Table of Contents
Advertisement
Quick Links
iBattery 3.0
Quick Guide
Issue: 05
Part Number: 31509755
Date: 2019-07-02
1
Overview
iBOX
Item
Model
iBOX
iBOX
iBAT
iBAT-12V
Adapter
POE35-54A
HALL
N/A
Copyright © Huawei Technologies Co., Ltd. 2019. All rights reserved.
iBAT
Function
Battery information
collection module
12 V battery
monitoring module
Power supply for the
iBOX
Battery current
detection
1
Adapter
Description
One iBOX supports a maximum of
200 iBATs, and manages iBATs for a
maximum of four battery strings.
Supports 12 V power input and
detects the voltages, internal
resistances, and pole temperatures
of batteries.
N/A
One iBOX can connect to a
maximum of eight Hall effect sensors.
Hall
Advertisement
Table of Contents
Related Manuals for Huawei iBox
Summarization of Contents
2 Installing Equipment
2.1 Installing the iBAT
This section covers safety precautions and the installation steps for the iBAT, including connecting cables and torque specifications.
2.2 Installing Hall Effect Sensors
Details the installation of Hall effect sensors, including placement, orientation, and handling of multiple cables.
2.3 Installing the iBOX
Instructions for installing the iBOX, including antenna placement and securing the unit to the BCB box.
2.4 Installing an Adapter
Provides guidance on selecting an installation position and mounting the adapter using specified screws and sleeves.
3 Cable Connections and Commissioning (UPS Scenario)
3.1 Connecting Cables
Details cable preparation and connection procedures for UPS scenarios, including RJ45 cable types and pin definitions.
3.2 Logging In to the iBOX WebUI and Setting Parameters
Guides users through logging into the iBOX WebUI, setting default parameters, and configuring battery curves.
3.3 Logging In to the UPS WebUI and Setting Parameters
Details logging into the UPS WebUI and configuring parameters such as battery settings, iBOX settings, and string configurations.
4 Cable Connections and Commissioning (EIC800 or ECC800 Scenario)
4.1 Connecting Cables
Illustrates cable connection procedures for ECC800/EIC800 scenarios, distinguishing between old and new BIB board configurations.
4.2 Logging In to the ECC800 WebUI and Setting Parameters
Explains how to log into the ECC800 WebUI and set running parameters, including battery quantity and capacity.
5 Cable Connections and Commissioning (NetEco Scenario)
5.1 Connecting Cables
Details cable connections for NetEco scenario, covering POE power options and communication with LAN switch.
5.2 Logging In to the iBOX WebUI and Setting Parameters
Guides users on logging into the iBOX WebUI for NetEco integration, ensuring correct IP address and connection settings.
5.3 Logging In to the NetEco and Setting Parameters
Explains how to log into NetEco, configure data center settings, and set iBOX parameters for battery detectors.
5.4 System Settings Configuration
Details iBOX system settings including Time, IP Address, Battery Curve, and Parallel Net Join Config.
6 Networking the iBOX and iBAT
Serial Networking
Explains the serial networking process for iBATs to an iBOX, including prerequisites and step-by-step procedures.
Parallel Networking
Details the parallel networking process for iBATs to an iBOX, including SN collection and configuration steps.
7 Appendix
7.1 Verifying the Installation
Provides a checklist for verifying the installation of the iBattery system, covering cable connections and DIP switches.
7.2 Indicator Description
Describes the meaning and status of various indicators on the iBOX, including PWR, ALM, RUN, and RF_Z.
Need help?
Do you have a question about the iBox and is the answer not in the manual?
Questions and answers