Nova846 Outdoor 8x5W eNodeB Quick Guide P/N: 1701000180 Document version: 01 All rights reserved © Baicells Technologies Co., Ltd.
1. Product Overview 1.1 Introduction The Baicells Nova846 is an advanced dual-mode outdoor integrated eNodeB (eNB) product that operates in LTE Time Division Duplexing (TDD) mode. This 8x5W eNB is capable of operating in Carrier Aggregation (CA) mode or Dual Carrier (DC) / split mode. Combining a variety of technologies, the Nova846 provides wireless coverage solutions, which will offer users with high-speed broadband wireless Internet access.
compact outdoor Smart UPS EPB series. Plug-and-play with self-organizing network (SON) capabilities. IoT with all standard LTE Evolved Packet Core (EPC). GUI-based local and remote web management, cooperating with the BaiOMC NMS to support unified configuration, management, monitoring and maintenance. Highly secured with equipment certification against potential intrusion risk. TR-069 network management interface support.
Figure 1-2 Nova846 Interfaces and Indicators The Nova846 interfaces are described in Table 1-1. Table 1-1 Nova846 Interface Description Interface Description ETH0 Ethernet interface 1 (SFP optical interface or GE electric interface), connect to external transmission network, used for data backhaul. ETH1 Ethernet interface 2 (SFP optical interface), connect to external transmission network, used for data backhaul. PWR Power interface: -48V (-40.
Table 1-2 Nova846 Interface Indicators Identity Color RUN Green ALM Red ACT Green Status Description Steady On Power on OFF No power supply OFF No alarm Steady On The system exists alarms. Steady On The device has been powered on. Fast flash: 0.125s on,0.125s off Data is transmitting. Slow flash: 1s on,1s off The cell has been activated. ETH0 Green ETH1 1.4 Green Steady On S1 link is up.
Item Description Power consumption ≤ 300W Power +40.5V to 57 V DC, Nominal +54VDC Weight 11.0kgs Basic report function RSSI , VSWR, TSSI(transmission signal strength), temperature, etc. Cooling Method Noise Figure Natural convection cooling @ vertical installation Room temperature: <2.5 All temperature: <3.5 MTBF ≥ 150000 hours MTTR ≤ 1 hour NOTE: 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.
Item Description DL: QPSK, 16QAM, 64QAM, 256QAM* Voice Solution VoLTE, Circuit Switched Fallback (CSFB)* Traffic Offload Local breakout Self-organizing network: RAN Sharing Automatic setup Automatic Neighbor Relation (ANR) PCI confliction detection Multi-Operator Core Network (MOCN)* HaloB Supported Network Mgmt TR-069 SON Support remote/local maintenance Support online status management Support performance statistics* Support failure management* Maintenance Support configuration managem
Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 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.
Item Description Optical fiber Single mode optical fiber Antenna Omnidirectional, or directional antenna Ground cable The diameter of grounding cable must be 10mm2 or greater. 2.2 Installation Tool Knife Vise Tape measure Percussion drill and some drill heads Wrench Cable vice Cross screw driver hammer NOTE: Other accessories have been packed in the packing box. 2.3 Install GPS Antenna Read the following GPS antenna installation requirements before installing it on the eNB.
NOTE: The eNB may adopt different models of GPS antenna, so the GPS antenna may not the same as above figure. But the installation steps that fix it on the eNB is the same. 2.4 Weatherproofing To protect the connection points from weather and climate, clean each connection point before installing cold shrink tubes, per the following figure. 1. Insert the cable into the cold shrink tube. 2. Tighten the connector. 3. Push the cold shrink tube to the top joint, and pull out the strip. 4.
Following steps introduce how to fix the pre-assembled eNB on a pole. 2.6 Install on Wall Take apart assembly bracket first, only remains the wall bracket, as shown in Figure 2-3.
Following steps introduce how to fix the pre-assembled eNB on a wall. 2.
NOTE: 1. According to the requirements of the site, both DC and AC power supply are provided to support different requirements of installation site. If DC power is selected, the power cable connects to the DC power supply directly. If AC power is selected, the power cable must connect to the AC power supply through a DC-AC adaptor. 2. The antenna ports and CAL/GPS port must have waterproof protection. 2.8 Power On Power on the eNB, and wait a few minutes while the eNB boots up.
