the feature: Cells/Sectors WCDMA: 3+3+3 LTE: 1+1+1
Configurations type WCDMA: 2Tx/2Rx, VAM (Itype) LTE: 2Tx/2Rx, MIMO (I-type)
LTE BW
WCDMA: 2+2+2 LTE: 1+1+1
WCDMA: 2Tx/2Rx, VAM (Itype) LTE: 2Tx/2Rx, MIMO (I-type)
10 MHz
WCDMA: 1+1+1 LTE: 1+1+1
WCDMA: 2Tx/2Rx, VAM (Itype) LTE: 2Tx/2Rx, MIMO (I-type)
15 MHz
5 MHz
*The RF Sharing configuration can be deployed on FBBC (instead of FSMF)
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System Module WCDMA: FSMC (only 1-sector configuration), FSMD, FSME, FSMF LTE: FSMF* WCDMA: FSMC (only 1-sector configuration), FSMD, FSME, FSMF LTE: FSMF* WCDMA: FSMC (only 1-sector configuration), FSMD, FSME, FSMF LTE: FSMF
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RF Modules (shared) FRGY (1-3 sectors) or other RRHs from Flexi HW 4.0 FRGY (1-3 sectors) or other RRHs from Flexi HW 4.0 FRGY (1-3 sectors) or other RRHs from Flexi HW 4.0
LTE2363: Classical LTE/GSM RF-sharing configurations with 6-pipe RF-module • The LTE2363: Classical LTE/GSM RF-sharing configurations with 6-pipe RF-module feature introduces LTE/GSM RF-sharing configurations for 6Tx/6Rx RF-module (FXED). • LTE/GSM RF-sharing configurations for new 6-pipe RF-module will support existing ones with the following add-on's: - Support of 4x2 MIMO (LTE only) - Support for 4-way receive diversity (LTE and/or GSM)
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LTE2368: Classical WCDMA/LTE RF-sharing support for 6-pipe RF-module (RF-module Rel. 3.2-family) • The LTE2368: Classical WCDMA/LTE RF-sharing support for 6-pipe RF-module (RFmodule Rel. 3.2-family) feature introduces the configuration of 6-pipe RF Module in WCDMA-LTE RF sharing. • This feature extends the existing WCDMA-LTE RF sharing functionality to configurations with 6-pipe RF Module. New configurations introduced by this feature:
Cells/Sectors
Configurations type
LTE BW
System Module
WCDMA: 2+2+2 LTE: 1+1+1
WCDMA: 1Tx/2Rx, SIMO (A- 10 MHz type) LTE: 2Tx/2Rx, MIMO (I-type)
WCDMA: FSME, FSMF LTE: FSMF*
6-pipe RFM
WCDMA: 1+1+1 LTE: 1+1+1
WCDMA: 2Tx/2Rx, VAM (I15 MHz type) LTE: 2Tx/2Rx, MIMO (I-type)
WCDMA: FSME, FSMF LTE: FSMF*
6-pipe RFM
*The RF Sharing configuration can be deployed on FBBC (instead of FSMF)
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RF Modules (shared)
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LTE2437: Supported RAS installation options in FL16 release • The LTE2437: Supported RAS installation options in FL16 release feature introduces Flex Radio Antenna System (RAS). RAS physically encapsulates the RRH into the antenna enclosure. The feature lists the RAS antennas and compatible radios available in FDD-LTE 16 release. • The LTE2437: Supported RAS installation options in FL16 release feature provides the following benefits: -
Simplifies cell site design through integration of the radio inside of the antenna. Supports multiple frequency bands in one antenna enabling consolidation of antennas in the operator network. Better RF performance (reduced cable loss between antenna and RRH). Modular architecture enables field maintenance and RRH upgrades independently from the antenna. The 10-port antenna system supports higher order MIMO (4TX) implementation and 4 Way diversity scheme for high bands.
• RAS configurations in FDD-LTE 16 consist of a tri-band antenna in two sizes (FASB, FASC) and up to two RRHs encapsulated into the antenna enclosure.
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LTE2437: Supported RAS installation options in FL16 release RAS Antenna FASB
Compatible RRHs (maximum 2 RRHs)
Additional info
1850 - 1920/1930 - 2000 (4 ports)
2, 25
FHFB(4TX)
Any max 4TX/4RX outputs of the same band from separate RF Module or RRH can be connected
1695 - 1780/2095 - 2690 (4 ports)
30
FRNC(4TX)
7
FRHG(4TX)
4, 10
External RF Unit
Any max 4TX/4RX outputs of the same band from separate RF Module or RRH can be connected
12+29
FRBG(2TX+2TX) only 2TX
13+29
FRBE(2TX+2TX) only 2TX
14
FRBF(4TX) only 2TX
5
FRCG(2TX)
26
FRCC(2TX)
18, 19, 27
External RF Unit
698 - 894 (2 ports)
17
3GPP bands supported by antenna
Antenna frequency range [MHz]
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Any max 2TX/2RX outputs of the same band from separate RF Module or RRH can be connected
LTE2437: Supported RAS installation options in FL16 release Antenna 3GPP bands supported RAS Antenna frequency Compatible RRHs (maximum 2 RRHs) by antenna range [MHz] FASC 2300 - 2690 30 FRNC(4TX) (4 ports) 7 FRHG(4TX)
1695 - 2200 (4 ports)
Any max 4TX/4RX outputs of the same band from separate RF Module or RRH can be connected
Any max 4TX/4RX outputs of the same FRGY(2TX) Note: 1800 MHz 2TX/2RX external radio can band from separate RF Module or RRH can be connected if 2100 MHz RRH occupies 2 be connected ports. PCS and AWS should not be mixed at the same time. FHED(4TX)
1
3
18
Additional info
2, 25, 4, 10
External RF Unit
694 - 960 (2 ports)
12+29 13+29 14 5 26 External RF Unit
FRBG(2TX+2TX) only 2TX FRBE(2TX+2TX) only 2TX FRBF(4TX) only 2TX FRCG(2TX) FRCC(2TX)
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Any max 2TX/2RX outputs of the same band from separate RF Module or RRH can be connected
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LTE2456: Support of classical WCDMA/LTE RF-sharing with different bands (shared/dedicated) on one local cell set •
• •
The LTE2456: Support of classical WCDMA/LTE RF-sharing with different bands (shared/dedicated) on one local cell set feature introduces support for connecting WCDMA/LTE RF-sharing configurations on different frequency bands where both frequency bands are served/connected to the same LTE local cell set on the LTE FSMF core module. Feature releases WCDMA/LTE RF-sharing configurations on different frequency bands where both frequency bands are served/connected to the same LTE local cell set on LTE FSMF core module. The frequency bands could be used as one of the following: -
•
All LTE-bandwidth combinations, are supported as follows: -
•
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Shared band plus dedicated LTE-band Shared band plus shared band 6 sector configuration (3-sectors per frequency band) All LTE-bandwidth combination up to 10 MHz (e. g. 6x LTE10 2Tx/2Rx) 4 sector configurations (2-sectors per frequency band) Up to 2x LTE15/20 2Tx/2Rx plus 2x LTE10 2Tx/2Rx
Note: Maximum supported processing capacity of one LTE local cell set for FSM Rel. 3 is 3x cells @ 20 MHz 2Tx/2Rx or 6x cells @ 10 MHz bandwidth, 2Tx/2Rx.
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LTE2668: Classical WCDMA/LTE RF sharing with 4Rx-diversity (3-pipe RF-module) • The LTE2668: Classical WCDMA/LTE RF sharing with 4Rx-diversity (3-pipe RF-module) feature provides the following benefits: - The possibility of configuring 4Rx diversity sharing for WCDMA-LTE which results in more flexible WCDMA-LTE configurations. - The improvement of UL performance. • Configurations introduced by the feature: Cells/Sectors WCDMA: 1+1+1 LTE: 1+1+1
Configurations type LTE BW WCDMA: 2Tx/4Rx, VAM 5, 10, 15 MHz (K-type) LTE: 2Tx/4Rx, 2x2 MIMO (K-type)
System Module RF Modules Carriers assignment WCDMA: FSME or FSMF FRIE, FRGP, FXCA, FXDA, Both WCDMA and LTE LTE: FSMF* FXFA, FXFC, FXCB, FXDB carriers on shared Power Amplifiers (PAs).
WCDMA: 2+2+2 LTE: 1+1+1
WCDMA: 1Tx/4Rx, SIMO 5, 10 MHz (E-Type) LTE: 2Tx/4Rx, 2x2 MIMO(K-type)
WCDMA: FSME or FSMF FRIE, FRGP, FXCA, FXDA, Both WCDMA and LTE LTE: FSMF* FXFA, FXFC, FXCB, FXDB carriers on shared PAs.
*The RF Sharing configuration can be deployed on FBBC (instead of FSMF)
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LTE2901: Centralized RAN Supported Configurations • The LTE2901: Centralized RAN Supported Configurations feature provides the following benefits: - New supported configurations for choosing an optimum solution. - Uplink throughput gain during mass events at dense deployed venues.
• This feature introduces loop and chain configurations with 3Gbps and 6Gbps RFMs/RRHs supported by Centralized RAN. Centralized RAN supports chain and loop configurations of eNodeBs grouped together into a single Centralized RAN System. Each eNodeB consists of a Flexi Multiradio 10 System Module (FSMF) with two capacity extension sub-modules FBBC, and pre-defined inter-FSM cabling rules. Each eNodeB can support either three or four cells. • An eNodeB can be connected to two adjacent neighbor eNodeBs. This feature introduces configurations with up to 9 FSMFs chained/looped in a single Centralized RAN system, with up to 36 cells per system. Larger configurations are made up of groups of Centralized RAN systems. • CRAN supports both RF direct connections (FSMF to RRH/RM) or RF chained configurations (FSMF to RRH/RM to RRH/RM). This feature also supports 3 cells per FSMF with minimum gain loss.
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LTE2905: FYGG Firmware Upgrade • The LTE2905: FYGG Firmware Upgrade feature allows the BTS to initiate and control the FYGG firmware (FW) update process when the FYGG operating firmware is replaced and updated remotely while the FYGG is operating. • The BTS supports a general procedure for the FYGG firmware update mode to support the implementation procedure already available in the FYGG. The BTS is able to detect whether a FW update is required and initiate the procedure either for an earlier or newly installed and commissioned FYGG. • The FYGG keeps on providing 1PPS during the FW update process, however, the BTS does not receive ToD information from the FYGG. During the SW update process the FYGG does not overwrite its active software. • Following the FW upload, the FYGG requires a reset/restart, which happens automatically. During the reset, the FYGG does not generate 1PPS and the eNB operates in HO mode (or supports the already activated supplemental synchronization features available). • FYGG FW is brought from NetAct or BTS Site Manager to the passive BTS partition during the generic BTS Feature build descriptor download while the BTS is operating. The BTS is responsible for the distribution and management of the process of downloading FYGG FW.
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New Radio Modules in FL16 Band Name
Total spectrum
Uplink [MHz]
Downlink [MHz]
1
2100
2x60 MHz
1920 - 1980
2110 -2170
2
1900
2x60 MHz
1850 - 1910
1930 - 1990
3
1800
2x75 MHz
1710 - 1785
1805 - 1880
NAR
4
1.7/2.1
2x45 MHz
1710 - 1755
2110 - 2155
NAR
5
850
2x25 MHz
824 - 849
869 - 894
APAC
6
800
2x10 MHz
830 - 840
875 - 885
EMEA
7
2600
2x70 MHz
2500 - 2570
2620 - 2690
8
900
2x35 MHz
880 - 915
925 - 960 1844.9 1749.9 - 1784.9 1879.9 1710 - 1770 2110 - 2170 1475.9 1427.9 - 1437.9 1485.9 699.4 - 714.8 729.4 - 744.8
APAC
9
1700
2x35 MHz
NAR
10
1.7/2.1
2x60 MHz
Japan
11
1500
2x25 MHz
NAR
12
730
2x18 MHz
NAR
13
750
2x10 MHz
NAR
14
760
2x10 MHz
788 - 798
758 - 768
NAR
17
730
2x10 MHz
704.0 - 714.8
734.0 - 744.8
Japan
18
850
2x15 MHz
815 - 830
860 - 875
Japan
19
850
2x15 MHz
830 - 845
875 - 890
EMEA
20
800EU
2x30 MHz
832 - 862
Japan
21
1500
2x15 MHz
1447.9 - 1462.9
777 - 787
3TX RFM FRGP FRGT/FRGS FXFA FXFC/FXFB FXEA/FXEB FXEE FRIE FXCA FXCB
2TX RRH
FXDA/FXDB
22
3500
2x80 MHz
3410 - 3490
NAR
23
2000
2x20 MHz
2000 - 2020
2180 - 2200
NAR
24
1600
2x(10+10) MHz
1627.5 - 1638.0 1646.7 - 1657.0
1526.0 1536.5 1545.2 1555.5
NAR
25
1900
2x65 MHz
1850 - 1915
1930 - 1995
NAR
26
850
2x35 MHz
814 - 849
859 - 894
NAR
27
800
2x17 MHZ
807- 824
852 - 869
APAC
28
APT700
2x25 MHz
703 - 738
758 - 794
NAR
29
700
1x11 MHz
downlink only
717 - 728
NAR
30
2300
2x10 MHz
2305 - 2315
2350 - 2360
CALA
31
450
2x5 MHz
452.5 - 457.5
462.5 - 467.5
EMEA
32
1500 L-band
1x44 MHz
downlink only
1452 - 1496
4TX RRH
FRGU
FRGQ/FRGV
FRGY
FHGB
FXED
FHEA/FHEB
FHEF
FHEH
FHCA
FRCG
FHED FRIG
FRHD/FRHE
FRHG
FRHC/FRH F
FRHA FXEA
6TX RFM
FRHB
FXEB
FHDB
FHDA
FHEA
FHEB
LP-RRH
FL16 New Modules
Flexi Metro 2TX FHGA
FHEJ
FHEI
FHEE
RAS FASC FASB FASC FASB FASB FASB
FHDG
FRIE
FASC FASC FASC FASC
FASC FASB
FASC
FASB FASB FASB
FASC FASC FASC
FRKA FRLB
746 - 756
791 -821 1495.9 1510.9 3510 - 3590
23
XXXX
FRBB FXCA FRMA
FXCE FRMD
FRLB FHPC FRMC
FXFC/FXFB FXCA
FRME
FRMF
FHPC
FRAA
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FRMB
FRCC FRPA/FRPB
FRBG FRBE FRBF
FHFB
FRBG/FRBE FRNC
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FASA FASB FASB FASB FASB FASB
FASB
FASC FASC FASC
FASC
Supported RF Modules (LTE FDD) (1/2)
System release
E-UTRA Band
Variant
Type
RL09 RL10 RL10 RL10 RL10 RL20 RL20 RL20 RL20 RL20 RL20 RL30 RL30 RL30 RL30 RL40 RL40 RL40 RL40 RL50 RL50 RL50 RL50 RL50 RL50
7 1 4 10 20 3 5 6 9 18 19 5 14 18 19 2 3 9 20 1 1 7 7 8 8
FRHA FRGP FRIE FRIE FRMA FXEA FXCA FXCA FXEA FXCA FXCA FXCC FRBB FXCC FXCC FXFA FXEB FXEB FRMD FRGT FRGS FRHC FRHF FXDA FXDB
FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM
24
Max output power per TX branch 60 W 60 W 60 W 60 W 60 W 60 W 60 W 60 W 60 W 60 W 60 W 60 W 40 W 60 W 60 W 60 W 80 W 80 W 60 W 80W 80W 40W 40W 60 W 80W
Supported Power levels (W)
RX Band
8,20,30,40,60 8,15,20,30,40,45,60 8,20,30,40,60 8,20,30,40,60 8,20,30,40,60 8,20,30,40,45,60 8,20,30,40,60 8,20,30,40,60 8,20,30,40,45,60 8,20,30,40,60 8,20,30,40,60 8,20,30,40,60 8,20,30,40 8,20,30,40,60 8,20,30,40,60 8,20,30,40,60 8,20,30,40,60,80 8,20,30,40,60,80 8,20,30,40,60 8,15,20,30,40,60,80 8,15,20,30,40,45,60,80 8,20,30,40 8,20,30,40 8,15,20,30,40,45,60 8,15,20,30,40,45,60,80
2500 - 2570 MHz 1920 - 1980 MHz 1710 - 1755 MHz 1710 - 1770 MHz 832 - 862 MHz 1710 - 1785 MHz 824 - 849 MHz 830 - 840 MHz 1749.9 - 1784.9 MHz 815 - 830 MHz 830 - 845 MHz 824 - 849 MHz 788 - 798 MHz 815 - 830 MHz 830 - 845 MHz 1850 - 1910 MHz 1710 - 1785 MHz 1749.9 - 1784.9 MHz 832 - 847 MHz 1920 - 1980 MHz 1940 - 1980 MHz 2500 - 2555 MHz 2520 - 2570 MHz 880 - 915 MHz 880 - 915 MHz
RA41151EN162GLA0
Maximum RP3 HW TX / RX capability: link speed (3 or 6 Gbps) 2620 - 2690 MHz TX / RX: 20 MHz 3 2110 -2170 MHz TX / RX: 20 MHz 3 2110 - 2155 MHz TX: 20 MHz RX: 45 MHz 3 2110 - 2170 MHz TX: 20 MHz RX: 45 MHz 3 791 -821 MHz TX / RX: 20 MHz 3 1805 - 1880 MHz TX: 25 MHz RX: 30 MHz 3 869 - 894 MHz TX/RX: 15 MHz 3 875 - 885 MHz TX/RX: 15 MHz 3 1844.9 - 1879.9 MHz TX: 25 MHz RX: 30 MHz 3 860 - 875 MHz TX/RX: 15 MHz 3 875 - 890 MHz TX/RX: 15 MHz 3 869 - 894 MHz TX/RX: 15 MHz 3 758 - 768 MHz TX / RX: 10 MHz 3 860 - 875 MHz TX/RX: 15 MHz 3 875 - 890 MHz TX/RX: 15 MHz 3 1930 - 1990 MHz TX / RX: 20 MHz 3 1805 - 1880 MHz TX: 40 MHz RX: 75 MHz 6 1844.9 - 1879.9 MHz TX: 40 MHz RX: 60 MHz 6 791 -806 MHz TX / RX: 15 MHz 3 2110 -2170 MHz TX / RX: 60 MHz 6 2130 -2170 MHz TX/RX: 40MHz 6 2620 - 2675 MHz TX/RX: 40MHz 6 2640 - 2690 MHz TX/RX: 40MHz 6 925 - 960 MHz TX: 20 MHz RX: 35 MHz 3 925 - 960 MHz TX: 35 MHz RX: 35 MHz 6 TX Band
© Nokia Solutions and Networks 2016
Number of Optical Interfaces 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3
Feature ID / Pronto LTE85 LTE86 LTE99 LTE99 LTE437 LTE101 LTE87 LTE87 LTE101 LTE87 LTE87 LTE1356 LTE921 LTE1356 LTE1356 LTE763 LTE1040 LTE1040 LTE1306 LTE985 LTE986 LTE1066 LTE1563 LTE88 LTE1422
Supported RF Modules (LTE FDD) (2/2)
System release
E-UTRA Band
Variant
Type
Max output power Supported Power levels per TX branch (W)
RL50 RL50 RL50 RL50 RL60 RL60 RL60 RL60 RL60 RL70 RL70 RL70 FL15A
20 25 28 28 2 2 5 25 25 3 27 18 20
FRMC FXFA FRPA FRPB FXFB FXFC FXCB FXFB FXFC FXED FXCA FXCE FRME
FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM FRM
40 W 60 W 40 W 40 W 60 W 80 W 80 W 60 W 80 W 60 W 60 W 40 W 40 W
FL15A
3
FXEE
FRM
80W
FL16 FL16 FL16
1 20 11
FRGU FRMF FRKA
FRM FRM FRM
60 W 60 W 60 W
8,20,30,40 8,20,30,40,60 8,20,30,40 8,20,30,40 8,20,30,40,60 8,20,30,40,60,80 8,20,30,40,60,80 8,20,30,40,60 8,20,30,40,60,80 8,20,30,40,60 8,20,30,40,60 8,20,30,40 8, 20, 30, 40
RX Band
TX Band
842 - 862 MHz 1850 - 1910 MHz 703 - 738 MHz 718 - 748 MHz 1850 - 1910 MHz 1850 - 1910 MHz 824 - 849 MHz 1850 - 1910 MHz 1850 - 1910 MHz 1710 - 1785 MHz 807 - 824 MHz 815 - 830 MHz 832 - 862 MHz
801 -821 MHz 1930 - 1990 MHz 758 -793 MHz 773 -803 MHz 1930 - 1990 MHz 1930 - 1990 MHz 869 - 894 MHz 1930 - 1990 MHz 1930 - 1990 MHz 1805 - 1880 MHz 852 - 869 MHz 860 - 875 MHz 791 -811 MHz
HW TX / RX capability:
TX/RX: 40MHz TX / RX: 20 MHz TX/RX: 35MHz TX/RX: 30MHz TX / RX: 20 MHz TX: 35 MHz RX: 60 MHz TX/RX: 25 MHz TX / RX: 20 MHz TX: 35 MHz RX: 60 MHz TX: 75 MHz RX: 75 MHz TX/RX: 15 MHz TX/RX: 15 MHz TX: 20 MHz, RX: 30MHz TX: 75 MHz RX: 60 MHz 8,10,15,20,30,40,60,80 1710 - 1785 MHz 1805 - 1880 MHz (75MHz with RDSA with separate feature) 8,10, 15,20,30,40,60 1920 - 1980 MHz 2110 -2170 MHz TX: 60 MHz RX: 60 MHz 8,20,30,40,60 832 - 862 MHz 791 -821 MHz TX: 30 MHz, RX: 30MHz 8,20,30,40,60 1427.9 - 1447.9 MHz 1475.9 - 1495.9 MHz TX / RX: 10 MHz
Maximum RP3 link speed (3 or 6 Gbps)
Number of Optical Interfaces
Feature ID / Pronto
6 3 6 6 3 6 6 3 6 6 3 6 6
3 3 3 3 3 3 3 3 3 3 3 3 3
LTE1067 LBT1949 LTE1329 LTE1395 LTE1665 LTE1440 LTE1695 PR 45911ESPE05 PR 45911ESPE05 LTE1719 LTE2042 LTE2165 LTE1725
6
3
LTE2471
6 6 3
3 3 3
LTE1802 LTE2547 LTE752
NEW
25
RA41151EN162GLA0
© Nokia Solutions and Networks 2016
Supported RRH/RIU Modules (LTE FDD) (1/3)
System E-UTRA release Band RL10 RL20 RL20 RL20 RL20 RL30
20 3 9 12 17 1
Variant
Type
FRMB FHEA FHEA FRLB FRLB FRGQ
RRH RRH RRH RRH RRH RRH
Max output power per Supported Power TX branch levels (W) 40 W 40 W 40 W 30 W 30 W 40 W
8,20,30,40 8,20,30,40 8,20,30,40 8,20,30 8,20,30 8,20,30,40
Maximum RP3 link speed (3 or 6 Gbps)
Number of Optical Interfaces
Feature ID / Pronto
TX / RX: 16 MHz TX / RX: 60 MHz
3 3 3 3 3 3
2 2 2 2 2 2
LTE547 LTE104 LTE104 LTE103 LTE103 LTE452
1830 - 1850 MHz
TX: 25 MHz RX: 40 MHz
3
2
LTE1337 PR113181ESPE04
RX Band
TX Band
HW TX / RX capability:
832 - 862 MHz 1710 - 1785 MHz 1749.9 - 1784.9 MHz 699 - 715 MHz 704 - 715 MHz 1920 - 1980 MHz
791 -821 MHz 1805 - 1880 MHz 1844.9 - 1879.9 MHz 729 - 745 MHz 734 - 745 MHz 2110 -2170 MHz
TX / RX: 30 MHz TX: 25 MHz RX: 40 MHz TX: 25 MHz RX: 40 MHz
1735 - 1755 MHz
RL30
3
FHEC
Commissioning max ouput is 60 W (RL40: 5,8,10,20,30,40,60,(R RRH 80 W), fixed ouput low L40:80) power is 1 mW
RL30 RL30 RL30 RL40
5 5 7 3
FHCA FHCC FRHB FHCC
RRH RIU RRH RIU
20 W N/A 40 W N/A
8,20 8,20,30,40,60 8,20,30,40 8,20,30,40,60
824 - 849 MHz 824 - 849 MHz 2500 - 2570 MHz 1710 - 1785 MHz
869 - 894 MHz 869 - 894 MHz 2620 - 2690 MHz 1805 - 1880 MHz
TX / RX: 25 MHz TX / RX: 15 MHz TX / RX: 70 MHz TX: 25 MHz RX: 30 MHz
3 3 3 3
2 4 2 4
LTE91 LTE1195 LTE89 LTE1195
8,20,30,40,60
1710 - 1770 MHz
2110 - 2170 MHz
TX: 45 MHz RX: 45 MHz
6
3
LTE1148
8,20,30,40,60 8,20,30,40,60 8,20,30,40,60 8,10,15,20,27,30
880 - 915 MHz 1920 - 1980 MHz 1710 - 1785 MHz 2520 - 2570 MHz
925 - 960 MHz 2110 -2170 MHz 1805 - 1880 MHz 2640 - 2690 MHz
TX: 35 MHz RX: 35 MHz TX: 25 MHz RX: 30 MHz TX: 40 MHz RX: 60 MHz TX: 50 MHz RX: 50 MHz
6 3 6 6
2 4 2 3
LTE1261 LBT2063 LTE1262 LTE748
RL40
4
FRIG
RRH
2TX mode (RL40): 60 W (Ant1,Ant3), 0 W (Ant2,Ant4) 4TX mode (RL50): 30 W (Ant1…Ant4)
RL40 RL50 RL50 RL50
8 1 3 7
FHDB FHCC FHEB FRHD
RRH RIU RRH RRH
60 W N/A 60 W 30 W
26
RA41151EN162GLA0
© Nokia Solutions and Networks 2016
Supported RRH/RIU Modules (LTE FDD) (2/3) System release
E-UTRA Band
Variant
Type
Max output power per TX branch 4TX:
RL50
7
FRHE
RRH
RL60 RL70 RL70 RL70 RL70 RL70 RL70
28 3 8 25 1 3 1
FRPK FHEF FHDA FHFB FHGB FHEG FRGY
RL70
8
FHDG
RL70
1
FHGA
RL70
3
FHEJ
RRH RRH RRH RRH RRH RRH RRH Metro RRH Metro RRH Low power RRH
FL15A FL15A
27
29 13 14
2TX:
Supported Power levels (W)
RX Band
TX Band
HW TX / RX capability:
Maximum RP3 link speed (3 or 6 Gbps)
Number of Optical Interfaces
Feature ID / Pronto
8,10,15,20,30
2500 - 2555 MHz
2620 - 2675 MHz
TX: 55 MHz RX: 55 MHz
6
3
LTE1662
1,20 8,20,30,40,60 8,20,30,40 8,15,20,30 8,10,20,30 8, 20, 30, 40, 60 8, 15, 20, 30, 40, 60 50 mW - 5W, with 1dB step 50 mW - 5W, with 1dB step
718 - 728 MHz 1710 - 1765 MHz 880 - 915 MHz 1850 - 1915 MHz 1920 -1940 MHz 1755 - 1785 MHz 1920 - 1980 MHz
773 -783 MHz 1805 - 1860 MHz 925 - 960 MHz 1930 - 1995 MHz 2110 - 2130 MHz 1850 - 1880 MHz 2110 - 2170 MHz
TX/RX: 10MHz TX: 40 MHz RX: 55 MHz TX: 25 MHz RX: 35 MHz TX: 40 MHz RX: 60 MHz TX/RX: 20 MHz TX/RX: 30 MHz TX/RX: 40 MHz
6 6 3 6 6 6 6
2 2 2 3 3 2 2
LTE1615 LTE2041 LTE2040 LTE1149 LTE2147 LTE2066 LTE2097
900 - 915 MHz
945 - 960 MHz
TX/RX: 15 MHz
6
2
LTE2247
1920 - 1980 MHz
2110 - 2170 MHz
TX/RX: 40 MHz
6
2
LTE2032
10 W
1, 2, 3, 4, 6, 8, 10
1715 - 1775 MHz
1810 - 1870 MHz
TX/RX: 20 MHz
6
2
LTE2308
N/A 777 - 787 MHz 788 - 798 MHz
718 - 728 MHz 746 - 756 MHz 758 - 768 MHz
TX: 10 MHz
6
3
LTE2143
TX / RX: 10 MHz
6
3
LTE2146
815 - 830 MHz 718 - 728 MHz
860 - 875 MHz 773 - 783 MHz
TX/RX: 15 MHz
CPRI_L3
2
LTE2148
1710 - 1770 MHz
1805 - 1865 MHz
TX/RX: 40 MHz
6
2
LTE2245
30 W 30 W 20 W 60 W 40 W 30 W 30 W 60 W 60 W 5W 5W
FRBE
RRH
40 W
8, 20, 30, 40
FRBF
RRH
40 W
8, 20, 30, 40 1-20W (10MHz) 1.5 -30W (15MHz) with 0.1dB step 50 mW - 5W, with 1dB step
FL15A
18 28
FHPC
RRH
30 W
FL15A
3
FHEI
Metro RRH
5W
RA41151EN162GLA0
© Nokia Solutions and Networks 2016
Supported RRH/RIU Modules (LTE FDD) (3/3)
System release
E-UTRA Band
Variant
Type
Max output power per TX branch
Supported Power levels (W)
RX Band
TX Band
HW TX / RX capability:
Maximum RP3 link speed (3 or 6 Gbps)
Number of Optical Interfaces
Feature ID / Pronto
FL15A
5
FRCG
RRH
60 W
8, 15, 20, 30, 40, 60
824 - 849 MHz
869 - 894 MHz
TX:/RX: 25 MHz
6
2
LTE2263
FL15A
30
FRNC
RRH
30 W
8, 15, 20, 30
2305 - 2315 MHz
2350 - 2360 MHz
TX / RX: 10MHz
6
3
LTE2264
FL15A
12 29
FRBG
RRH
40 W
8, 20, 30, 40
699 - 715 MHz N/A
729 - 745 MHz 718 - 728 MHz
TX: 10 MHz
6
3
LTE2266
FL15A
26
FRCC
RRH
40 W
5, 8, 10, 12, 20, 30, 40
817 - 824 MHz
862 - 869 MHz
TX/RX: 7 MHz
6
2
LTE2310
FL15A
1
FHGB
RRH
30 W
8,10,20,30
1920 -1940 MHz
2110 - 2130 MHz
TX/RX: 20 MHz
6
3
LTE2147
FL16
31
FRAA
RRH
40 W
8,15,20,30,40
452.5 - 457.5 MHz
462.5 - 467.5 MHz
TX / RX: 5MHz
6
2
LTE2129
FL16
3
FHEE
Metro RRH
5W
50 mW - 5W, with 1dB step
1710 - 1785 MHz
1805 - 1880 MHz
TX: 60 MHz RX: 60 MHz
6
2
LTE2035
FL16
3
FHED
RRH
40 W
8,20,30,40
1710 - 1785 MHz
1805 - 1880 MHz
TX: 60 MHz RX: 60 MHz
6
3
LTE1507
FL16
7
FRHG
RRH
40 W
8,20,30,40
2500 - 2570 MHz
2620 - 2690 MHz
TX/RX: 65 MHz
6
3
LTE2284
FL16
3
FHEH
RRH
40 W
8,20,30,40
1755 - 1785 MHz
1850 - 1880 MHz
TX: 30 MHz RX: 30 MHz
6
3
LTE2067
FL16
28
FHCG
RIU
N/A
8,20,30,40,60
718 - 728 MHz
758 - 794 MHz
TX: 25 MHz RX: 30 MHz
3
2
LTE2628
FL16
1
FHCG
RIU
N/A
8,20,30,40,60
1920 - 1980 MHz
2110 -2170 MHz
TX:25 MHz RX: 30 MHz
3
2
LTE2628
FL16
3
FHCG
RIU
N/A
8,20,30,40,60
1710 - 1785 MHz
1805 - 1880 MHz
TX: 25 MHz RX: 30 MHz
3
2
LTE2628
FL16
5
FHCG
RIU
N/A
8,20,30,40,60
824 - 849 MHz
869 - 894 MHz
TX / RX: 15 MHz
3
2
LTE2628
FL16
7
FHCG
RIU
N/A
8,20,30,40,60
2500 - 2570 MHz
2620 - 2690 MHz
TX: 25 MHz RX: 30 MHz
3
2
LTE2628
NEW 28
RA41151EN162GLA0
© Nokia Solutions and Networks 2016
Supported RAS Modules (LTE FDD) Type
System release
Variant
Antenna Freq Band
RL70
FASA
1696 - 2180 MHz 1850 - 1920 MHz 1930 - 2000 MHz 1695 - 1780 MHz 2095 - 2690 MHz
FASB
698 - 894 MHz
RAS
FL15A
2300 - 2690 MHz
1695 - 2200 MHz
FASC
694 - 960 MHz
29
RA41151EN162GLA0
E-UTRA Band
Rx Band
Tx Band
Supported Radio
25 2 25 4 7 10 30 5 12 13 14 18 19 26 27 28 29 7 30 1 2 3 4 10 25 5 8 12 13 14 20 26 28 29
1850 - 1915 MHz 1850 - 1910 MHz 1850 - 1915 1710 - 1755 MHz 2500 - 2570 MHz 1710 - 1770 MHz 2305 - 2315 MHz 824 - 849 MHz 699.4 - 714.8 MHz 777 - 787 MHz 788 - 798 MHz 815 - 830 MHz 830 - 845 MHz 814 - 849 MHz 807- 824 MHz 703 - 738 MHz downlink only 2500 - 2570 MHz 2305 - 2315 MHz 1920 - 1980 MHz 1850 - 1910 MHz 1710 - 1785 MHz 1710 - 1755 MHz 1710 - 1770 MHz 1850 - 1915 MHz 824 - 849 MHz 880 - 915 MHz 699.4 - 714.8 MHz 777 - 787 MHz 788 - 798 MHz 832 - 862 MHz 814 - 849 MHz 703 - 738 MHz downlink only
1930 - 1995 MHz 1930 - 1990 MHz 1930 - 1995 MHz 2110 - 2155 MHz 2620 - 2690 MHz 2110 - 2170 MHz 2350 - 2360 MHz 869 - 894 MHz 729.4 - 744.8 MHz 746 - 756 MHz 758 - 768 MHz 860 - 875 MHz 875 - 890 MHz 859 - 894 MHz 852 - 869 MHz 758 - 794 MHz 717 - 728 MHz 2620 - 2690 MHz 2350 - 2360 MHz 2110 -2170 MHz 1930 - 1990 MHz 1805 - 1880 MHz 2110 - 2155 MHz 2110 - 2170 MHz 1930 - 1995 MHz 869 - 894 MHz 925 - 960 MHz 729.4 - 744.8 MHz 746 - 756 MHz 758 - 768 MHz 791 - 821 MHz 859 - 894 MHz 758 - 794 MHz 717 - 728 MHz
FHFB
© Nokia Solutions and Networks 2016
FHFB
FRNC FRCG FRBG FRBE FRBF
FRCC
FRNC FRGY
FRCG FRBG FRBE FRBF FRCC
RA41151EN162GLA0
© Nokia Solutions and Networks 2016