FCC ID: 2AG32MBS3100190 LTE Base Station mBS31001 Installation Guide 01 All rights reserved Baicells Technologies Co., Ltd. LTE TDD Base Station Installation Guide About This Document This document is a guidance of mBS31001 hardware installation for installation personnels, including the preparation of installation tools and supporting materials, the demands for installation environment, installation procedure, cable connection and power on. Accomplish the installation of the device according to this guide, the installation personnel can avoid potential damage to the device during the installation procedure, which makes sure the subsequent good running of the device. Copyright Notice Baicells copyrights this specification. No part of this specification may be reproduced in any form or means, without the prior written consent of Baicells. Disclaimer This specification is preliminary and is subject to change at any time without notice. Baicells assumes no responsibility for any errors contained herein. For more information, please consult our technical engineers. Disposal of Electronic and Electrical Waste Pursuant to the WEEE EU Directive, electronic and electrical waste must not be disposed of with unsorted waste. Please contact your local recycling authority for disposal of this product. Revision Record Date Version Description 22 June, 2018 01 Initial Released. Contact Us Baicells Technologies Co., Ltd. Address: 3F, Hui Yuan Development Building, No.1 Shangdi Information Industry Base, Haidian Dist., Beijing, China E-mail:
support_cn@baicells.com (Non-North American region) support_na@baicells.com (North American region) Website: http://www.baicells.com/
LTE TDD Base Station Installation Guide Table of Contents 1. Product Overview ......................................................................................................... 1 1.1 Introduction ........................................................................................................... 1 1.2 Features ................................................................................................................. 1 1.3 Appearance ............................................................................................................ 2 1.4 Technical Specification............................................................................................ 3 1.4.1 Hardware Specification ................................................................................... 3 1.4.2 Software Specification ..................................................................................... 4 1.4.3 Environment Specification ............................................................................... 5 1.4.4 FCC Compliance............................................................................................... 5 2. Installation Preparation .............................................................................................. 7 2.1 Support Materials ................................................................................................. 7 2.2 Installation Tools .................................................................................................. 7 2.3 Installation Environment......................................................................................... 8 2.3.1 Locational Requirements ................................................................................. 8 2.3.2 Environmental Requirements .......................................................................... 8 2.4 Personnel Requirements ......................................................................................... 8 2.5 Against Lightening and Grounding Protection ......................................................... 8 2.6 Weatherproof Protection ....................................................................................... 9 3. Base Station Installation ............................................................................................. 10 3.1 Unpacking............................................................................................................ 10 3.2 Installation Procedure ........................................................................................ 10 3.3 Install GPS Antenna .............................................................................................. 10 3.4 Install on Pole ....................................................................................................... 11 3.5 Install on Wall ....................................................................................................... 13 3.6 Connect Cable ...................................................................................................... 13 3.6.1 Requirement for Cable Laying........................................................................ 13 LTE TDD Base Station Installation Guide 3.6.2 3.6.3 3.6.4 3.7 3.7.1 Connect RF Cable .......................................................................................... 14 Connect Power Connector ............................................................................. 15 Connect Ground Cable .................................................................................. 16 Antenna Feeder System .............................................................................. 16 Install Install Omnidirectional Antennas ................................................................... 16 3.7.2 Install Directional Antennas ........................................................................... 18 4. Power On.................................................................................................................... 20 List of Figures Figure 1-1 Appearance ............................................................................. 2 Figure 1-2 Interfaces and Indicators ......................................................... 2 Figure 3-1 Installation Procedure ....................................................... 10 Figure 3-2 Location of Grounding Screws.................................................................. 16 Figure 3-3Omnidirectional Antenna Installation (1) ................................................... 17 Figure 3-4 Omnidirectional Antenna Installation (2) ................................................... 18 Figure 3-5 Assembling Procedure of Directional Antennas ....................................... 18 Figure 3-6 Transportation the Antennas in the Height ............................................... 19 Figure 3-8 Directional Antenna Installation ................................................................ 19 Figure 4-1 LED Indicators........................................................................................... 20 List of Tables Table 1-1 Interface Description ................................................................. 3 Table 1-2 Interface Indicators ................................................................... 3 Table 2-1 Support Materials for Installing Base Station ............................................... 7 Table 2-2 Environmental Requirements of the Base Station ....................................... 8 Table 4-1 Indicator Description ............................................................... 20 LTE TDD Base Station Installation Guide 1. Product Overview 1.1 Introduction mBS31001 is a high performance outdoor micro base station based on LTE TDD technology, which is developed by Baicells. The mBS31001supports wired backhaul connections to backbone networks, and provides LTE access to user terminals, implemented voice and data service transmissions. The mBS31001 makes use of the current transmission resources to reduce the operators investment, implement the low-cost construction of LTE networks and enhance indoor coverage, thereby providing high-speed broadband access for users in assembly occupations. The mBS31001 can be widely used by telecom operators, broadband operators, enterprises, and so on. 1.2 Features Adopt the integration design of baseband and RF. Citizens Broadband Radio Service (CBRS) band covers with dual carrier. Based on 3GPP international standard TDD LTE technology; provide high speed data service; support a maximum transfer rate of DL: 220Mbit/s, UL: 14Mbit/s with 2x20MHz spectrum. Support flexible uplink and downlink time slot ratio: 1(2:2), 2(1:3), and high speed data transmission. Support 5MHz/10MHz/15MHz/20MHz operation bandwidth. Support four ports antenna or two antennae with two ports. Support copper (RJ-45) and optical port backhaul, flexible to deploy. Security services to provide timely protection against potential security risks and illegal intrusion. Support simple and convenient local and remote web management. Integration as required, easy to installation and deployment, accurate coverage and improved network capacity. Support network management functions, which includes the management, monitoring and maintenance. 1 LTE TDD Base Station Installation Guide 1.3 Appearance The mBS31001 base station appearance is shown in Figure 1-1. Figure 1-1 Nova-436Q Appearance The mBS31001 interfaces and indicators are shown in Figure 1-2. Figure 1-2 mBS31001Interfaces and Indicators 2 LTE TDD Base Station Installation Guide The mBS31001 interfaces are described in Table 1-1. The mBS31001 interface indicators are described in Table 1-1. Table 1-1 mBS31001 Interface Indicators Identity Color Status Description PWR Green Steady On OFF Fast flash: 0.125s CELL2 Green on,0.125s off Power On No Power Supply CELL 2 inactivated Slow flash: 1s on,1s off CELL 2 activated Fast flash: 0.125s CELL1 Green on,0.125s off CELL 1 inactivated Slow flash: 1s on,1s off CELL 1 activated ALM Red Steady On OFF Hardware alarm, e.g. VSWR alarm No alarm 1.4 Technical Specification 1.4.1 Hardware Specification Item LTE Mode LTE Frequency Model LTE TDD 3655-3695MHz mBS31001 Description 3 LTE TDD Base Station Installation Guide Item Description Receive Sensitivity
-100 dBm Backhaul MIMO Dimension 1 Optical (SFP) and 1 RJ-45 Ethernet interface (1 GE) DL 2 x 2 on each carrier 310mm(H) x 239 mm(W) x 105 mm(D) Installation Type Pole, wall Antenna External high gain antenna Overall Power
< 60 W Power Weight Note:
48V DC, AC adaptor (multi-national standards) About 5.5kg The test method of receiving sensitivity is proposed by the 3GPP TS 36.104, which is based on 5MHz bandwidth, FRC A1-3 in Annex A.1 (QPSKR=1/325RB) standard. 1.4.2 Software Specification Item Description LTE Standard 3GPP Release 12 Peak Rate User Capacity Modulation 2x20 MHz:
SA1: DL 80 Mbps, UL 28 Mbps (per cell) SA2: DL 110 Mbps, UL 14 Mbps (per cell) 2x10MHz:
SA1: DL 40 Mbps, UL 14 Mbps (per cell) SA2: DL 55 Mbps, UL 7 Mbps (per cell) 96 concurrent users per cell/carrier 192 concurrent users per eNodeB UL: QPSK, 16QAM, 64QAM DL: QPSK, 16QAM, 64QAM Voice Solution CSFB, VoLTE, eSRVCC Traffic Offload LIPA (Local IP Access) SIPTO (Selected IP Traffic Offload) Automatic setup SON ANR (Automatic Neighbor-cell Recognition) PCI confliction detection Spectrum Scanning Supported UL Interference Detection Supported RAN Sharing Supported Network Management Interface TR069 interface protocol 4 LTE TDD Base Station Installation Guide Item Description MTBF MTTR 150000 hours 1 hour Support remote/local maintenance, based on SSH protocol Support remote maintenance Support online status management Support performance statistics Support failure management Support configuration management Maintenance Support local or remote software upgrading and loading Support log Support connectivity diagnosis Support automatic start and configuration Support alarm reporting Support KPI Recording Support user information tracing Support signaling trace 1.4.3 Environment Specification Item Description Operating Temperature Storage Temperature Humidity
-40C to 55C
-45C to 70C 5% to 95%
Atmospheric Pressure 70 kPa to 106 kPa Ingress Protection Rating IP66 Power Interface Lightning Protection Differential mode: 10KA Common mode: 20KA 1.4.4 FCC Compliance This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 5 LTE TDD Base Station Installation Guide This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Warning:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 40cm between the radiator & your body. 6 LTE TDD Base Station Installation Guide 2. Installation Preparation 2.1 Support Materials Prepare the following support materials accordingly, as given in Table 2-1. Table 2-1 Support Materials for Installing Base Station Item Description Power cable
< AWG16 e.g. AWG14 Shorter than 100m (330 feet) Antenna RF cable 50 ohm feeder Optical fiber Single mode optical fiber Ethernet cable Outdoor CAT6 Shorter than 100m (330 feet) Antenna Omnidirectional, or directional antenna Ground cable 16mm yellow-green wire 2.2 Installation Tools The following tools are needed during the installation. Level bar Marking pen Knife Vise Wrench Percussion drill and hammer Cross screw Cable vice Tape measure some drill heads driver 5mm L-shape Allen T7 screwdriver Ladder wrench head 7 LTE TDD Base Station Installation Guide 2.3 Installation Environment 2.3.1 Locational Requirements Environments with high-temperatures, harmful gases, unstable voltages, volatile vibrations, loud noises, flames, explosives, and electromagnetic interference (large radar stations, transmitting stations, transformer substations) are not suitable for the operation of mBS31001, and thus should be avoided. Places prone to have impounded water, soaking, leakage, or condensation, should also be avoided. Factors like climate, hydrology, geology, earthquake, electric power, and transportation should be taken into consideration in the construction process so that a proper location can be chosen to meet the communication engineering environmental requirements, as well as the technical requirements of network planning and communication equipment. 2.3.2 Environmental Requirements Table 2-2 gives the base stations environmental requirements with regards to temperature, humidity, and voltage. Table 2-2 Environmental Requirements of the Base Station Item Range Typical value Temperature
-40C to 55C 25C Relative humidity (no condensation) 0% to 100%
5% to 95%
Safety voltage 42V to 60V 48V 2.4 Personnel Requirements The installation personnel must master the basic safe operation knowledge, through the training, and having the corresponding qualifications. 2.5 Against Lightening and Grounding Protection CAUTION:
It is unlikely to happen but since the LTE base station is very sophisticated equipment so we would recommend you to test it on the ground to make sure everything is functioning before install on the tower. 8 LTE TDD Base Station Installation Guide Grounding Notes:
The ground wire adopts yellow-green wire that is no smaller than 16 mm. Grounding principle: as near as possible. The base station connects to the reliable outdoor grounding point (earth) through one ground screw. The connection of the grounding points and the ground bar need to be tight and reliable. Rustproofing the terminals is required. This can be done with rust preventing paint, anti-oxidation coatings, grease, and so on. 2.6 Weatherproof Protection The mBS31001 adopts cold shrink tube for weatherproof protection. Before installing the cold shrink tube, clean up the interface first. The weatherproof protection steps are as follows:
1. Insert cable into cold shrink tube. 2. Tighten the connector. 3. Push the cold shrink tube to the top joint and pull out the strip. 4. Check whether the cold shrink tube tight connect with the connection. 9 LTE TDD Base Station Installation Guide 3. As the following figure, hung the two pins on the base station bracket to the installation bracket, push the base station until the hook block to the base station bracket. 4. Tighten two screws on the top of the bracket using cross screwdriver to complete the installation. 10 LTE TDD Base Station Installation Guide 3.5 Install on Wall The wall must bear four times of the base station weight. 1. Take apart the assembled installation bracket kit to get the installation bracket 2. Fit the installation bracket on the wall, and mark the drilling locations. Caution:
The arrow of the installation bracket must be upward. 3. Drill two 10mm diameter and 70mm depth holes in the wall by following the marked locations. 4. Check the up/down direction of the installation rack, and then fix base station to the wall using M8*80 expansion screws. 5. Refer to the installation steps on pole, fix base station on wall. 3.6 Connect Cable 3.6.1 Requirement for Cable Laying General requirements:
Bending radius requirement of feeder cable: 7/8 > 250mm, 4/5 > 380mm Bending radius requirement of jumper cable: 1/4 > 35mm1/2 (super soft) > 50mm 1/2 (ordinary)>127mm Bending radius requirement of power cable and grounding cable: > tripled of the diameter of cable The minimum bend radius of the optical fiber is the 20 times of the diameter of optical fiber. Binding the cables according the type of the cable, the intertwining and crossing is forbidden. 11 LTE TDD Base Station Installation Guide 3. Lay optical fibers along the wire groove, and stretch out the wiring cavity from OPT hole. The redundant fiber should wind neatly. 3.6.2 Connect Ethernet Cable 1. Connect the Ethernet cable to ETH interface in the wiring cavity. 2. Lay Ethernet cable along the wire groove, and stretch out the wiring cavity from ETH hole. 3.6.3 Connect Power Connector Because it is not sure that the distance between the installation site and the power supply device, the two ends of power adapter are bare terminal end. The operators need to make power cable according to the actual conditions on installation site, and assemble power plug and power terminal on two ends of power adapter. Strip 12mm insulating layer with wire stripper, which is used for connection to connector. It is recommended that the power cord length is kept below 100m (330 feet). The connection steps of power cable is as follows. 1. Assemble power plug. The power plug will be installed on the end of input direction. Refer to the identification on power plug, connect live wire, neutral wire, and ground wire to corresponding terminals separately, and tighten screws. 2. Assemble power terminal. The power terminal will be installed on the end of output direction. Refer to the following figure to connect live wire and neutral wire. 3. Connect the power cable to PWR interface in the wiring cavity. 4. The power cable lays along the lint slot, and stretch out the wiring cavity from PWR hole. 5. The input of the power adaptor connects to the outlet. If the outlet is indoors, place the power adaptor indoors. 12 LTE TDD Base Station Installation Guide If the outlet is outdoors, place the power adaptor in a water proof box. 6. After the cable connection is complete in the wiring cavity, tighten the screws on the cover to close the wiring cavity using M4 cross screwdriver. 3.6.4 Connect Ground Cable Make the grounding cable according the actual situation of the installation site. The Nova-436Q provides two grounding screws, which is located on the bottom of the base station, as shown in Figure 3-3. Figure 3-3 Location of Grounding Screws 1. Unscrew one grounding screw, connect one end of the grounding cable to the grounding screw, and fasten it again. 2. The other end of the ground cable needs to connect to a good grounding point. 3.7 Install Antenna Feeder System There are two kinds of outdoor antennas, omnidirectional outdoor antennas and directional outdoor antennas, whose installation will be introduced in the following, respectively. 3.7.1 Install Omnidirectional Antennas One should pay attention to the followings while installing the omnidirectional outdoor antenna:
The diameter of the pole for omnidirectional outdoor antennas is required to be 35mm ~ 50mm. A typical case is to use the 50mm-diameter round-steel-made pole
(with details depending on the specific antenna type). 13 LTE TDD Base Station Installation Guide Make sure that the top of pole and the clamp beneath the antenna are at the same level, after installing the omnidirectional outdoor antenna on the pole. Make sure that the antenna is high enough to meet the coverage requirement, and that the antenna top falls within the 45 degrees safety angle towards the lightening rod, as shown in Figure 3-4. In principle, no lightening rod can be welded to pole (no metal object is allowed within 1m of the horizontal direction of the omnidirectional antennas), when installing the omnidirectional antennas. Instead, an independent lightening rod should be settled between the two poles, where the lightening rod must be high enough to keep all antennas under its protection cover. Figure 3-4 Omnidirectional Antenna Installation (1) In case is impossible to install an independent lightning rod due to environmental limitations, the installation method shown in Figure 3-5 can be used. Be aware that the pole supporting the lightening rod should be kept at least 1m away from the omnidirectional outdoor antennas. 14 LTE TDD Base Station Installation Guide Figure 3-5 Omnidirectional Antenna Installation (2) 3.7.2 Install Directional Antennas 1. First, assemble the antennas, as shown in Figure 3-6. Figure 3-6 Assembling Procedure of Directional Antennas 2. To install it on the iron tower, use a pulley to transport the antenna assembled to the platform on the iron tower, as shown in Figure 3-7. Following the safety rules when working at these heights. 15 LTE TDD Base Station Installation Guide Figure 3-7 Transportation the Antennas in the Height 3. Fix the pole vertically to the ground or concrete pillars on the rooftop using expansion screws, and fasten it with steel wires. Then, mount the directional outdoor antenna onto the pole using the installation rack, as shown in Figure 3-8. Figure 3-8 Directional Antenna Installation 4. When the base station has been installed in a proper position, connect all the cables and wires. 5. Run tests, then seal and weatherproof all the connections after the testing has successfully completed. Refer to 2.6 Weatherproof Protection. 16 LTE TDD Base Station Installation Guide 4. Power On Power on the Nova-436Q, and the indicators will light up, as shown in Figure 4-1. Figure 4-1 LED Indicators The explanation of the indicator signal is given in Table 4-1. Identity Color Status Description Table 4-1 Nova-436Q Indicator Description PWR Green Steady On Power On OFF No Power Supply Fast flash: 0.125s CELL2 Green on,0.125s off CELL 2 inactivated Slow flash: 1s on,1s off CELL 2 activated Fast flash: 0.125s CELL1 Green on,0.125s off CELL 1 inactivated Slow flash: 1s on,1s off CELL 1 activated ALM Red Steady On Hardware alarm, e.g. VSWR alarm OFF No alarm 17 Caution:
This device complies with Part 15 of the FCC rules and Industry Canada licenseexempt RSS standard(s).Operationissubjecttothefollowingtwoconditions:(1)thisdevicemaynotcause harmful interference, and (2) this device must accept any interference received, including interferencethatmaycauseundesiredoperation. The manufacturer is not responsible for any radio or TV interference caused by unauthorized modificationsorchangetothisequipment.Suchmodificationsorchangecouldvoidtheusers authoritytooperatetheequipment. Thisradiotransmitter(identifythedevicebycertificationnumberormodelnumberifCategoryII) hasbeenapprovedbyIndustryCanadatooperatewiththeantennatypeslistedbelowwiththe maximumpermissiblegainindicated.Antennatypesnotincludedinthislist,havingagaingreater thanthemaximumgainindicatedforthattype,arestrictlyprohibitedforusewiththisdevice. ThisequipmenthasbeentestedandfoundtocomplywiththelimitsforaClassBdigitaldevice, pursuanttopart15oftheFCCRules.Theselimitsaredesignedtoprovidereasonableprotection againstharmfulinterferenceinaresidentialinstallation.Thisequipmentgenerates,usesandcan radiateradiofrequencyenergyand,ifnotinstalledandusedinaccordancewiththeinstructions, maycauseharmfulinterferencetoradiocommunications.However,thereisnoguaranteethat interference will not occur in a particular installation. If this equipment does cause harmful interferencetoradioortelevisionreception,whichcanbedeterminedbyturningtheequipment off and on, the user is encouraged to try to correct the interference by one or more of the followingmeasures:
Reorientorrelocatethereceivingantenna. Increasetheseparationbetweentheequipmentandreceiver. Connecttheequipmentintoanoutletonacircuitdifferentfromthattowhichthereceiveris connected. Consultthedealeroranexperiencedradio/TVtechnicianforhelp. ThedevicehasbeenevaluatedtomeetgeneralRFexposurerequirement. To maintain compliance with FCCs RF exposure guidelines, this equipment should be installedandoperatedwithaminimumdistanceof40cmbetweentheradiatorandyour body.