AxxceLTETM eNodeB Installation Guide Issue: 1.0 Date: Nov 2, 2015 Axxcelera Broadband Wireless 1600 E. Parham Rd. Richmond, VA 23228 www.axxcelera.com Technical Support +1 (804) 864-4222 support@axxcelera.com Sales +1 (480) 820-9270 sales@axxcelera.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved CONTENTS 1 INTRODUCTION ............................................................................................ 4 1.1 1.2 2 EXPOSURE W ARNING ................................................................................. 4 ENVIRONMENTAL CAUTIONS ........................................................................ 4 ENODEB PRODUCT OVERVIEW .................................................................. 5 2.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved Notice Axxcelera reserves the absolute right to make changes to the information set forth in this Product Manual without notice. Specifications subject to change without notice. Customers may inquire as to whether they have the most current Product Manual by contacting Axxcelera Technical Support Department.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 1 INTRODUCTION This document is intended to provide basic guidance for properly installing an AxxceLTETM eNodeB. This device is an integrated unit, combining the base station network functions and radio control functions. The AxxceLTETM family of products also make this functions available in separate units: the AxxceLTE BBU and AxxceLTE RRH. Please contact Axxcelera Support for additional documentation of these products.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 2 eNodeB Product Overview 2.1 AxxceLTETM family of LTE Products The Axxcelera Broadband AxxceLTETM system is a broadband, fixed, wireless access network for Internet, data, video and voice applications. AxxceLTE products can enhance or replace existing networks, wired or wireless, or be used to deploy new networks in areas that are historically to cover with traditional wireless systems.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 2.3 System Components 2.3.1 System Architecture Figure 3.1 shows a typical LTE network architecture using various eNodeB components at the tower. Figure 2.1 – Typical LTE Network Architecture As is shown in the diagram, the eNodeB is typically deployed at the tower, near any additional RRH units and antennas that it supports.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 3 Cabling and Interfaces This section outlines and describes the various interfaces on the eNodeB. The system is designed to be modular in nature and as such, there are many ways the BBU/RRH can be deployed to accomplish the goals of your network design. Figure 5.1 – 5.3 illustrate several ways the eNodeB can be deployed. Figure 3.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved Figure 3.3 – eNodeB Deployment Scenarios (cont) Depending on how you chose to deploy your BBU/RRH, the cabling can change greatly. Below is a description of each interface on the eNodeB. Each interface is described with its function, connector type and typical connection point on the other end of the cable. This is a guide only and does not attempt to describe every possibility for connection points. 3.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved GbE/PSE: · May be used as a network connection for an out of band management port. Some models support the use of Power Devices on this port to power a PoE camera or similar device for monitoring site conditions. · Interface is a GbE copper port with an RJ-45 connector. Should remain capped when not in use. SYNCIN: · Can be used to supply a 1PPS synchronization pulse if neither GPS nor IEEE 1588 are available.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 3.2 Remote Radio Head (RRH) Connections Figure 3.5 - Panel Detail for Remote Radio Head POWERIN: · Used to connect the RRH or integrated eNodeB to a power source. Nominal input is -48VDC, with a maximum power consumption of 300watts for an integrated eNodeB. Operable voltage range is -40..-60VDC. · Uses a supplied, multi-pin circular connector.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 4 Mounting The face of both the RRH and BBU casing have (4) mounting points for attachment to the hanging brace. The AxxceLTETM eNodeB package includes all necessary mounting bracket hardware to allow for wall or pole mounting the unit. Instructions for mounting the eNodeB in either configuration are included with the mounting bracket. Please follow all instructions provided with the mounting hardware.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved Figure 4.2 – eNodeB Wall mount 4.1 Grounding It is required to properly ground the eNodeB. To do this, a ground lug is provided as a convenient attachment point to the facility grounding plane/grid. It is located on the bottom seam of the case, labelled with the following mark: 4.2 Sun Shield AxxceLTE outdoor products are delivered with a sun shield that can be mounted to either face of the unit using the (4) mounting blocks.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 5 Power NOTE: BEFORE applying power to the eNodeB make absolutely certain that all antenna ports are properly impedance matched (or are terminated) to avoid costly damage to the RRH. The eNodeB operates at a nominal supply voltage of -48VDC and has a maximum power consumption of 300watts. The operating voltage range is -40..-60VDC.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 6 Basic Configuration Following installation and power up, you are now ready to begin configuring your eNodeB. This section will outline several basic configuration steps necessary to allow you to connect to the device. For more detailed configuration information, please see the AxxceLTE Application Console User Manual. 6.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved Figure 6.1 – BBU Panel LEDs The BBU panel LEDs can be valuable in troubleshooting issues encountered in the field. The following key describes the meaning of the color and sequence (if applicable) of the indication at each LED. PWR: · · · · Power Status Green: All power supplies active Red/Green: +12V on, some supplies are not active Red: +12V only Dark: No Power has been applied, undetermined state.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved · · · ALM: · · · · Green Dot: CPRI link active; PDSCH or PUSHC activity Green: CPRI link established with RRH; TTI indications received (sub-frame counter is incrementing); no PDSCH or PUSHC activity detected Dark: No TTI indications Alarm Status Green: No alarms Orange: One or more non-fatal alarms are present Red: One or more fatal alarms are present Dark: No power has been applied, undetermined state 6.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved · · Green: Receive data (min 50ms on) Dark: No message · · · · · Radio Status Green: RF OK; Tx and Rx enabled Orange: RF OK; Rx only enabled Red Dot: RF OK; Test / non-operational mode Red: RF Failure Dark: No power has been applied, undetermined state RF: CPRI: · · · · · · · · CPRI Link Status Green: 6.1440 Gbps link established Green Dash: 4.9152 Gbps link established Green Dash-Dot: 3.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 7 Antenna Downtilt To maximize receive signal levels in the intended coverage area, the downtilt angle should be calculated before the antenna is mounted. This only applies to directional antennas at the Cell Site. Omni directional antennas should be mounted perpendicular to the ground. The antenna tilt angle should be determined based on desired coverage area and any propagation constraints that were determined during RF planning.
Copyright 2015 Axxcelera Broadband Wireless, Inc. All rights reserved 8 Antenna Installation 1. Attach the tilt brackets to the antenna making sure the bracket with the tilt adjustment slides is installed at the top of the antenna. The top bracket allows -2 to 10 degrees of downtilt. 2. Once the mounting brackets are installed, attach the antenna to the pole. The clamps will fit a pole from 48mm – 114mm in diameter. 3.