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Outdoor SmartUPS Installation Guide April 2019 Version 1.4 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. Disclaimer The information in this document is subject to change at any time without notice. For more information, please consult with a Baicells technical engineer or the support team. Refer to the Contact Us section below. 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 1-Apr-2019 7-Dec-2018 3-Dec-2018 Version Description SMEs/Contributors Author/Editor V1.4 Updated configuration Yang Yanan Sharon Redfoot section and operating temp V1.3 Spec and SME updates 28-Nov-2018 V1.2 SME comments 17-Oct-2018 V1.1 English draft 2 Ronald Mao Yang Yanan Xie Yanjun Yang Yanan Ronald Mao Don White Cameron Kilton Yang Yanan Xie Yanjun Sharon Redfoot Sharon Redfoot Sharon Redfoot Ronald Mao Related Documents Other Baicells technical documents may be found on the Baicells support website:
User Equipment 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 OD04/06-14/19.5 User Manual Spectra LTE-U Outdoor FDD u4G-UE1000 User Manual eNodeB Equipment Nova 1W ENB Installation Guide Nova 1W Quick Start Guide Nova 10W ENB Installation Guide Nova 10W Quick Start Guide Nova-227 Outdoor 2x250mW TDD eNB Installation Guide Nova-227 Quick Start Guide Nova-233 Outdoor 2x1WG2 FDD-TDD eNB Installation Guide Nova-233 Quick Start Guide Nova-243 Outdoor 2x10WG2 FDD-TDD eNB Installation Guide Nova-243 Quick Start Guide Nova-436 Outdoor 4x1W CCA TDD eNB Installation Guide Nova-436 Quick Start Guide Spectra LTE-U Outdoor FDD eNodeB Installation Guide SmartUPS Installation Guide (this document) EPC, OMC, BOSS Configuration & Network Administration Guide Operation, Maintenance, & Troubleshooting Guide Contact Us Baicells Technologies Co., Ltd. China North America Address: 3F, Bldg. A, No. 1 Kai Tuo Rd, Haidian Dist, Beijing, China Address: 555 Republic Dr., #200, Plano, TX 75074, USA Phone: (+86) 400-612-0167 Phone: +1-888-502-5585 E-mail: contact@Baicells.com Email: sales_na@Baicells.com or support_na@Baicells.com Website: www.Baicells.com Website: https://na.Baicells.com 3 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. If the device must be stored longer than 6 months, repeat the recharging to 80%. For the safety of installation personnel and for the protection of the equipment from damage, please read all safety warnings. If you have any questions concerning the warnings, before installing or powering on the eNB, contact the Baicells support team. Warning IMPORTANT SAFETY INSTRUCTIONS This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents. Warning Read the installation instructions before you connect the system to its power source. Warning Installation of the equipment must comply with local and national electrical codes. Warning This product relies on the existing building or structure for short-circuit (overcurrent) protection. Ensure that the protective device is rated no greater than 20A. Warning Do not operate this wireless network device near unshielded blasting caps or in an explosive environment unless the device has been modified and qualified for such use. 4 Table of Contents 1.1 Overview ............................................................................................................................. 8 1.2 Features ............................................................................................................................... 8 1.3 Transportation & Storage Requirements ............................................................................... 9 1.4 Description .......................................................................................................................... 9 3.1 Materials & Tools ............................................................................................................... 15 3.2 Placement Considerations .................................................................................................. 15 3.2.1 Environment ....................................................................................................................... 15 3.2.2 Spacing ............................................................................................................................... 16 3.3 Lightning and Grounding Protection ................................................................................... 16 3.4 Weatherproof Protection ................................................................................................... 17 4.1 Process Overview ............................................................................................................... 18 4.2 Mount Unit on Pole or Wall ................................................................................................ 18 4.2.1 Pole Installation .................................................................................................................. 18 4.2.2 Wall Installation .................................................................................................................. 20 4.3 Connect the Power Cables.................................................................................................. 20 4.3.1 Connect Input Power .......................................................................................................... 21 4.3.2 Connect Output Power ....................................................................................................... 22 4.4 Connect Battery Cable & Control Bus ................................................................................. 22 4.5 Connect SFP & Ethernet Cable ............................................................................................ 23 4.6 Connect Ground Cable ....................................................................................................... 23 4.7 Turn on Battery Switch & Check LEDs ................................................................................. 23 4.8 Close the Wiring Cavity Cover............................................................................................. 24 5.1 Preparation ........................................................................................................................ 25 5.2 Log In ................................................................................................................................. 25 5.3 Configure NTP ................................................................................................................... 26 5.4 Network Settings ................................................................................................................ 27 5.5 Configure VLAN .................................................................................................................. 29 5.6 TR-069 Settings .................................................................................................................. 35 Appendix A: Technical Specifications ......................................................................................................... 36 5 System Specifications ............................................................................................................... 36 Power Performance Specifications ........................................................................................... 36 Communications Specifications ................................................................................................ 36 Environmental Specifications ................................................................................................... 37 Global Part Numbers ................................................................................................................ 37 Appendix B: FAQs....................................................................................................................................... 39 Appendix C: FCC Compliance ..................................................................................................................... 40 List of Figures Figure 1-1: Baicells Outdoor SmartUPS .............................................................................................. 8 Figure 1-2: Size and Weight.............................................................................................................. 10 Figure 1-3: Interfaces ....................................................................................................................... 10 Figure 1-4: LEDs ............................................................................................................................... 12 Figure 3-1: Spacing .......................................................................................................................... 16 Figure 4-1: Installation Process ........................................................................................................ 18 Figure 4-2: Mounting Bracket........................................................................................................... 19 Figure 4-3: Attach Bracket to Pole .................................................................................................... 19 Figure 4-4: Attach SmartUPS to Bracket ........................................................................................... 19 Figure 4-5: SmartUPS Pole Installation ............................................................................................. 20 Figure 4-6: Mark Drilling Locations ................................................................................................... 20 Figure 4-7: Input Power Terminal ..................................................................................................... 21 Figure 4-8: SmartUPS AC Interface ................................................................................................... 21 Figure 4-9: Output Power Terminal .................................................................................................. 22 Figure 4-10: Battery Cable & Control Bus ......................................................................................... 22 Figure 4-11: SFP & Ethernet Interfaces ............................................................................................. 23 Figure 4-12: Battery Switch .............................................................................................................. 24 List of Tables Table 1-1: Interfaces ................................................................................................................................... 10 6 Table 1-2: LEDs ........................................................................................................................................... 12 Table 2-1: Parts List .................................................................................................................................... 13 Table 3-1: Materials ................................................................................................................................... 15 Table 3-2: Tools .......................................................................................................................................... 15 7 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. It can power Baicells Long-Term Evolution (LTE) eNodeBs (eNBs) and other equipment such as cameras, meteorological monitoring equipment, microwave antennae, and security systems (Figure 1-1). The SmartUPS product has a high protection grade rating of IP66 and is very cost-effective, especially when compared to traditional indoor and outdoor power cabinets. Figure 1-1: Baicells Outdoor SmartUPS 1.2 Features Following are some of the key features of the Baicells SmartUPS. Up to 400 Watt power supply High IP66 ingress protection rating Intelligent battery / OMC management 3-year Lithium battery service life Supports optional solar input and gigabit optical interface (SFP) Supports multiple devices User-friendly LEDs and interfaces Multiple power options: 48 VDC or PoE+
8 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. If the device must be stored longer than 6 months, recharge to 80% again. General guidelines:
The storage environment:
o Should be dry, shady, and cool;
o Should not be in contact with corrosive material such as organic solvent; and o Should be kept away from fire. In storage, the battery must be recharged every 6 months to avoid irreversible damage. The self-discharge of the battery is affected by temperature and humidity in the storage environment. High temperatures and humidity will accelerate the self-discharge process. For optimum conditions, Baicells recommends storing the battery in a dry environment within a temperature range of 4F to 158F (-20C to 70C). Caution: If the lithium battery is not recharged in time and runs out of power, it will be damaged permanently. To ensure proper device operation, this situation will require replacing the original battery with a new one. 1.4 Description The Baicells SmartUPS backup power supply models are small and easy to deploy (Figure 1-2). 9 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. Figure 1-3: Interfaces Description Power input interface: 110V AC (90 V~ 264 V) AC Used for recharging the Smart UPS Power output interface 1: +48V (+37V~+54V) DC Connects to the device which receives the power from the SmartUPS Power output interface 2: +48V (+37V~+54V) DC Connects to the device which receives the power from the SmartUPS Power output interface 3: +48V (+37V~+54V) DC 10 Table 1-1: Interfaces Interface Name AC DC1 DC2 DC3 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 interfaces vary according to model. 11 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. Figure 1-4: LEDs Table 1-2: LEDs Indicator PWR Color Green 30% Battery 1 green bar Status Steady on Off Steady on Remarks Power on Power off 10-40% battery power remaining 70% Battery 2 green bars Steady on 40-70% battery power remaining 100% Battery 3 green bars Steady on 70-100% battery power remaining 12 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. Light Module 1 SFP LC optical module Battery Cable 1 Lithium battery power line Battery Control Bus 1 Lithium battery data detection bus AC Power Adaptor 1 2-pin (green wire) power terminal DC Power Adaptor 1 3-pin (green wire) power terminal Mounting Bracket 1 Assembled kit:
(1) Installation bracket
(4) Omega clamps
(4) M10 x 160 outer hex bolts 13 Item Qty Description Photograph of Item
(10) M10 flat gaskets
(10) M10 spring gaskets
(10) M10 nuts M8 x 80 expansion bolts for wall mount Used for making ground cable Screws for various parts of the installation 14 Bolts Ground Terminal Screw Package 2 2 1 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. Table 3-1: Materials Item Description AC Power Input Cable AWG16 shorter than 100m DC Power Output Cable AWG13 shorter than 50m Ground Cable 5AWG yellow-green wire Optical Fiber Cable LC-LC SMF fsc-507, single-mode Ethernet Cable Outdoor Cat6 RJ-45 Ethernet cable Table 3-2: Tools Level bar Marking pen Knife Pliers Wrench Percussion drill and drill heads Hammer Cross screw driver Cable vice (crimper) Tape measure Torx screw-driver T7 screwdriver head Cable Stripper 5mm L-shaped Allen wrench 3.2 Placement Considerations 3.2.1 Environment When determining where to place the SmartUPS unit, you need to consider factors such as climate, hydrology, geology, the possibility of earthquakes, reliable electric power, and transportation access. Refer to the technical specifications in Appendix A, specifically concerning temperature and humidity 15 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. Follow the guidance shown in Figure 3-1 concerning the amount of space to leave on each side, front, and back of the unit. Figure 3-1: Spacing 3.3 Lightning and Grounding Protection Caution: Baicells recommends testing the SmartUPS on the ground before installing it on a tower or other structure that may be difficult to reach. You must protect the SmartUPS against lightning and other types of electrical overload. Follow the ground cable specifications in Table 3-1. You will need to make the grounding cable based on the specific installation site where the SmartUPS will be installed. Use yellow-green wire that is no smaller than 5AWG. The wire should be no smaller than 16 mm2. Grounding notes:
Ground as close to the device as possible. The Outdoor SmartUPS connects to a 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, 16 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 units interface connections must be tightened. 17 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 1.63.9 inches (40100 millimeters). The recommended height of the installed SmartUPS is greater than 47 inches (120 centimeters). Follow the steps below for a pole installation. NOTE: The unit comes with the mounting bracket already assembled. 1. Unscrew the 4 screws on the assembled bracket and slide the 2 outer omega clamps to the end of the threeadd road, as shown in Figure 4-2. Then, turn the upper omega clamp up and the lower omega clamp down so they are out of the way when you place the bracket on the 18 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. Tighten the 2 screws on the top of the bracket using a cross screwdriver (Figure 4-5). 19 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. Drill (2) 10-mm diameter and 70-mm deep holes in the wall on the marked locations, and insert the expansion pipes. 4. Check the up/down direction of the installation rack, and then fit the SmartUPS unit to the wall bracket using the M8 x 80 expansion bolts. 5. Tighten the 2 screws on the top of the bracket using a cross screwdriver. 4.3 Connect the Power Cables Review the AC and DC power cable specifications provided in Table 3-1. Since each installation site is different, the installer must determine the appropriate length of the cables. The power adaptor is, therefore, shipped with bare terminal ends. You will need to assemble the power plugs. The following sections explain how to prepare and connect the input and the output power. Baicells recommends keeping the power cable length under 330 ft (100m). 20 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. The 3-pin power plug, as shown in Figure 4-7, requires a + live/positive wire (L), a neutral/negative - wire (N), and a ground wire (E). Follow the steps below to assemble the input power plug and connect it to the SmartUPS. Figure 4-7: Input Power Terminal 1. Prepare the wires: In preparation for attaching the wires to the power terminals, use a wire stripper to strip 0.5 inch (12mm) of the insulating layer. 2. Assemble the power plug: Refer to the labels on the power plug (Figure x-x) to connect the live wire (L), neutral wire (N), and ground wire (E) to the corresponding terminals on the plug, and tighten the screws. 3. Connect to SmartUPS: Connect the assembled input power plug to the AC interface that is inside the SmartUPS wiring cavity. Lay the wires using the wiring guides, stretch the wires through the wiring duct slot so that they stretch out of the wiring cavity. Refer to Figure 4-8. Figure 4-8: SmartUPS AC Interface 21 4. Connect to power: Connect the other end of the wires to an AC plug, and plug it into an AC outlet. a. b. If the outlet is indoors, place the power adaptor indoor. 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. The 2-pin power plug requires a live/positive wire (+) and a neutral/negative wire (-), as shown in Figure 4-9. Follow the steps below to assemble the output power plug and connect it to the eNodeB or other device that will use SmartUPS backup power. Figure 4-9: Output Power Terminal 1. Prepare the wires: In preparation for attaching the wires to the terminals on the plug, use a wire stripper to strip .5 inch (12mm) of the insulating layer. 2. Assemble the power plug: Refer to the labels on the power plug (Figure 4-9) to connect the live wire (+) and neutral wire (-) to the corresponding terminals on the plug, and tighten the screws. Lay the wires along the wiring duct slot so that they stretch out of the wiring cavity. 3. Connect to eNodeB or other device: Connect the assembled output power plug to the DC interface on the eNodeB or other device that will use SmartUPS backup power. 4.4 Connect Battery Cable & Control Bus Connect the battery cable and battery control bus to the interfaces as shown in Figure 4-10. Figure 4-10: Battery Cable & Control Bus 22 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. The SmartUPS has 2 grounding screws that are located on the bottom of the unit. Unscrew one of the grounding screws, connect the ground cable, and then fasten the screw securely. The other end of the ground cable needs to be connected to a good grounding point (earth). 4.7 Turn on Battery Switch & Check LEDs Turn on the battery switch (Figure 4-12) before closing the wiring cavity cover, which is covered in the next section. 23 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. 4.8 Close the Wiring Cavity Cover After all of the cables have been connected to the SmartUPS, the battery switch has been turned ON, and the LEDs are lighting as expected, close the cover on the wiring cavity and use an M4 cross screwdriver to tighten the screws. 24 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 browsers address column, type in http://192.168.150.1, click Enter to open web client login page, as shown in Figure 5-1. 25 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. If the NTP is used by the base station as an external clock source, up to three NTP servers are supported, where one for master NTP service and the others for backup. 1. In the navigation column in the left, select System > System to enter the time zone and NTP setting page, as shown in Figure 5-5. 26 Figure 5-6 Time Zone and NTP Server Settings Click SAVE & APPLY to complete the time zone and NTP server configuration 5.4 Network Settings 1. 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. WAN1 for VLAN, WAN2 for DHCP 27 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. Table 5-1 WAN Interface Parameter Description Parameter Name Description Protocol The interface protocol used by WAN interface, include:
DHCP: If DHCP is selected, no parameter is needed to be configured. Static IP IPv4 address When Protocol is Static Address, the parameter displays. IP address of the WAN interface. IPv4 netmask When Protocol is Static Address, the parameter displays. Subnet mask of the WAN interface. IPv4 gateway When Protocol is Static Address, the parameter displays. IP address of the WAN interfaces gateway. DNS Servers When Protocol is Static Address, the parameter displays. IP address of the DNS server. Multiple IP addresses are allowed. 2. Click Save to complete the WAN interface configuration. 28 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 5-8 UPS software version The default VLAN TAG is 1005, in case 1005 is not the chosen VLAN ID, please go through the following steps. 1. Go to the Switch setup page, modify the VLAN ID, then click SAVE & APPLY button, shown in Figure 5-9 modify VID 29 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.VID# (wan1) where VID# is the VID set in first step 30 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. Here we take putty as ssh client, set the configuration as Figure 5-13 ssh client configuration 31 Figure 5-13 ssh client configuration 7. Click YES to accept the ssh server s rsa fingerprint. Figure 5-14 servers fingerprint Figure 5-14 servers fingerprint 8. Using vi to check the network configuration file. Figure 5-15 UPS shell enviroment 32 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 33 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. Enter parameters such as ACS Address and click SAVE & APPLY button 35 Appendix A: Technical Specifications System Specifications Dimensions (HxWxD) Weight 10.6 x 4 x 12.6 inches 270 x 105 x 320 millimeters 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. Optional external battery available for 48V 20Ah and battery N+1 (N 2) parallel. Output Voltage 37 to 54 VDC Total Output 200 Watts - 5 AMP battery, 10 AMP battery 400 Watts 10 AMP battery Future: 1.5kW external customized battery Communications Specifications Switch SFP PoE Port Max 4-port Gigabit Ethernet RJ-45 switch port 1 Gigabit SFP cage 1 PoE+ (use with LAN1) 36 Environmental Specifications
-40F to 159F / -40C to 55C (solar radiation included) Operating Temperature Range Rectifier:
When solar radiation:-40C to +50C No solar radiation: -40C to +55C Discharge: -40C to 55C Battery:
When solar radiation:-40C to +45C No solar radiation: -40C to +55C Storage Temperature Range
-4F to 158F
-20C to 70C Operating Humidity Range 5% to 95% RH, no dewdrops Altitude 0-4000m (2000m to 4000m). With every 200m altitude increase, max operating temperature decreases 1C. Global Part Numbers SmartUPS:
EPB41211 EPB42121 EPB42125 200W, 5A/H battery, (1) 48VDC outlet, 4-port exchange, PoE+ Outdoor SmartUPS. Extended battery support. With network management. 400W, 10A/H battery, (2) 48VDC outlet, Optical, 4-port exchange, (1) PoE+ Outdoor SmartUPS. Extended battery support. With network management. 400W, 10A/H battery, (2) 48VDC outlet, Optical, 3-port exchange, (3) PoE++ Outdoor SmartUPS. Extended battery support. With network management. 1500W, 20A/H battery, (3) 48VDC outlet, Optical, 3-port exchange, (1) PoE+ Outdoor SmartUPS. Extended battery EPB93531 Single power output up to 2 kilowatts maximum Support N+1 (N 2) power supply parallel Support battery N+1 (N 2) parallel, With network 37 management 1500W, 20A/H battery, (3) 48VDC outlet, Optical, 3-port exchange, (3) PoE++ Outdoor SmartUPS. Extended battery , EPB93535 Single power output up to 2 kilowatts maximum Support N+1 (N 2) power supply parallel Support battery N+1 (N 2) parallel, With network management Management System:
CSPMS001 Power Management System Battery Backup:
EB421 20A Power Box Extended BatterySupport battery N+1 (N 2) parallel 38 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.com/groups/Baicellsoperatorsupportgroup/
39 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. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.
1 | Label | ID Label/Location Info | 196.40 KiB |
a Baicells Technologies Co.,Ltd BaiCells Outdoor smart UPS Nonnal vote 82 Bee) x Nominal Capacity: SAh a Nominal Energy: 216WH Output Voltage Range: +37V~+54V Peak Output Power: <200W SN:1210000004191WJ0004 FCC ID: 2AG32EPB41211
1 | Cover letter | Cover Letter(s) | 138.90 KiB |
Baicells Technologies Co., Ltd. DATE 2019-04-24 Equipment Autorisation Division Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046 FCC ID: 2AG32EPB41211 Product Name: Outdoor Smart UPS Request for Confidentiality Pursuant to Sections 0.457 and 0.459 of the commissions rules, we hereby request that the following documents be held confidential:
Schematics Block diagram These materials contain trade secrets and proprietary information and are not customarily released to the public. The public disclosure of this information might be harmful to the company and provide unjustified benefits to our competitors. Dated this By:
2019-04-24 Back Huang Signature Title: Certification Engineer On behalf of :
Telephone: +86-010-62607100 Baicells Technologies Co., Ltd. Printed
frequency | equipment class | purpose | ||
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1 | 2019-04-29 | JAD - Part 15 Class A Digital Device | Original Equipment |
app s | Applicant Information | |||||
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1 | Effective |
2019-04-29
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1 | Applicant's complete, legal business name |
Baicells Technologies Co., Ltd.
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1 | FCC Registration Number (FRN) |
0025156423
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1 | Physical Address |
3F, Hui Yuan Development Building, No.1 Shangdi
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1 |
Beijing
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1 |
China
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app s | TCB Information | |||||
1 | TCB Application Email Address |
s******@nemko.com
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1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
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app s | FCC ID | |||||
1 | Grantee Code |
2AG32
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1 | Equipment Product Code |
EPB41211
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app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
B**** H********
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1 | Telephone Number |
+86-0********
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1 | Fax Number |
+86-0********
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1 |
h******@baicells.com
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app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | JAD - Part 15 Class A Digital Device | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Outdoor Smart UPS | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Shenzhen Zhongjian Nanfang Testing Co., Ltd.
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1 | Name |
B**** Z******
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1 | Telephone Number |
+86 (********
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1 |
b******@ccis-cb.com
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15B |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC