Outdoor SmartUPS Installation Guide April 2019 Version 1.
About This Document This document describes the Baicells Outdoor SmartUPS battery backup product and how to install and configure models EPB41211 and EPB42133 for operation. Users of this document should already be familiar with eNodeB installation and configuration procedures. Copyright Notice Baicells Technologies, Inc., copyrights the information in this document. No part of this document may be reproduced in any form or means without the prior written consent of Baicells Technologies, Inc.
Ronald Mao Related Documents Other Baicells technical documents may be found on the Baicells support website: User Equipment eNodeB Equipment EPC, OMC, BOSS Atom 5dBi Indoor CPE User Manual Atom 11dBi Outdoor CPE User Manual Atom 19.5dBi Outdoor CPE User Manual Atom ID04/06-3.5/6.5 & ID06-6.5 User Manual Atom OD04/06-14/19.
Safety Information Caution: Before handling the SmartUPS, read the following information concerning stored battery power. For air and sea transportation safety, during shipment the Baicells SmartUPS product can only be charged about 20% to 30%. Because of the self-discharge of the lithium battery, if the SmartUPS device is not installed within 3 months after reaching its destination, it must be recharged to 80%. After recharging, the SmartUPS device may be stored for up to 6 months.
Table of Contents 1.1 Overview ............................................................................................................................. 8 1.2 Features ............................................................................................................................... 8 1.3 Transportation & Storage Requirements ............................................................................... 9 1.4 Description ......................................................................
System Specifications............................................................................................................... 36 Power Performance Specifications ........................................................................................... 36 Communications Specifications ................................................................................................ 36 Environmental Specifications .........................................................................................
Table 1-2: LEDs ........................................................................................................................................... 12 Table 2-1: Parts List .................................................................................................................................... 13 Table 3-1: Materials ................................................................................................................................... 15 Table 3-2: Tools ......................
1. Introduction 1.1 Overview Wireless Internet Service Providers (WISPs) typically rely on electrical infrastructures to power their network equipment. During times of power outages, or in rural and remote locations where the availability of power is limited, operators need a reliable backup power source. The Baicells Smart Uninterruptible Power Supply (SmartUPS) converts AC to DC 48V and supports GigE speeds.
1.3 Transportation & Storage Requirements Caution: Before installing, read the following information concerning stored battery power. For air and sea transportation safety, during shipment the Baicells SmartUPS product can only be charged about 20% to 30%. Because of the self-discharge of the lithium battery, if the SmartUPS device is not installed within 3 months after reaching its destination, it must be recharged to 80%. After recharging, the SmartUPS device may be stored for up to 6 months.
Figure 1-2: Size and Weight The SmartUPS interfaces are in a covered wiring cavity on the front of the unit, as shown in Figure 1-3. Table 1-1 describes each interface.
Interface Name SFP LAN1 (PoE+) LAN2 LAN3 LAN4 Description Connects to the device which receives the power from the SmartUPS Gigabit SFP cage Connects to the backbone network for backhaul Gigabit Ethernet switch 1 or PoE+ interface Connects to the backbone network for backhaul Gigabit Ethernet switch 2 Connects to the backbone network for backhaul Gigabit Ethernet switch 3 Connects to the backbone network for backhaul Gigabit Ethernet switch 4 Connects to the backbone network for backhaul Note: Output inte
On the upper front of the unit are the LED indicators Figure 1-4. Table 1-2 describes the meaning of the power and battery LED states.
2. Out-of-Box Audit Table 2-1 provides a list of the parts you should receive with the Baicells SmartUPS backup power supply. If the box arrives wet or damaged, please contact your supplier within 10 days. Table 2-1: Parts List Item Qty Description Photograph of Item SmartUPS Backup Power Supply 1 Baicells SmartUPS Backup Power Supply unit. Check that the equipment tag identifies the model you ordered.
Item Qty Description Photograph of Item (10) M10 flat gaskets (10) M10 spring gaskets (10) M10 nuts Bolts 2 M8 x 80 expansion bolts for wall mount Ground Terminal 2 Used for making ground cable Screw Package 1 Screws for various parts of the installation 14
3. Installation Preparation 3.1 Materials & Tools You will need the materials and tools shown in Tables 3-1 and 3-2, respectively, to install the SmartUPS.
limits and voltage requirements. Avoid locating the unit in areas where there may be extreme temperatures, harmful gases, unstable voltages, volatile vibrations, loud noises, flames, explosives, or electromagnetic interference (e.g., large radar stations, transformer substations). Avoid areas that are prone to impounded water, soaking, leakage, or condensation. 3.2.2 Spacing Another consideration for planning where to install the SmartUPS unit is space allowance.
antioxidation coatings, grease, and so on. 3.4 Weatherproof Protection Installation of the Outdoor SmartUPS must satisfy the following waterproof requirements: 1. The power cable is configured according to the specifications and appropriate placement. 2. The screw of the door that closes over the unit’s interface connections must be tightened.
4. Installation Procedures 4.1 Process Overview Figure 4-1 provides an overview of the SmartUPS installation process. Follow each section to complete the installation. Figure 4-1: Installation Process 4.2 Mount Unit on Pole or Wall Refer to section 4.2.1 if you are installing the SmartUPS on a pole. Refer to section 4.2.2 if you are installing the SmartUPS on a wall. 4.2.1 Pole Installation The diameter of the pole must be between 1.6–3.9 inches (40–100 millimeters).
pole. Figure 4-2: Mounting Bracket 2. Fit the bracket to the pole at the appropriate height. Turn the 2 omega clamps to the proper position, as shown in Figure 4-3, and tighten the 4 screws. Make sure the arrow on the installation bracket is pointing upward. Figure 4-3: Attach Bracket to Pole 3. Using the 2 pins on the back of the SmartUPS, securely attach the unit to the bracket on the pole (Figure 4-4). Figure 4-4: Attach SmartUPS to Bracket 4.
Figure 4-5: SmartUPS Pole Installation 4.2.2 Wall Installation When installing the SmartUPS on a wall, the wall must bear at least 4 times the weight of the SmartUPS. 1. Take apart the assembled installation bracket kit. 2. Fit the mounting bracket on the wall and mark the drilling locations (Figure 4-6). Make sure the arrow on the bracket is pointing upward. Figure 4-6: Mark Drilling Locations 3.
NOTE 1: Refer to section 3.3, Lightning and Grounding Protection, before connecting the power cable. NOTE 2: If you will be using a solar panel and not AC power to supply the SmartUPS, please contact your Baicells representative to ensure you receive the correct installation guide. The SmartUPS model will be different when using solar input power. 4.3.1 Connect Input Power The input power uses a 3-pin power terminal.
4. Connect to power: Connect the other end of the wires to an AC plug, and plug it into an AC outlet. a. If the outlet is indoors, place the power adaptor indoor. b. If the outlet is outdoors, place the power adaptor in a waterproof box. NOTE: After the cable connections in the wiring cavity are complete, you will tighten the screws on the cover using an M4 cross screwdriver. 4.3.2 Connect Output Power The output power uses a 2-pin power plug.
4.5 Connect SFP & Ethernet Cable As required for your installation, connect the SFP or Ethernet cables used for backhauling or debugging. Refer to Figure 4-11. Figure 4-11: SFP & Ethernet Interfaces 4.6 Connect Ground Cable Review the ground cable specifications provided in Table 3-1, and the lightning and grounding guidelines described in section 3.3. Since each installation site is different, the installer must determine the appropriate length of the cable.
Figure 4-12: Battery Switch Refer to Table 1-2 LEDs to check that the power LED is indicating the SmartUPS is powered on. As the SmartUPS begins accumulating current, you will be able to see the battery LEDs progressively light up: 30%, 70%, and then 100%. At 100%, the SmartUPS is fully charged. 4.
5. Configuration 5.1 Preparation 1. Turn on the battery switch of SmartUPS. 2. Indicators will light up. (If indicators do not light up, connect to AC power.) 3. Connect the PC to the Ethernet interface of SmartUPS through Ethernet cable, and configure the IP address is 192.168.150.X on PC side. The following configuration can be operated. 5.2 Log In In the browser’s address column, type in http://192.168.150.1, click “Enter” to open web client login page, as shown in Figure 5-1.
Figure 5-2 UPS Web Client Login Page Input user name “root”, password “root123”, and click “Login”. The homepage of web client is given in Figure 5-3. The home page displays basic information of Smart UPS. Figure 5-4 Home Page of Web Client 5.3 Configure NTP This page includes the time zone and the NTP configuration, which are configured according to the actual needs.
Figure 5-6 Time Zone and NTP Server Settings Click “SAVE & APPLY” to complete the time zone and NTP server configuration 5.4 1. Network Settings In the left navigation bar, choose “Network> Interfaces>WAN”, to enter the network interface configuration page, shown in Figure 5-7 WAN Settings and Table 5-1 WAN Interface Parameter Description In “Network”, you can complete WAN settings.
Figure 5-7 WAN Settings 1. Input the configuration parameters for the WAN interface, which supports three protocols, namely, DHCP, Static IP. The DHCP and Static IP are recommended. The configuration parameters depend on which protocol is selected. The descriptions of the parameters are given in Table 5-1.
5.5 Configure VLAN When the UPS needs VLAN ID to connect to OMC, it should be configured the WAN interface with VLAN ID. Two steps should be followed: 1. Set VLAN ID, it can be done either by modifying existing VLAN ID, or by adding one new VLAN ID(other than VLAN ID 1, VLAN ID 2) 2. Set the IP protocol, IP address of the WAN1 interface(new VLAN ID bundled) Please make sure the UPS software version is above BaiCE_UPS_1.0.4_MY-APP. It can be checked by one web browser.
Figure 5-9 modify VID 2. Delete the existing WAN1 eth.1005 interface, shown in Figure 5-10 delete existing WAN1 Interface Figure 5-10 delete existing WAN1 Interface 3. Click ‘ADD NEW INTERFACE…’ button to create new WAN1 interface, shown in Figure 5-11 Create WAN1 Interface with VLAN ID Settings. Set the interface name as ‘wan1’, select VLAN Interface: “eth0.
Figure 5-11 Create WAN1 Interface with VLAN ID Settings 4. Set up the WAN1 interface configuration, shown in Figure 5-12 WAN1 configuration Settings. Setup the IP address, mask, gateway, broadcast address, then click the ‘SAVE&APPLY’ button Figure 5-12 WAN1 configuration Settings 5. To make sure all those settings are done correctly, next step is to check the UPS configuration file 6. Start putty or other ssh client tools program.
Figure 5-13 ssh client configuration 7. Click YES to accept the ssh server ’s rsa fingerprint. Figure 5-14 server’s fingerprint Figure 5-14 server’s fingerprint 8. Using vi to check the network configuration file.
Figure 5-15 UPS shell enviroment 9. Double check the setting in this file. Especially make sure the macaddr of interface WAN1 is SAME AS the interface of WAN.
Figure 5-16 UPS network configuration file 34
10. Exit vi, enable the new create VLAN interface, Figure 5-17 enable the new network configuration Figure 5-17 enable the new network configuration 5.6 TR-069 Settings In the left navigation bar, choose “System> TR-069”, as shown in Figure 5-18 TR-069. Figure 5-18 TR-069 1. Set “TR-069” as “Enable”. 2. Select WAN Interface from the list. Select WAN1 if using VLAN; Select WAN2 if not, this interface IP is reported to OMC within the inform message. 3.
Appendix A: Technical Specifications System Specifications Dimensions (HxWxD) 10.6 x 4 x 12.6 inches 270 x 105 x 320 millimeters Weight 5Ah – 15.2 lbs / 6.9 kg 10Ah – 18.7 lbs / 8.5 kg Cooling Mode Natural cooling Installation Mode Pole or wall Pole Diameter Support 4 to 8.3 in / 105 to 210 mm Noise Grade ≤ 35 dB (A) @ 1.5 m Meets standard GR487 Ingress Protection Rating IP66 Power Performance Specifications Input Voltage 110 VAC (90 to 264 VAC) Battery Capacity 5Ah or 10Ah Lithium Ion.
Environmental Specifications -40°F to 159°F / -40°C to 55°C (solar radiation included) Rectifier: When solar radiation:-40ºC to +50ºC No solar radiation: -40ºC to +55ºC Operating Temperature Range Discharge: -40°C to 55°C Battery: When solar radiation:-40ºC to +45ºC No solar radiation: -40ºC to +55ºC -4°F to 158°F Storage Temperature Range -20°C to 70°C Operating Humidity Range 5% to 95% RH, no dewdrops Altitude 0-4000m (2000m to 4000m).
management 1500W, 20A/H battery, (3) 48VDC outlet, Optical, 3-port exchange, (3) PoE++ Outdoor SmartUPS.
Appendix B: FAQs If you have questions, please check the list of frequently asked questions (FAQs) on the Baicells support website or the Facebook support forum. Baicells support website - https://na.Baicells.com/support/ Baicells support forum on Facebook https://www.facebook.
Appendix C: 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.