ECC800 Data Center Controller V100R002C10 User Manual
This document describes the features, working principles, as well as installation, operation, and troubleshooting instructions of components in the ECC800 data center controller system. The code are 02311JEY, 02311JEX, 02311JEX-008, 02311JEX-009, 02311LVV, 02311LVV-003, 02311LVV-004.
ECC800 Data Center Controller
V100R002C10
User Manual
Issue 07
Date 2020-01-20
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2020. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior
written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective
holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and
the customer. All or part of the products, services and features described in this document may not be
within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements,
information, and recommendations in this document are provided "AS IS" without warranties, guarantees or
representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the
preparation of this document to ensure accuracy of the contents, but all statements, information, and
recommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website: https://e.huawei.com
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User Manual About This Document
About This Document
Purpose
This document describes the ECC800 data center controller in terms of features, devices, user
interfaces (UIs), and power-on commissioning, as well as frequently asked questions (FAQ)
and troubleshooting measures.
This document describes all the functions of the ECC800. Certain functions are implemented
by hardware such as the UPS and PDU, and may be unavailable if the hardware is not
connected to the ECC800.
The ECC800 functions described in the user manual are applicable to multiple FusionModule
solutions, and some functions may be applicable only to a few FusionModule solutions. For
details about the applicable ECC800 functions, see the FusionModule solution
documentation.
The figures provided in this document are for reference only.
The software version is ECC800 V100R002C10SPC400.
Intended Audience
This document is intended for:
Sales engineers
Technical support engineers
Maintenance engineers
Symbol Conventions
The symbols that may be found in this document are defined as follows.
Symbol Description
Indicates a hazard with a high level of risk which, if not
avoided, will result in death or serious injury.
Indicates a hazard with a medium level of risk which, if not
avoided, could result in death or serious injury.
Indicates a hazard with a low level of risk which, if not
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Symbol Description
avoided, could result in minor or moderate injury.
Indicates a potentially hazardous situation which, if not
avoided, could result in equipment damage, data loss,
performance deterioration, or unanticipated results.
NOTICE is used to address practices not related to personal
injury.
Supplements the important information in the main text.
NOTE is used to address information not related to personal
injury, equipment damage, and environment deterioration.
Change History
Changes between document issues are cumulative. The latest document issue contains all
updates made in previous issues.
Issue 07 (2020-01-20)
Added the description about how to connect the Envicool SC15.
Issue 06 (2019-12-20)
Updated the safety information.
Issue 05 (2019-09-16)
Added "Setting the Temperature Map".
Added "How to Set and Add an MA01C PDC".
Added the Card, password or fingerprint door access authorization mode.
Issue 04 (2019-08-31)
Added the description about how to set and add the AIRSYS Air Conditioner.
Issue 03 (2019-07-31)
Added the description about how to connect the HT-500 dehumidifier.
Deleted Wireless Components.
Deleted Facial Recognition.
Issue 02 (2019-06-06)
Added Facial Recognition.
Added Wireless Components.
Issue 01 (2018-07-02)
This issue is the first official release.
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User Manual Contents
Contents
About This Document .................................................................................................................... ii
1 Safety Information ........................................................................................................................ 1
1.1 General Safety .............................................................................................................................................................. 1
1.2 Personnel Requirements ............................................................................................................................................... 4
1.3 Electrical Safety ............................................................................................................................................................ 4
1.4 Installation Environment Requirements ....................................................................................................................... 6
1.5 Mechanical Safety ........................................................................................................................................................ 7
1.6 Others............................................................................................................................................................................ 9
2 Overview....................................................................................................................................... 11
2.1 Positioning .................................................................................................................................................................. 11
2.2 Features ....................................................................................................................................................................... 11
3 Device Description ..................................................................................................................... 13
3.1 ECC800 ...................................................................................................................................................................... 13
3.2 Southbound Device Introduction ................................................................................................................................ 23
3.2.1 Rack Environment Unit ........................................................................................................................................... 23
3.2.2 Smart ETH Gateway ................................................................................................................................................ 24
3.2.3 Access Control System ............................................................................................................................................ 26
3.2.3.1 Aisle or Room Access Control System ................................................................................................................. 26
3.2.3.1.1 Access Actuator ................................................................................................................................................. 27
3.2.3.1.2 Fingerprint and Card Reader with a Keypad ..................................................................................................... 31
3.2.3.1.3 Fingerprint and Card Reader .............................................................................................................................. 33
3.2.3.1.4 Card Reader with a Keypad ............................................................................................................................... 34
3.2.3.1.5 Magnetic Lock ................................................................................................................................................... 35
3.2.3.2 Cabinet Access Control System ............................................................................................................................ 36
3.2.4 AC Actuator ............................................................................................................................................................. 37
3.2.5 Skylight Actuator ..................................................................................................................................................... 40
3.2.6 Multi-Functional Sensor .......................................................................................................................................... 43
3.2.7 Smoke Detector ....................................................................................................................................................... 45
3.2.8 Temperature Sensor ................................................................................................................................................. 46
3.2.9 Alarm Beacon .......................................................................................................................................................... 46
3.2.10 (Optional) Smart U Space Manager ....................................................................................................................... 47
3.2.11 eLight Actuator ...................................................................................................................................................... 48
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3.2.12 Water Sensor .......................................................................................................................................................... 50
3.2.12.1 WLDS600 Water Sensor ..................................................................................................................................... 50
3.2.12.2 WLDS900 Water Sensor ..................................................................................................................................... 51
3.2.12.3 Electrode Water Sensor ....................................................................................................................................... 52
3.2.13 WiFi Module .......................................................................................................................................................... 53
3.2.14 ETH Converter....................................................................................................................................................... 54
3.2.15 PAD........................................................................................................................................................................ 56
3.2.16 T/H Sensor ............................................................................................................................................................. 58
3.2.16.1 T/H sensor (BOM number: 33010346) ............................................................................................................... 58
3.2.16.2 T/H Sensor (BOM number: 02310NBS)............................................................................................................. 59
3.2.16.3 T/H Sensor (BOM Number: 02311FQG)............................................................................................................ 61
3.2.17 Intelligent Battery Monitoring System .................................................................................................................. 61
3.2.17.1 iBOX ................................................................................................................................................................... 62
3.2.17.2 iBAT.................................................................................................................................................................... 72
4 UI Description ............................................................................................................................. 75
4.1 WebUI ......................................................................................................................................................................... 75
4.2 Mobile Phone App ...................................................................................................................................................... 81
4.3 Pad App....................................................................................................................................................................... 83
5 Power-On Commissioning ........................................................................................................ 85
5.1 Preparations and WebUI Login ................................................................................................................................... 85
5.2 Commissioning Configuration Wizard ....................................................................................................................... 89
5.3 Commissioning Event Notification............................................................................................................................. 90
5.4 Commissioning the New Main Way ........................................................................................................................... 94
5.5 Commissioning the eLight .......................................................................................................................................... 96
6 Feature Description..................................................................................................................... 99
6.1 Access Management ................................................................................................................................................... 99
6.1.1 Commissioning a Door Status Sensor ...................................................................................................................... 99
6.1.1.1 Commissioning a Door Status Sensor (Connected to the AI/DI port on the independent deployment AI_DI unit)
.......................................................................................................................................................................................... 99
6.1.1.2 Commissioning a Door Status Sensor (Connected to the AI/DI Port on the Rack Environment Unit) ............... 100
6.1.2 Commissioning an Access Control Device and a Cabinet Electronic Lock ........................................................... 101
6.1.3 Commissioning the Exit Button, Skylight Button, Atmosphere Light, Emergency Button, and Magnetic Lock .. 105
6.1.4 Commissioning an Emergency Door Release Button ............................................................................................ 106
6.2 Video Management ................................................................................................................................................... 107
6.2.1 Preparing Documentation ...................................................................................................................................... 107
6.2.2 Networking Scenarios ............................................................................................................................................ 107
6.2.3 Commissioning a Camera (Smart ETH Gateway Networking Scenario) .............................................................. 108
6.2.3.1 Commissioning IPC6325 Cameras ..................................................................................................................... 108
6.2.3.2 Commissioning IPC6325 Camera (SD Card Configured) .................................................................................. 115
6.2.4 Commissioning a Camera (LAN Switch Networking Scenario) ........................................................................... 117
6.2.4.1 Commissioning IPC6325 Cameras ..................................................................................................................... 117
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6.2.4.2 Commissioning IPC6325 Camera (SD Card Configured) .................................................................................. 120
6.2.5 Setting Parameters on the VCN WebUI ................................................................................................................. 123
6.2.6 Setting Parameters on the VCN IVS Client ........................................................................................................... 125
6.3 Linkage Control ........................................................................................................................................................ 128
6.3.1 Fire Control Linkage .............................................................................................................................................. 129
6.3.2 High Temperature Linkage .................................................................................................................................... 131
6.3.3 (Optional) Commissioning an Intelligent Aisle Light ............................................................................................ 132
6.4 PUE Configuration ................................................................................................................................................... 135
6.4.1 Configuring PUE Standard Mode .......................................................................................................................... 136
6.4.2 Configuring PUE User-defined Mode ................................................................................................................... 137
6.4.3 Viewing PUE Data ................................................................................................................................................. 139
6.5 Battery Management ................................................................................................................................................. 140
6.5.1 Setting iBOX and iBAT Parameters....................................................................................................................... 140
6.5.2 Networking iBOXs and iBATs in Wireless Mode .................................................................................................. 141
6.6 Asset Management .................................................................................................................................................... 142
6.6.1 Determining the Position of the Smart U Space Manager ..................................................................................... 143
6.6.2 Querying the U Space Use Information ................................................................................................................. 143
6.7 Power Management .................................................................................................................................................. 144
6.7.1 Configuring Power Management Parameters ........................................................................................................ 144
6.7.2 Setting Fault Isolation Parameters ......................................................................................................................... 147
6.7.3 Viewing the Power Usage ...................................................................................................................................... 147
6.7.4 Viewing the Power Supply Links Diagram ............................................................................................................ 148
6.8 Cooling Capacity Management ................................................................................................................................ 150
6.8.1 (Optional) Setting Cooling Management Parameters ............................................................................................ 150
6.8.2 Viewing Cooling Capacity Usage Information ...................................................................................................... 151
6.8.3 (Optional) Setting Cooling Management Parameters ............................................................................................ 152
6.8.4 Viewing the Cooling Links Diagram ..................................................................................................................... 154
6.8.5 Setting the Temperature Map ................................................................................................................................. 156
6.9 Remote Management ................................................................................................................................................ 159
6.9.1 NetEco Management.............................................................................................................................................. 159
6.9.1.1 Connecting the Communications Cable .............................................................................................................. 159
6.9.1.2 Setting NetEco Parameters ................................................................................................................................. 159
6.9.1.3 Creating an ECC800 on the NetEco ................................................................................................................... 160
6.9.1.4 Setting the Transparent Transmission Function .................................................................................................. 161
6.9.2 Third-party NMS Management (over SNMP) ....................................................................................................... 164
6.9.2.1 Connecting the Communications Cable .............................................................................................................. 164
6.9.2.2 Setting SNMP Management Parameters ............................................................................................................. 164
7 Maintenance ............................................................................................................................... 167
7.1 Routine Maintenance ................................................................................................................................................ 167
7.2 Common Faults and Troubleshooting ....................................................................................................................... 168
7.3 Component Replacement .......................................................................................................................................... 170
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7.3.1 Replacing an ECC800 Main Control Module ........................................................................................................ 170
7.3.2 Replacing a PSU .................................................................................................................................................... 172
7.3.3 Replacing ECC800 Antennas ................................................................................................................................. 173
7.3.4 Replacing a SIM Card and Micro SD Card ........................................................................................................... 174
8 FAQ .............................................................................................................................................. 176
8.1 WebUI Operations .................................................................................................................................................... 176
8.1.1 Setting ECC800 Cascading .................................................................................................................................... 176
8.1.2 (Optional) Setting Device Performance Parameters .............................................................................................. 177
8.1.3 How Can I View Version Information? .................................................................................................................. 178
8.1.4 How Do I Set the Date and Time? ......................................................................................................................... 178
8.1.5 How to Check the System Type and Set the Smart Module Name ........................................................................ 179
8.1.6 How to Manage WebUI Users? ............................................................................................................................. 180
8.1.7 How Do I Create a Smart Module Plan View? ...................................................................................................... 182
8.1.8 How Do I Set and Add Devices? ........................................................................................................................... 185
8.1.8.1 How to Set and Add an Integrated UPS Parameters? ......................................................................................... 185
8.1.8.2 How to Set and Add a UPS2000-G? ................................................................................................................... 185
8.1.8.3 How to Set and Add a UPS5000-E? ................................................................................................................... 187
8.1.8.4 How to Set and Add a PDU8000 or integrated PDF (over Modbus-TCP)? ........................................................ 189
8.1.8.5 How to Set and Add a PDU8000 (over Modbus RTU)? ..................................................................................... 189
8.1.8.6 How to Set and Add a PDU2000?....................................................................................................................... 191
8.1.8.7 How to Set and Add an ATS? .............................................................................................................................. 193
8.1.8.8 How to Set and Add a PMAC615 AC Meter? .................................................................................................... 194
8.1.8.9 How to Set and Add a PMAC625 AC Meter? .................................................................................................... 196
8.1.8.10 How to Set and Add a PDC DC Meter? ............................................................................................................ 198
8.1.8.11 How to Set and Add an AC PDC MA01C? ....................................................................................................... 199
8.1.8.12 How to Set and Add a NetCol5000-A042 Parameters? .................................................................................... 200
8.1.8.13 How to Set and Add a NetCol5000-C030 Parameters (over Modbus TCP)? .................................................... 201
8.1.8.14 How to Set and Add a NetCol5000-C030 (over Modbus RTU)? ...................................................................... 202
8.1.8.15 How to Set and Add a NetCol5000-A025 Parameters (over MAC-Modbus)? ................................................. 203
8.1.8.16 How to Set and Add a NetCol5000-A025 Parameters (over Modbus-TCP)? ................................................... 204
8.1.8.17 How to Set and Add a NetCol5000-A010 Parameters (over MAC-Modbus)? ................................................. 205
8.1.8.18 How Do I Set NetCol5000CF_110HALF Parameters (Modbus-TCP)? ........................................................... 205
8.1.8.19 How to Set and Add a NetCol5000CF_110 Parameters (over Modbus-TCP)?................................................. 206
8.1.8.20 How to Set and Add a SUNRISE SCU-20K? ................................................................................................... 207
8.1.8.21 How to Set and Add a Rack-mounted HR04A.................................................................................................. 209
8.1.8.22 How Do I Add and Set an Envicool SC15? ...................................................................................................... 210
8.1.8.23 How Do I Add and Set an AIRSYS Air Conditioner? ...................................................................................... 211
8.1.8.24 How to Set and Add a Dehumidifier HT-500? .................................................................................................. 213
8.1.8.25 How to Set and Add an IP Device? ................................................................................................................... 213
8.1.8.26 How to Set and Add an Independent Deployment AI_DI Unit? ....................................................................... 214
8.1.8.27 How to Set and Add the Multi-functional Sensor? ........................................................................................... 216
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8.1.8.28 How to Set and Add the Smoke Detector (Connected to the AI/DI Port on the ECC800)? .............................. 217
8.1.8.29 How to Set and Add the Smoke Detector (Connected to the AI/DI Port on the Skylight Actuator)? ............... 219
8.1.8.30 How to Set and Add the Smoke Detector (Connected to the AI/DI Port on the Rack Environment Unit)? ...... 220
8.1.8.31 How to Set and Add the WLDS900 Water Sensor? .......................................................................................... 221
8.1.8.32 How to Set and Add the WLDS600 Water Sensor? .......................................................................................... 222
8.1.8.33 How to Set and Add the Electrode Water Sensor? ............................................................................................ 223
8.1.8.34 How to Set and Add the Temperature Sensor (Connected to the AI/DI Port on the ECC800)? ........................ 224
8.1.8.35 How to Set and Add the Temperature Sensor (Connected to the NTC Port on the Rack Environment Unit)? . 225
8.1.8.36 How to Set and Add the T/H Sensor (BOM Number: 33010346)? ................................................................... 226
8.1.8.37 How to Set and Add the T/H Sensor (BOM Number: 02310NBS)? ................................................................. 227
8.1.8.38 How to Set and Add the T/H Sensor (BOM Number: 02311FQG)? ................................................................. 229
8.1.9 How to Restore Factory Settings?.......................................................................................................................... 231
8.1.10 How Do I Install a Network Security Certificate? ............................................................................................... 232
8.1.11 How Can I Install a Device Access Certificate? .................................................................................................. 232
8.1.12 How Can I Change the ECC800 IP Address on the WebUI? ............................................................................... 233
8.1.13 How Do I Configure ECC800 Alarm Parameters? .............................................................................................. 233
8.1.14 How Can I View Real-Time Monitoring Data, Active Alarms, Historical Alarms, Access Event, and Operation
Logs? .............................................................................................................................................................................. 234
8.1.15 How Can I Handle Alarms? ................................................................................................................................. 235
8.1.16 How Can I View Performance Data? ................................................................................................................... 235
8.1.17 How Is a Signal Name Changed? ........................................................................................................................ 235
8.1.18 How Can I Export Historical Data and Device Data? .......................................................................................... 236
8.1.19 How Can I Export or Import a Configuration File? ............................................................................................. 237
8.1.20 How Can I Export Fault Information? ................................................................................................................. 238
8.1.21 How Can I Synchronize Device Parameters? ...................................................................................................... 239
8.1.22 How Can I Handle DO Association Failure? ....................................................................................................... 239
8.1.23 What Do I Do If the ECC800 WebUI Display Language Changes from Chinese to English During Use? ......... 240
8.1.24 What Do I Do If the ECC800 Fails to Communicate with the UPS5000-E? ....................................................... 240
8.1.25 What Do I Do If a Message Indicating Unauthorized Fingerprint Is Displayed During Fingerprint Scanning on
the Access Control Device (Fingerprint Has Been Recorded)? ...................................................................................... 241
8.1.26 How Can I Rectify Camera Access Restriction? .................................................................................................. 241
8.1.27 How Should I Add the Devices Accessed Through a Smart ETH Gateway over Modbus-TCP to the ECC800
WebUI? ........................................................................................................................................................................... 242
8.1.28 How Should I Add the Devices Accessed Through a Smart ETH Gateway over Modbus-MAC to the ECC800
WebUI? ........................................................................................................................................................................... 243
8.1.29 How Should I Add Devices Accessed Through the ETH Converter to the ECC800 WebUI? ............................. 244
8.1.30 How Should I Add Devices Accessed Through the ECC800 COM Port to the ECC800 WebUI ........................ 246
8.1.31 How Should I Add Devices Accessed Through the ECC800 AI/DI Port to the ECC800 WebUI ........................ 247
8.1.32 How Should I Open Doors Remotely over the ECC800 WebUI ......................................................................... 249
8.1.33 How Should I Turn On or Off Aisle Lights in the Smart Module over the ECC800 WebUI? ............................. 250
8.1.34 How Should I Opening Skylights Remotely over the ECC800 WebUI? ............................................................. 251
8.1.35 How Should I Turn On or Off Smart Cooling Products over the ECC800 WebUI? ............................................ 252
8.1.36 How Should I Open the Cabinet Electronic Lock over the ECC800 WebUI ....................................................... 252
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8.1.37 How Should I Link the Smoke Alarm with the Alarm Beacon over the ECC800 WebUI ................................... 253
8.1.38 How should I Link the AI/DI Alarm with the Alarm Beacon over the ECC800 WebUI...................................... 254
8.1.39 How Should I Modify Device Names over the ECC800 WebUI ......................................................................... 255
8.2 APP Operations ......................................................................................................................................................... 256
8.2.1 How to Connect to a WiFi Network ...................................................................................................................... 256
8.2.2 How to Prepare and Login App ............................................................................................................................. 256
8.2.3 How Do I Ensure that Device Positions in the Plan View Are Consistent with Actual Positions? ........................ 258
8.2.4 How to View Real-time Data? ............................................................................................................................... 259
8.2.5 How Can I Export and Import Data? ..................................................................................................................... 259
8.2.6 How Can I Synchronize Device Parameters? ........................................................................................................ 260
8.2.7 How Can I Handle App Login Failure? ................................................................................................................. 261
9 PLC Function .............................................................................................................................. 262
9.1 Linkage Control Introduction ................................................................................................................................... 262
9.2 Linkage Control Configuration Examples ................................................................................................................ 263
10 Acronyms and Abbreviations ............................................................................................... 266
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User Manual 1 Safety Information
1 Safety Information
1.1 General Safety
Statement
Before installing, operating, and maintaining the equipment, read this document and observe
all the safety instructions on the equipment and in this document.
The"NOTICE", "CAUTION", "WARNING", and "DANGER" statements in this document do
not cover all the safety instructions. They are only supplements to the safety instructions.
Huawei will not be liable for any consequence caused by the violation of general safety
requirements or design, production, and usage safety standards.
Ensure that the equipment is used in environments that meet its design specifications.
Otherwise, the equipment may become faulty, and the resulting equipment malfunction,
component damage, personal injuries, or property damage are not covered under the warranty.
Follow local laws and regulations when installing, operating, or maintaining the equipment.
The safety instructions in this document are only supplements to local laws and regulations.
Huawei will not be liable for any consequences of the following circumstances:
Operation beyond the conditions specified in this document
Installation or use in environments which are not specified in relevant international or
national standards
Unauthorized modifications to the product or software code or removal of the product
Failure to follow the operation instructions and safety precautions on the product and in
this document
Equipment damage due to force majeure, such as earthquakes, fire, and storms
Damage caused during transportation by the customer
Storage conditions that do not meet the requirements specified in this document
General Requirements
Do not install, use, or operate outdoor equipment and cables (including but not limited to
moving equipment, operating equipment and cables, inserting connectors to or removing
connectors from signal ports connected to outdoor facilities, working at heights, and
performing outdoor installation) in harsh weather conditions such as lightning, rain,
snow, and level 6 or stronger wind.
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Before installing, operating, or maintaining the equipment, remove any conductive
objects such as watches or metal jewelry like bracelets, bangles, and rings to avoid
electric shock.
When installing, operating, or maintaining the equipment, wear dedicated protective
gears such as insulation gloves, goggles, and safety clothing, helmet, and shoes, as
shown in the following figure.
Follow the specified procedures for installation, operation, and maintenance.
Before handling a conductor surface or terminal, measure the contact point voltage and
ensure that there is no risk of electric shock.
After installing the equipment, remove idle packing materials such as cartons, foam,
plastics, and cable ties from the equipment area.
In the case of a fire, immediately leave the building or the equipment area, and turn on
the fire alarm bell or make an emergency call. Do not enter the building on fire in any
case.
Do not stop using protective devices. Pay attention to the warnings, cautions, and related
precautionary measures in this document and on the equipment. Promptly replace
warning labels that have worn out.
Keep irrelevant people away from the equipment. Only operators are allowed to access
the equipment.
Use insulated tools or tools with insulated handles, as shown in the following figure.
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All cable holes should be sealed. Seal the used cable holes with firestop putty. Seal the
unused cable holes with the caps delivered with the cabinet. The following figure shows
the criteria for correct sealing with firestop putty.
Do not scrawl, damage, or block any warning label on the equipment.
Tighten the screws using tools when installing the equipment.
Do not work with power on during installation.
Repaint any paint scratches caused during equipment transportation or installation in a
timely manner. Equipment with scratches cannot be exposed to an outdoor environment
for a long period of time.
Before operations, ensure that the equipment is firmly secured to the floor or other solid
objects, such as a wall or an installation rack.
Do not use water to clean electrical components inside or outside of a cabinet.
Do not change the structure or installation sequence of equipment without permission.
Do not touch a running fan with your fingers, components, screws, tools, or boards
before the fan is powered off or stops running.
Personal Safety
If there is a probability of personal injury or equipment damage during operations on the
equipment, immediately stop the operations, report the case to the supervisor, and take
feasible protective measures.
To avoid electric shock, do not connect safety extra-low voltage (SELV) circuits to
telecommunication network voltage (TNV) circuits.
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Do not power on the equipment before it is installed or confirmed by professionals.
1.2 Personnel Requirements
Personnel who plan to install or maintain Huawei equipment must receive thorough
training, understand all necessary safety precautions, and be able to correctly perform all
operations.
Only qualified professionals or trained personnel are allowed to install, operate, and
maintain the equipment.
Only qualified professionals are allowed to remove safety facilities and inspect the
equipment.
Personnel who will operate the equipment, including operators, trained personnel, and
professionals, should possess the local national required qualifications in special
operations such as high-voltage operations, working at heights, and operations of special
equipment.
Professionals: personnel who are trained or experienced in equipment operations and are
clear of the sources and degree of various potential hazards in equipment installation,
operation, maintenance
Trained personnel: personnel who are technically trained, have required experience, are
aware of possible hazards on themselves in certain operations, and are able to take
protective measures to minimize the hazards on themselves and other people
Operators: operation personnel who may come in contact with the equipment, except
trained personnel and professionals
Only professionals or authorized personnel are allowed to replace the equipment or
components (including software).
1.3 Electrical Safety
Grounding
For the equipment that needs to be grounded, install the ground cable first when
installing the equipment and remove the ground cable last when removing the
equipment.
Do not damage the ground conductor.
Do not operate the equipment in the absence of a properly installed ground conductor.
Ensure that the equipment is connected permanently to the protective ground. Before
operating the equipment, check its electrical connection to ensure that it is securely
grounded.
General Requirements
Use dedicated insulated tools when performing high-voltage operations.
AC and DC Power
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Do not connect or disconnect power cables with power on. Transient contact between the core
of the power cable and the conductor will generate electric arcs or sparks, which may cause
fire or personal injury.
If a "high electricity leakage" tag is attached on the equipment, ground the protective
ground terminal on the equipment enclosure before connecting the AC power supply;
otherwise, electric shock as a result of electricity leakage may occur.
Before installing or removing a power cable, turn off the power switch.
Before connecting a power cable, check that the label on the power cable is correct.
If the equipment has multiple inputs, disconnect all the inputs before operating the
equipment.
A circuit breaker equipped with a residual current device (RCD) is not recommended.
A damaged power cable must be replaced by the manufacturer, service agent, or
professionals to avoid risks.
High voltage operations and installation of AC-powered facilities must be performed by
qualified personnel.
Cabling
When routing cables, ensure that a distance of at least 30 mm exists between the cables
and heat-generating components or areas. This prevents damage to the insulation layer of
the cables.
Do not route cables behind the air intake and exhaust vents of the equipment.
Ensure that cables meet the VW-1 flame spread rating requirements.
Bind cables of the same type together. When routing cables of different types, ensure that
they are at least 30 mm away from each other.
If an AC input power cable is connected to the cabinet from the top, bend the cable in a
U shape outside the cabinet and then route it into the cabinet.
When the temperature is low, violent impact or vibration may damage the plastic cable
sheathing. To ensure safety, comply with the following requirements:
C.
Cables can be laid or installed only when the temperature is higher than 0° Handle
cables with caution, especially at a low temperature.
Cables stored at subzero temperatures must be stored at room temperature for at least 24
hours before they are laid out.
Do not perform any improper operations, for example, dropping cables directly from a
vehicle.
When selecting, connecting, and routing cables, follow local safety regulations and rules.
ESD
The static electricity generated by human bodies may damage the electrostatic-sensitive
components on boards, for example, the large-scale integrated (LSI) circuits.
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User Manual 1 Safety Information
Wear ESD gloves or a well-grounded ESD wrist strap when touching the device or
handling boards or application-specific integrated circuits (ASICs).
When holding a board, hold its edge without touching any components. Do not touch the
components with your bare hands.
Package boards with ESD packaging materials before storing or transporting them.
Figure 1-1 Wearing an ESD wrist strap
Neutral-Ground Voltage
It is recommended that the three-phase loads be equalized and the neutral-ground voltage be
kept at less than 2 V to meet power distribution requirements.
1.4 Installation Environment Requirements
To prevent fire due to high temperature, ensure that the ventilation vents or heat
dissipation system are not blocked when the equipment is running.
Install the equipment in an area far away from liquids. Do not install it under areas prone
to condensation, such as under water pipes and air exhaust vents, or areas prone to water
leakage, such as air conditioner vents, ventilation vents, or feeder windows of the
equipment room. Ensure that no liquid enters the equipment to prevent faults or short
circuits.
If any liquid is detected inside the equipment, immediately disconnect the power supply
and contact the administrator.
Do not expose the equipment to flammable or explosive gas or smoke. Do not perform
any operation on the equipment in such environments.
Ensure that the equipment room provides good heat insulation, and the walls and floor
are dampproof.
Install a rat guard at the door of the equipment room.
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Installation at Heights
Working at heights refers to operations that are performed at least 2 meters above the
ground.
Do not work at heights if the steel pipes are wet or other potential danger exists. After the
preceding conditions no longer exist, the safety director and relevant technical personnel
need to check the involved equipment. Operators can begin working only after obtaining
consent.
When working at heights, comply with local relevant laws and regulations.
Only trained and qualified personnel are allowed to work at heights.
Before working at heights, check the climbing tools and safety gears such as safety
helmets, safety belts, ladders, springboards, scaffolding, and lifting equipment. If they do
not meet the requirements, take corrective measures or disallow working at heights.
Wear personal protective equipment such as the safety helmet and safety belt or waist
rope and fasten it to a solid structure. Do not mount it on an insecure moveable object or
metal object with sharp edges. Make sure that the hooks will not slide off.
Set a restricted area and eye-catching signs for working at heights to warn away
irrelevant personnel.
Carry the operation machinery and tools properly to prevent them from falling off and
causing injuries.
Personnel involving working at heights are not allowed to throw objects from the height
to the ground, or vice versa. Objects should be transported by tough slings, hanging
baskets, highline trolleys, or cranes.
Ensure that guard rails and warning signs are set at the edges and openings of the area
involving working at heights to prevent falls.
Do not pile up scaffolding, springboards, or other sundries on the ground under the area
involving working at heights. Do not allow people to stay or pass under the area
involving working at heights.
Inspect the scaffolding, springboards, and workbenches used for working at heights in
advance to ensure that their structures are solid and not overloaded.
Any violations must be promptly pointed out by the site manager or safety supervisor
and the involved personnel should be prompted for correction. Personnel who fail to stop
violations will be forbidden from working.
1.5 Mechanical Safety
Hoisting Devices
Do not walk under hoisted objects.
Only trained and qualified personnel should perform hoisting operations.
Check that hoisting tools are available and in good condition.
Before hoisting objects, ensure that hoisting tools are firmly secured onto a load-bearing
object or wall.
Ensure that the angle formed by two hoisting cables is no more than 90 degrees, as
shown in the following figure.
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Do not drag steel ropes and hoisting tools or bump hoisted objects against hard objects
during hoisting.
Using Ladders
Use wooden or fiberglass ladders when you need to perform live working at heights.
When a step ladder is used, ensure that the pull ropes are secured and the ladder is held
firm.
Before using a ladder, check that it is intact and confirm its load bearing capacity. Do not
overload it.
Ensure that the ladder is securely positioned. The recommended angle for a ladder
against the floor is 75 degrees, as shown in the following figure. An angle rule can be
used to measure the angle. Ensure that the wider end of the ladder is at the bottom, or
protective measures have been taken at the bottom to prevent the ladder from sliding.
When climbing a ladder, take the following precautions to reduce risks and ensure
safety:
Keep your body steady.
Do not climb higher than the fourth rung of the ladder from the top.
Ensure that your body's center of gravity does not shift outside the legs of the ladder.
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Drilling Holes
When drilling holes into a wall or floor, observe the following safety precautions:
Do not drill holes into the equipment. Doing so may affect the electromagnetic shielding of
the equipment and damage components or cables inside. Metal shavings from drilling may
short-circuit boards inside the equipment.
Obtain the consent from the customer, subcontractor, and Huawei before drilling.
Wear goggles and protective gloves when drilling holes.
When drilling holes, protect the equipment from shavings. After drilling, clean up any
shavings that have accumulated inside or outside the equipment.
Moving Heavy Objects
When removing a heavy or unstable component from a cabinet, be aware of unstable or heavy
objects on the cabinet.
Be cautious to avoid injury when moving heavy objects.
When moving the equipment by hand, wear protective gloves to prevent injuries.
Move or lift the equipment by holding its handles or lower edges. Do not hold the
handles of modules (such as power supply units, fans, and boards) that are installed in
the equipment because they cannot support the weight of the equipment.
Avoid scratching the cabinet surface or damaging cabinet components and cables during
equipment transportation.
When transporting the equipment using a forklift truck, ensure that the forks are properly
positioned to ensure that the equipment does not topple. Before moving the equipment,
secure it to the forklift truck using ropes. When moving the equipment, assign dedicated
personnel to take care of it.
Choose railways, sea, or a road with good condition for transportation to ensure
equipment safety. Avoid tilt or jolt during transportation.
Move a cabinet with caution. Any bumping or falling may damage the equipment.
1.6 Others
Exercise caution when shutting down the smart cooling product. Doing so may cause
equipment and room overheating, which will damage the equipment.
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Exercise caution when powering off the rPDU or PDU2000. Doing so may affect the
power supply to equipment, which will interrupt services.
Exercise caution when manually shutting down the UPS inverter for transferring to
bypass mode, or when adjusting the UPS output voltage level or frequency. Doing so
may affect the power supply to equipment.
Exercise caution when setting battery parameters. Incorrect settings will affect the power
supply and battery lifespan.
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User Manual 2 Overview
2 Overview
2.1 Positioning
The ECC800 is the core component for the smart module local management. It is intelligent,
flexible in connection, easy to maintain, and reliable. It adopts the POE bus for expansion,
and allows all intelligent monitoring devices to be flexibly laid out so that it can manage the
devices in the smart module.
2.2 Features
Efficient
− Supports access of wireless devices and provides backup routes, reducing cable
layout workload and enhancing reliability.
− Supports unlocking through the access card, password and fingerprint.
− Supports remote alarm notifications by SMS and email.
− Supports power supply and communication over the power over Ethernet (POE) bus,
providing rich bandwidth resources and high communication efficiency.
− Supports remote upgrade, fault data export, and configuration parameter
synchronization.
− Supports the connection of eight in-room access control devices and four cameras
for a single smart module.
− Cascades a maximum of three ECC800s, displays the active alarms and power
usage effectiveness (PUE) data of cascaded ECC800s on the WebUI of one
ECC800.
− Collects statistics on the instantaneous PUE and average PUE of the smart module
and displays the statistics on a dashboard and in curves, so that you can query the
power consumption of the smart module in real time
− Supports the function of transparent transmission over the RS485 port, so that
southbound components can communicate with the NetEco after accessing the
ECC800.
− Allows you to modify device performance parameters and query historical
performance data.
− Supports asset management, power management, and cooling capacity management,
allowing a grasp of dynamic information about the smart module in a timely
manner, and facilitating effective management.
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− Supports deployment wizard, which provides commissioning guidance.
Simple
− Supports local WiFi hotspots. After you install the WiFi module at the USB port on
the ECC800, you can connect to the ECC800 using the app on the mobile phone or
tablet computer to view the basic information about the smart module, such as
layout, resources, energy efficiency, environment, and alarms. This increases
usability.
− Supports query of device information in real time using the pad app or mobile
phone app, facilitating operation and maintenance.
− Supports connection of NE monitoring devices to the POE bus in plug-and-play
mode for auto-discovery and auto-registration requiring no configuration. This
feature enables fast delivery and higher maintainability.
Reliable
− Supports intelligent linkage management which allows customization of linkage
logic, achieving intelligent operation and maintenance.
− Supports dual power inputs, providing high reliability.
− Supports intelligent battery monitoring management, which allows monitoring of
cell voltage and internal resistance for discovery of failed cells.
− Supports automation functions such as fire control linkage and smoke alarm
linkage.
− Supports a POE ring network, reducing networking fault points and providing high
reliability.
− Supports cabinet-level magnetic locks, door status sensor, and temperature
monitoring, providing high security.
− Interconnects with the NetEco and supports the SNMP, allowing central
management over various scenarios and modules.
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User Manual 3 Device Description
3 Device Description
3.1 ECC800
The ECC800 consists of power supply units (PSUs) and an ECC800 main control module and
monitors the equipment and environment in the smart module.
Figure 3-1 ECC800 (front view)
(1) PSU (2) PSU (3) Status indicator
(4) 3G/4G antenna port (5) FE ports (6) AI/DI_1–6 sensor
Manufacturer: Guangdong (WAN_1–WAN_2 and input port
Shenglu Telecommunication Tech. LAN_1–LAN_2)
Co., Ltd.
Model: SL10802U
(7) RF_Z antenna port (8) SW button (9) DO_1–2 dry
Manufacturer: Guangdong contact output
Shenglu Telecommunication Tech.
Co., Ltd.
Model: SL15334H
(10) RS485 port 12V (COM1–4) (11) Default button (12) USB port
(13) ECC800 main control module
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Figure 3-2 ECC800 (rear view)
(1) 53.5V DC_OUT1 (2) 53.5V DC_OUT2 (3) AC_INPUT1
(4) AC_INPUT2
Figure 3-3 ECC800 main control module (side view)
(1) SIM card slot (2) Micro-SD card slot
ECC800 Specifications
Table 3-1 ECC800 environmental specifications
Item Specifications
Working temperature –20° to +50°
C C
Storage temperature –40° to +70°
C C
Relative humidity 5%–95% RH (non-condensing)
Altitude 0–4000 m (When the altitude is between 3000 m and 4000 m,
C
the temperature decreases by 1° for each additional 200 m.)
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Table 3-2 ECC800 structural specifications
Item Specifications
Dimensions (L x W x H) 442 mm x 330 mm x 43.6 mm
Color Black
Installation Can be installed in a 1 U space in a standard
19-inch cabinet
Environmental protection RoHS5
Table 3-3 ECC800 technical specifications
Item Specifications
Power input Supports two AC inputs
Rated voltage: 200–240 V AC/100–120 V AC
Rated frequency: 50 Hz/60 Hz
Power output Output voltage: 42–58 V DC (rated voltage: 53.5 V DC)
Output power of two power module supplies: 2000 W (176–300
V AC); 940 W (linear derating at 85–175 V AC)
Output power of a single power module supply: 1000 W
(176–300 V AC); 470 W (linear derating at 85–175 V AC)
FE port expansion Supports two WAN ports, two LAN ports, and 10/100M
communications rate
RS485 serial port Supports four RS485 ports with the default communications rate
expansion of 9600 bit/s.
Each port provides 12 V DC power with the rated current of 450
mA.
AI/DI expansion Supports six AI/DI ports to connect to smoke sensors, water
(RJ45) sensors, and temperature sensors.
Each port provides 12 V DC power with the rated current of 85
mA.
DO expansion Two DO ports. Each port supports passive and active DO.
(RJ45) Supports passive (dry contact) DO ports with contact point
capacity of 20 W, maximum withstand voltage of 60 V DC, and
rated current of 500 mA.
Supports active DO ports with the output voltage of 12 V DC
and output current of 450 mA.
Wireless Supports wireless communication that complies with
communication IEEE802.15.4.
3G (optional) Supports 3G (WCDMA) communication and is compatible with 2G
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Item Specifications
(GSM) communication. A standard SIM card slot is provided.
NOTE
The prerequisite for using a SIM card is that the site has signal coverage.
USB After installing the WiFi module, connect the WiFi module to
the ECC800 using the app on the mobile phone or tablet
computer to view the basic information about the smart module,
such as layout, resources, energy efficiency, environment, and
alarms.
Insert a USB flash drive to export historical data, device data,
fault information, and configuration files, and import or export
the device configuration data and historical data.
Button SW: wireless network pairing button
Default: restores the default IP address
Table 3-4 ECC800 RF parameters
Model Name Specifications
ECC800 RF_Z Operation Frequency 2405 MHz–2480 MHz
RF_Z EIRP (max.) 5 dBm
3G Operation Frequency WCDMA BAND: 850 MHz–2100
MHz
GSM: 850 MHz–1900 MHz
3G EIRP (max.) 36 dBm
Software version V100
Indicators
Table 3-5 Indicators on the ECC800 main control module
Indicator Color Name Status Description
RUN Green Running Steady on The power supply is normal, the
status program is being loaded, or WiFi
indicator WPS is pairing.
Off The power supply is abnormal.
Blinking at The software runs properly (the
long indicator blinks at 0.5 Hz, on for
intervals 1s and then off for 1s) or the
ECC800 registers with the
NetEco successfully.
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Indicator Color Name Status Description
Blinking at The ECC800 does not register
short with the NetEco (the indicator
intervals blinks at 4 Hz, on for 0.125s and
then off for 0.125s).
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off The system is normal.
RF_Z Green Communica Steady on No network parameters exist, or
tion status a network is to be created.
indicator
Blinking at A network is set up, and no node
long access is allowed (the indicator
intervals blinks at 0.5 Hz, on for 1s and
then off for 1s).
Blinking at A network is set up, and node
super short access is allowed (the indicator
intervals blinks at 10 Hz, on for 0.05s and
then off for 0.05s).
3G Green 3G status Steady on The 3G module is powered on.
indicator
Off The 3G module stops running, or
no 3G module is configured.
Blinking at The 3G module succeeds in
long dial-up (the indicator blinks at
intervals 0.5 Hz, on for 1s and then off for
1s).
Blinking at The 3G module registers with the
short operator network successfully
intervals (the indicator blinks at 4 Hz, on
for 0.125s and then off for
0.125s).
Table 3-6 PSU indicator description
Indicator Colo Name Status Description
r
Gree Power Steady on The converter has a power input.
n indicator
Off The converter has no power input or
is faulty.
Blinking at The converter is being queried (the
long intervals indicator blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The converter application program
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Indicator Colo Name Status Description
r
short intervals is being loaded (the indicator blinks
at 4 Hz, on for 0.125s and then off
for 0.125s).
Yell Alarm Steady on The converter generates a
ow indicator forewarning indicating that power
will be limited due to ambient over
temperature, or generates a
protection shutdown alarm due to
ambient over temperature or under
temperature.
Power input overvoltage or
undervoltage protection
Reverse DC input connection
Slight current imbalance
Output overvoltage
Hibernation
Off The converter generates no
protection alarms.
Blinking at The communication between the
long intervals converter and the outside is
interrupted (the indicator blinks at
0.5 Hz, on for 1s and then off for
1s).
Red Fault Steady on The converter locks out due to
indicator output overvoltage.
The converter delivers no output
due to internal faults.
Off The converter is working properly.
Wireless Network Pairing (SW) and IP Address Reset (Default) Buttons
Table 3-7 Wireless network pairing and IP address reset buttons
Button Function Operation Description Indicator Status
Name Description
SW Wireless In non-wireless network (802.15.4) The RF_Z indicator
network RF_Z pairing mode, press and hold down is blinking at super
(802.15.4) the button for 1.2s to 5s to enter the short intervals.
pairing wireless network pairing mode.
In wireless network (802.15.4) The RF_Z indicator
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Button Function Operation Description Indicator Status
Name Description
pairing mode, press and hold down is blinking at long
the button for 1.2s to 5s to exit the intervals.
pairing mode; or the system
automatically exits the pairing mode
after 30 minutes without pressing
the button.
Press and hold down the button for The RF_Z indicator
more than 6s to clear network is on.
parameters.
WiFi pairing In non-WiFi pairing mode, press the When the system
button button for less than 1.2s to enter the enters the pairing
NOTE WiFi pairing mode. mode, the RUN
This function is
indicator is
supported only steady on.
in a scenario After pairing
where the WiFi
succeeds, the
converter is
configured. RUN indicator
blinks just as
before WiFi
pairing.
If pairing does
not succeed in 3
minutes, the RUN
indicator blinks
just as before
WiFi pairing.
Default IP address reset Hold down the button for at least 3s. None
Then the IP addresses for the
ECC800 WAN_1 and WAN_2
ports will restore to the default
addresses.
Communications Ports
The ECC800 provides the following communications ports. Figure 3-4 shows the pins of the
RJ45 port.
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Figure 3-4 RJ45 port pins
There are four FE ports, that is, two WAN ports (WAN_1 and WAN_2) and two LAN ports
(LAN_1 and LAN_2). Table 3-8 provides the FE port pin definitions.
Table 3-8 FE port pin definitions
Item Description
Pin sequence Pin 1 TX+
Pin 2 TX-
Pin 3 RX+
Pin 4 N/A
Pin 5 N/A
Pin 6 RX-
Pin 7 N/A
Pin 8 N/A
Indicator Green Linked, steady on
indicator
Yellow ACT data communication, blinking
indicator
There are four RS485 ports (COM1/12V–COM4/12V). Table 3-9 provides the RS485 port pin
definitions.
Table 3-9 RS485 port pin definitions
Item Description
Pin sequence Pin 1 RS485+
Pin 2 RS485–
Pin 3 12 V DC_OUT
Pin 4 RS485+
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Item Description
Pin 5 RS485–
Pin 6 N/A
Pin 7 N/A
Pin 8 GND
Indicator Green Power output indicator
indicator Steady on: The 12 V DC output is normal.
Off: No 12 V DC output is provided.
There are six AI/DI dry contact inputs (AI/DI_1–6). Table 3-10 provides the AI/DI port pin
definitions.
Pins 1, 2, 4, and 5 identify sensor types.
Pin 3 and Pin 8 are power output ports.
Pin 6 and Pin 7 collect sensor data. Pin 7 can detect current type sensors (4–20 mA). Pin 6 and Pin 7
can detect the output status of passive dry contact type sensors. Pin 3 and Pin 7 can detect
temperature sensors.
Table 3-10 AI/DI port pin definitions
Item Description
Pin sequence Pin 1 Type_1
Pin 2 Type_2
Pin 3 12 V DC
Pin 4 Type_3
Pin 5 Type_4
Pin 6 DI-
Pin 7 DI+
Pin 8 GND
Indicator Green Power output indicator
indicator Steady on: The 12 V DC output is normal.
Off: No 12 V DC output is provided.
There are two DO dry contact outputs (DO_1 and DO_2). Table 3-11 provides the DO port
pin definitions.
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Table 3-11 DO port pin definitions
Item Description
Pin sequence Pin 1 N/A
Pin 2 N/A
Pin 3 12 V DC_OUT
Pin 4 N/A
Pin 5 N/A
Pin 6 DO_NO
Pin 7 DO_COM
Pin 8 GND
Indicator Green Power output indicator
indicator Steady on: The 12 V DC output is normal.
Off: No 12 V DC output is provided.
Table 3-12 USB port pin definitions
Item Description
Pin sequence Pin 1 5V
Pin 2 DM
Pin 3 DP
Pin 4 GND
Power Ports
The ECC800 provides four power ports, including two AC input ports (AC_INPUT1 and
AC_INPUT2) and two DC output ports (DC_OUTPUT1 and DC_OUTPUT2). Table 3-13
provides the power port pin definitions.
Table 3-13 Power port pin definitions
Port Type Pin Description
AC Pin 1 L
Pin 2 PE
Pin 3 N
DC Pin 1 48V+
Pin 2 48VGND
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User Manual 3 Device Description
3.2 Southbound Device Introduction
3.2.1 Rack Environment Unit
The rack environment unit collects and controls the environmental data of IT cabinets in the
smart module.
Figure 3-5 Rack environment unit
(1) Ground port (2) 48 V DC power input (3) POE port (4) COM1/12V
port port
(5) COM2/12V (6) COM3 port (7) COM4 port (8) NTC1-3
port
(9) NTC4-6 (10) AI/DI_1 port (11) AI/DI_2 port (12) 12V_1 port
(13) 12V_2 port (14) BLINK button (15) Status
indicator
Specifications
Table 3-14 Technical specifications for the rack environment unit
Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE input: One POE port that complies with IEEE802.3at.
12 V power Two 12 V DC power outputs with the rated output current of 250 mA
output
POE port FE communication with the rate of 10/100M
RS485 serial Four RS485 ports with the default communications rate of 9600 bit/s
port Among the four RS485 ports, two support 12 V DC, 400 mA power
expansion output.
The other two are isolated, with the default communications rate of
9600 bit/s, and do not support power output.
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Item Specifications
AI/DI input Two active 12 V DC, 200 mA AI/DI input ports
Temperature Provides two RJ45 ports to connect to six temperature sensors, each RJ45
sensor port port connecting to three temperature sensors.
BLINK Provides a BLINK function.
button
Indicators
Table 3-15 lists the structural specifications for the rack environment unit.
Table 3-15 Indicator description
Indicator Color Name Status Description
PWR Green Power input Steady on The power input is normal.
status
indicator Off There is no power input.
RUN Green Module Off The power is abnormal or
running the board program is
status loading.
indicator
Blinking at The software runs properly
long (the indicator blinks at 0.5
intervals Hz, on for 1s and then off
for 1s).
Blinking at POE communication fails
short (the indicator blinks at 4 Hz,
intervals on for 0.125s and then off
for 0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is
generated.
3.2.2 Smart ETH Gateway
A smart ETH gateway allows the extension of the 53.5 V DC power supply and FE
communication for the ECC800 and can be flexibly deployed in a smart module.
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Figure 3-6 Smart ETH gateway
(1) PWR_IN (2) FE_1 cascading (3) POE_1–2 (4) POE_3–4 ports
cascading power port signal port ports
(5) 48V_OUT1 (6) 48V_OUT2 (7) FE_2 (8) PWR_OUT
power output port power output port cascading signal cascading power port
port
(9) BLINK button (10) Status indicator
Specifications
Table 3-16 Technical specifications for a smart ETH gateway
Item Specifications
Power input PWR_IN D-type power input terminal, for power cascading, input voltage
range: 45–55 V DC
Power of a single smart ETH gateway: max (2.7 A , 48 V DC); power of
cascaded smart ETH gateways: max (25 A, 48 V DC)
Power output PWR_OUT D-type power output terminal, for power cascading, output
voltage range: 45–55 V DC
48V_OUT1 and 48V_OUT2, terminal (1 A,48 V DC), output voltage
range: 45–55 V DC
FE port Two FE ports, RJ45 terminal with an indicator, 10/100M communication
rate, for the cascading between smart ETH gateways and the
communication with the upper computer
POE port Four POE ports, RJ45 terminal with an indicator, 10/100M
communications rate, complying with IEEE802.3, IEEE802.3u,
IEEE802.3af/at
BLINK If you press the BLINK button, the RUN indicator blinks intermittently at
button super short intervals (blinking at super short intervals for 0.5s and then off
for 0.5s) for 5 seconds.
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Indicators
Table 3-17 Indicators on a smart ETH gateway
Indicator Color Name Status Description
PWR Green Power input Steady on The power input is normal.
status indicator
Off There is no power input.
RUN Green Module Off The power supply is
running status abnormal.
indicator
Blinking at The smart ETH gateway
long successfully registers with
intervals the ECC800 and the software
runs properly (the indicator
blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The smart ETH gateway does
short not register with the ECC800
intervals (the indicator blinks at 4 Hz,
on for 0.125s and then off for
0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is
generated.
3.2.3 Access Control System
The access control system applies to the equipment room, aisle containment, and cabinet
doors.
3.2.3.1 Aisle or Room Access Control System
The access control system collects and monitors data about the access of devices and
personnel to ensure access security.
Diverse access control devices such as the fingerprint and card reader with a keypad,
fingerprint and card reader, and card reader with a keypad are supported. Note that the
communication distance between an access control device and an access actuator should be
less than or equal to 5 meters.
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If the IC cards used by the access control device need to be purchased, the IC card chip specifications
are as follows.
Table 3-18 IC card chip specifications
Item Specifications
Chip model S50
Chip name Mifare 1K (S50) card
Chip type Philips Mifare 1 IC S50
Operating frequency 13.56 MHz
Read/write distance 1–3 cm
Storage capacity 8 Kbit, 16 partitions
The emergency button or emergency door release button is used to open a door in
emergencies.
The emergency button can disconnect the power supply to the lock and therefore unlock
the door in case of emergency.
In case of emergency, break the glass of the emergency door release button to disconnect
the power supply to the lock and therefore unlock the door.
3.2.3.1.1 Access Actuator
The access actuator is the control component for the aisle door in a smart module. It connects
to the ECC800 controller over FE port, wireless networking (802.15.4). It opens the magnetic
lock by detecting the card swiping information of the card reader, door open button
information, and fire linkage information. It has access right management, access event record,
and alarm record functions.
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Figure 3-7 Access actuator
(1) 48 V power port (2) POE port (3) RS485 port COM2
(4) RS485 port COM1 (5) Address DIP switch (6) Status indicator
(7) BLINK button (8) WG_2 Wiegand (9) WG_1 Wiegand interface
interface
(10) AI/DI_2 dry (11) AI/DI_1 dry (12) LOCK/GND/GATE/COM door
contact (Reserved port contact (Reserved port status or magnetic lock port
for linkage control or for exit button)
third-party fire
extinguishing system
dry contacts)
Specifications
Table 3-19 Access actuator technical specifications
Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE input: One POE port that complies with IEEE802.3at.
POE port FE communication, 10/100M communications rate
Wireless One wireless communication port that complies with
communication IEEE802.15.4, mutual backup with FE communication
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Item Specifications
AI/DI port Two AI/DI ports, can connect to the fire alarm and exit button
DO/DI port One 12 V DC power output that controls magnetic locks,
terminal
One DI input port for connecting to the door status switch
RS485 serial port Two RS485 ports (one route) with the default communications rate
expansion of 9600 bit/s, physical port cascading supported (reserved function)
Wiegand interface Two Wiegand interfaces, 12 V DC card reader operating power
output; two routes of card readers (non-fingerprint readers) can
operate at the same time.
BLINK button Press the button for less than 1 second to start blinking.
Hold down the button for 1–5 seconds to search for a network
and start networking.
Hold down the button for more than 10 seconds to clear
network parameters.
Address DIP switch 4-pin address DIP switch
E-label Supported
Indicators
Table 3-20 Access actuator indicator description
Indicator Color Name Status
PWR Green Power input status Steady on: The power
indicator input is normal.
Off: There is no
power input.
RUN Green Communication status Off: The power is
indicator abnormal or the
board program is
loading.
Blinking at long
intervals: The access
actuator successfully
registers with the
ECC800 and the
software runs
properly (the
indicator blinks at 0.5
Hz, on for 1s and
then off for 1s).
Blinking at short
intervals: The
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Indicator Color Name Status
communication is
disconnected or the
access actuator fails
to register with the
ECC800 (the
indicator blinks at 4
Hz, on for 0.125s and
then off for 0.125s).
Blinking: The
indicator blinks at
super short intervals
for 0.5s (blinking at
10 Hz, on for 0.05s
and then off for
0.05s) and then turns
off for 0.5s. The
cycle lasts for 10s.
ALM Red Alarm indicator Steady on: A system
failure alarm is
generated.
Off: No system alarm
is generated.
RF_Z Green Wireless communication Steady on: No
status indicator network parameters
exist, or a network is
to be created.
Blinking at long
intervals: A network
is set up, and no node
access is allowed (the
indicator blinks at 0.5
Hz, on for 1s and
then off for 1s).
Blinking at super
short intervals: A
network is set up, and
node access is
allowed (the indicator
blinks at 10 Hz, on
for 0.05s and then off
for 0.05s).
Blinking
intermittently at super
short intervals: The
access actuator is
searching for a
network (the
indicator blinks at
super short intervals
for 0.5s and then
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Indicator Color Name Status
turns off for 0.5s).
Communications Ports
The access actuator provides one DO port (LOCK/GND) and one DI port (GATE/COM).
Table 3-21 lists the LOCK/GND/GATE/COM port pin definitions.
Table 3-21 LOCK/GND/GATE/COM port pin definitions
Item Description
LOCK/GND LOCK 12V_OUT
(control
magnetic GND GND
locks) pin
sequence
GATE/COM GATE DI1
(door status)
pin sequence COM COM
3.2.3.1.2 Fingerprint and Card Reader with a Keypad
Figure 3-8 Fingerprint and card reader with a keypad
The following uses the old fingerprint and card reader with a keypad as an example. The new and old
fingerprint and card readers have the same appearance, but have different indicator colors when the
device is collecting a fingerprint. For details, see "Access control device operating status."
(1) Fingerprint reader (2) LED indicator
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Table 3-22 Specifications for the fingerprint and card reader with a keypad
Item Specifications
Dimensions (L x W x H) 156 mm x 53 mm x 38 mm
Rated operating voltage 12 V DC ±15%
Rated operating current 300 mA ±15%
Card type supported IC card
Authorized storage A maximum of 3000 authorized users, with a maximum
of 6000 fingerprints
Communications mode RS485 and Wiegand communications ports
Table 3-23 Access control device operating status
Item Old Version New Version
Standby LED indicator The indicator is The indicator is
steady blue. steady blue.
Fingerprint reader The indicator is The indicator is off.
steady green.
Unauthorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, blue, red, blue, red, blue, red,
collection and blue in order. and blue in order.
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
three. three.
Authorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, and blue blue, red, and blue
collection in order. in order.
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
Card swiping LED indicator The indicator blinks The indicator blinks
blue, red, and blue blue, red, and blue
in order. in order.
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
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3.2.3.1.3 Fingerprint and Card Reader
Figure 3-9 Fingerprint and card reader
(1) Fingerprint reader (2) LED indicator
Table 3-24 Fingerprint and card reader
Item Specifications
Dimensions (L x Wx H) 156 mm x 53 mm x 38 mm
Rated operating voltage 12 V DC ±5%
Rated operating current 300 mA ±5%
Card type supported IC card
Authorized storage A maximum of 3000 authorized users, with a maximum
of 6000 fingerprints
Communications mode RS485 and Wiegand communications ports
Table 3-25 Access control device operating status
Item Old Version New Version
Standby LED indicator The indicator is The indicator is
steady blue. steady blue.
Fingerprint reader The indicator is The indicator is off.
steady green.
Unauthorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, blue, red, blue, red, blue, red,
collection and blue in order. and blue in order.
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Item Old Version New Version
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
three. three.
Authorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, and blue blue, red, and blue
collection in order. in order.
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
Card swiping LED indicator The indicator blinks The indicator blinks
blue, red, and blue blue, red, and blue
in order. in order.
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
3.2.3.1.4 Card Reader with a Keypad
Figure 3-10 Card reader with a keypad
Table 3-26 Specifications of a card reader with a keypad
Item Specifications
Dimensions (L x W x H) 114 mm x 63 mm x 25 mm
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Item Specifications
Operating voltage Operating voltage range: 10.8–13.2 V DC; rated voltage:
12 V DC
Operating current Static standby current80 mA, dynamic operating current
(card swiping, key pressing) 150mA, minimum input
current 12 V DC/300 mA
Communications mode Wiegand communications port
3.2.3.1.5 Magnetic Lock
Figure 3-11 Double door magnetic lock
Figure 3-12 Single door magnetic lock
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Figure 3-13 Magnetic lock for a sliding door
3.2.3.2 Cabinet Access Control System
The cabinet access control system applies to cabinets in the aisle containment to ensure data
and device security.
Electronic cabinet lock
Features:
An IC card can be used after being authorized using software.
An IC card can be authorized for one lock or all locks.
Door opening information is recorded through a network.
The system displays the status of cabinet doors and locks in real time, the system
displays the status of cabinet doors and locks in real time and reports the unauthorized
door opening.
The system supports remote unlocking.
Figure 3-14 Electronic cabinet lock
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Table 3-27 Cabinet electronic lock specifications
Item Specifications
Rated input voltage 12 V DC
Rated current 200–300 mA
Unlock mode Unlocking with a powered card
Card type supported IC card
Mechanically unlock Supported
Mechanical Code Lock
Features:
The cabinet door can be opened with only the key and without the password.
The cabinet door can be opened with only the password and without the key.
The user can set a password.
A password should contain at least three digits.
The password can be reset if the user forgot it.
Figure 3-15 Mechanical code lock
3.2.4 AC Actuator
The AC actuator is used in a smart module to control the lighting inside the smart module by
receiving commands from the access control system or host, infrared linkage information
(disabled by default), or signals from the light button. It also provides a charging port for the
pad.
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Figure 3-16 AC actuator
(1) AC OUT2 port (2) AC OUT1 port (3) AC IN port (4) Status indicator
(5) BLINK button (6) AI/DI dry (7) COM1–2 RS485
contact port
Specifications
Table 3-28 AC actuator technical specifications
Item Specifications
Power input One AC input, 100–240 V AC.
Power output AC OUT1: two AC outputs, 100–240 V AC, maximum total
current: 5 A. The built-in relay can connect or disconnect the
circuit.
AC OUT2: one AC output, 100–240 V AC, maximum
current: 5 A. Supplies power continuously.
Wireless One wireless communication port, complying with
communication IEEE802.15.4.
RS485 port One route of dual RS485 ports, not isolated (reserved).
AI/DI detection Two AI/DI dry contacts, connecting to two light buttons.
BLINK button Press the button for less than 1 second to start blinking.
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Item Specifications
Hold down the button for 1–5 seconds to search for a network
and start networking.
Hold down the button for more than 10 seconds to clear
network parameters.
Indicators
Table 3-29 AC actuator indicators
Indicator Color Name Status Description
Power Green Power status Steady on The power input is normal.
indicator
Off There is no power input.
RUN Green Running Off The power is abnormal or the
status board program is loading.
indicator
Blinking at The AC actuator successfully
long intervals registers with the ECC800 and
the software runs properly (the
indicator blinks at 0.5 Hz, on
for 1s and then off for 1s).
Blinking at The communication is
short intervals disconnected or the AC
actuator fails to register with
the ECC800 (the indicator
blinks at 4 Hz, on for 0.125s
and then off for 0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s. The
cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is generated.
RF_Z Green Communicati Steady on No network parameters exist,
on status or a network is to be created.
indicator
Blinking at A network is set up, and no
long intervals node access is allowed (the
indicator blinks at 0.5 Hz, on
for 1sand then off for 1s).
Blinking at A network is set up, and node
super short access is allowed (the indicator
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Indicator Color Name Status Description
intervals blinks at 10 Hz, on for 0.05s
and then off for 0.05s).
Blinking The AC actuator is searching
intermittently for a network (the indicator
at super short blinks at super short intervals
intervals for 0.5sand then turns off for
0.5s).
3.2.5 Skylight Actuator
The skylight actuator controls the rotating skylight on the aisle containment of the smart
module through the alarm linkage information from the fire extinguishing system or the
control information from the upper computer. The skylight actuator supports E-labels and
wireless networking (802.15.4).
Figure 3-17 Skylight actuator
(1) LOCK/GND (2) BUTTON/GND (3) AI/DI_1 sensor (4) AI/DI_2 sensor
magnetic lock DO window open button input port input port
output port DI input port
(5) BLINK button (6) Status indicator (7) Address DIP (8) COM1 port
switch
(9) COM2 port (10) POE port (11) 48 V power port
Specifications
Table 3-30 Skylight actuator technical specifications
Item Specifications
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Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE input: One POE port that complies with IEEE802.3 at.
POE port FE communication with the rate of 10/100M
Wireless One wireless port that complies with IEEE802.15.4, mutual backup
communication with FE communication
AI/DI port Two AI/DI ports for detecting fire extinguishing linkage signals;
smoke detection signals also supported
DO output One 12 V DC power output for controlling the skylight magnetic lock;
driving six skylight magnetic locks simultaneously
DI input One DI input port for connecting to the window open button
BLINK button Hold down the button for less than 1 second to start blinking.
Hold down the button for 1–5 seconds to search for a network and
start networking.
Hold down the button for more than 10 seconds to clear network
parameters.
Address DIP 4-pin address DIP switch
switch
E-label Supported
Indicators
Table 3-31 Skylight actuator indicator description
Indicator Color Name Status Description
Power Green Power input Steady on The power input is normal.
status indicator
Off There is no power input.
RUN Green Operating Off The power is abnormal or the
status indicator board program is loading.
Blinking at The skylight actuator
long intervals successfully registers with the
ECC800 and the software runs
properly (the indicator blinks at
0.5 Hz, on for 1s and then off for
1s).
Blinking at The communication fails or the
short intervals skylight actuator fails to register
with the ECC800 (the indicator
blinks at 4 Hz, on for 0.125s and
then off for 0.125s).
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Indicator Color Name Status Description
Blinking The indicator blinks at super
short intervals for 0.5s (blinking
at 10 Hz, on for 0.05s and then
off for 0.05s) and then turns off
for 0.5s. The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is generated.
RF_Z Green Communicatio Steady on No network parameters exist, or
n status a network is to be created.
indicator
Blinking at A network is set up, and no node
long intervals access is allowed (the indicator
blinks at 0.5 Hz, on for 1sand
then off for 1s).
Blinking at A network is set up, and node
super short access is allowed (the indicator
intervals blinks at 10 Hz, on for 0.05s and
then off for 0.05s).
Blinking The skylight actuator is
intermittently searching for a network (the
at super short indicator blinks at super short
intervals intervals for 0.5s and then turns
off for 0.5s).
Communications Ports
The skylight actuator provides one DO port (LOCK/GND) and one DI port (BUTTON/GND).
Table 3-32 lists the LOCK/GND/BUTTON/GND port pin definitions.
Table 3-32 LOCK/GND/BUTTON/GND port pin definitions
Item Description
LOCK/GND LOCK 12V_OUT
pin sequence
GND GND
BUTTON/GN BUTTON DI3
D pin
sequence GND GND
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3.2.6 Multi-Functional Sensor
A multi-functional sensor integrates the temperature and humidity (T/H) sensor, smoke sensor
and infrared detection. The multi-functional sensor can connect to the ECC800 over FE or
wireless communication.
The infrared detection function is enabled only when the intelligent lighting function is enabled.
Figure 3-18 Multi-functional sensor
(1) Address DIP switch (2) BLINK button (3) TEST button
(4) RF_Z indicator (5) RUN indicator (6) ALM indicator
Specifications
Table 3-33 Multi-functional sensor technical specifications
Item Specifications
Temperature –40°C to 80°C. Precision ≤ ±0.5 °C (0-50 °
C).
monitoring
Humidity 0 to 100%RH. Precision ≤ ±5% RH (25 °C, 20%–80% RH).
monitoring
Smoke Complies with Ul217. The smoke sensor generates an alarm when
monitoring testing 3.2% weak dust for each foot.
POE port One POE port that complies with IEEE802.3 at.
RS485 port Reserves one RS485 port.
DI input One DI input port, 12 V DC power input.
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Item Specifications
BLINK button Wireless communication:
Press the button for less than 1 second to start blinking.
Hold down the button for 1–5 seconds to search for a network and
start networking.
Hold down the button for more than 10s to clear network
parameters.
Smoke sensor Supported
test button
E-label Supported
Indicators
Table 3-34 Description of the indicators on the multi-functional sensor
Indicator Color Name Status Description
RUN Green Module Blinking at The multi-functional sensor
running status long successfully registers with
indicator intervals the ECC800 and the software
runs properly (the indicator
blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The multi-functional sensor
short fails to register with the
intervals ECC800 or the
communication fails (the
indicator blinks at 4 Hz, on
for 0.125s and then off for
0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm or
indicator smoke alarm is generated.
Off No system alarm is
generated.
RF_Z Green Communicati Steady on No network parameters exist,
on status or a network is to be created.
indicator
Blinking at A network is set up, and no
long node access is allowed (the
indicator blinks at 0.5 Hz, on
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Indicator Color Name Status Description
intervals for 1s and then off for 1s).
Blinking at A network is set up, and
super short node access is allowed (the
intervals indicator blinks at 10 Hz, on
for 0.05s and then off for
0.05s).
Blinking The multi-functional sensor
intermittentl is searching for a network
y at super (the indicator blinks at super
short short intervals for 0.5s and
intervals then turns off for 0.5s).
3.2.7 Smoke Detector
Smoke detectors are used to detect the smoke concentration.
Figure 3-19 Smoke detector
Table 3-35 Technical specifications of a smoke detector
Item Specifications
Operating voltage DC12V (9–16 V DC)
Quiescent current < 8 mA
Alarm current < 35 mA
Output mode Relay output
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Item Specifications
Output contact capacity 3 A/120 V AC or 3 A/24 V AC
Operating temperature –10º to +50º
C C
Ambient humidity < 95% RH (non-condensing)
Dimensions Diameter: 112 mm, height: 41 mm
3.2.8 Temperature Sensor
The temperature sensor (the BOM code: 3301034) is used for the surface temperature
measure, industrial process control, measurement instrument, etc.
Figure 3-20 Temperature sensor
Table 3-36 Temperature sensor specifications
Item Specifications
Measurement range –20º to +70º
C C
Measurement precision 1º C)
± C (25°
Operating temperature –10º to +55º
C C
Operating voltage 10–16 V DC
Storage temperature –40º to +70º
C C
3.2.9 Alarm Beacon
When a fire occurs or smokes are generated in the micro-modular equipment room, the alarm
beacon generates an audible signal and flashes to inform operators of fire and security risks.
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Figure 3-21 Alarm beacon
Table 3-37 Structural specifications of an alarm beacon
Item Specifications
Dimensions (L x W x H) 130 mm x 75 mm x 55 mm
Installation requirements Installed on a wall
Environmental RoHS, Reach
requirements
Table 3-38 Technical specifications of an alarm beacon
Item Specifications
Power input RJ45 port, input voltage 9–16 V DC, operating current ≤ 400
mA
Sound pressure ≥ 100 ±3 dB/30 cm
Continuous operating ≥ 45 min
time
3.2.10 (Optional) Smart U Space Manager
The smart U space manager is designed for IT asset management of the data center. The
system automatically detects the physical location of IT devices in the data center, collects IT
asset codes and the information about U space usage.
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Figure 3-22 Smart U space manager
(1) Asset detection strip (2) U space electronic label (3) Main control box
Table 3-39 Technical specifications of the smart U space manager
Item Specifications
Characteristic Applicable to 42 U cabinets
Communications port RS485, Modbus-RTU
Communication Rate: 9600 bps
Communication format: one start bit, eight data bits, no
parity bit, one stop bit
Power input 5%
12 V DC± (RJ45)
Rated current and power 250 mA
consumption
Data upload port One RS485 route (two RJ45 ports)
Dimensions (mm) Main control box: 71 mm x 70 mm x 25 mm
Detection strip: 1867 mm x 18 mm x 6.5 mm (H x W x
D)
Weight ≤ 0.2 kg (main control box), ≤ 0.35 kg (asset detection
strip)
Installation mode Magnet-based installation
3.2.11 eLight Actuator
The eLight actuator has the function of associating alarms, access authorization status, and
atmospheres.
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Table 3-40 eLight functions
Light of the eLight Cause
eLight Strip Strip Light
Light Lighting
Specificati
ons
Red light Steady on The smart module raises a critical alarm.
Blinking for Access authorization fails and the aisle door cannot be
3 seconds opened.
Blinking The eLight fails to communicate with the ECC800.
Orange light Steady on The smart module raises a major alarm.
Yellow light Steady on The smart module raises a minor alarm.
Grey light Steady on The smart module raises a warning.
Green light Blinking for Access authorization succeeds and the door can be
3 seconds opened.
Blue light Steady on Associated alarm severity is set to None.
Other color Steady on or The device is abnormal or cables are incorrectly
light blinking connected to terminals R, G, and B.
Figure 3-23 eLight actuator
Table 3-41 eLight actuator technical specifications
Item Specifications
Dimensions (L x W x H) 112 mm x 76 mm x 35 mm
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Item Specifications
Power input DC input: terminal, with the input voltage of 24 V DC
Power output AC output: terminal, with the output voltage of 120 V AC
RS485 port (RJ45) Two RS485 ports, support cascading
Installation requirement Install on a guide rail
Operating temperature C
4–40 °
Ambient humidity 5%–95% RH (non-condensing)
3.2.12 Water Sensor
A water sensor detects water on the floor in real time and generates an alarm when water is
detected.
3.2.12.1 WLDS600 Water Sensor
The WLDS600 water sensor with the BOM number of 33010556 consists of a water detection
cable, a water detector, an extension line, and a conversion cable.
Figure 3-24 WLDS600 water sensor
(1) Tie line (2) Water leakage location cable (3) End cap
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(4) Extension line (5) Water leakage locator
Table 3-42 WLDS600 water sensor specifications
Item Specification
Dimensions (H 70 mm x 58 mm x 86 mm ±1
x W x D)
Power supply 9–16V DC or 9–16V AC
Impulse current ≤ 450 mA
Power <2W
dissipation
Power, RJ45 female connector 1 piece
communication
connector
Protocol type Modbus-RTU, data bits 8bits, no parity
Baud rate, Default support 9600, baud rate setable, address setable, default address
address is 1, stop bit is 1bit.
Detected distant 100m (support cable connection in series)
Accuracy 0.5
± m (the cable length 0-10 m)
1%
1 m± (the cable length 10-100 m)
Alarm Light When the power supply is working properly, the green indicator is on.
state When a fault occurs, the yellow indicator is on. When water leakage
occurs, the red indicator is on.
Display 4-bits Nixie tube shows leaking position.
Adjustable 3 grade of sensitivity
Sensitivity
Installation DIN track install supported.
3.2.12.2 WLDS900 Water Sensor
The WLDS900 water sensor with the BOM number of 33010352 consists of a water detection
cable, a water detector, and a conversion cable.
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Figure 3-25 WLDS900 water sensor
(1) Water detector (2) Conversion cable end A, connected (3) Conversion cable
to the water detector
(4) Conversion cable (5) Water detection cable end A, (6) Water detection
end B, connected to connected to the conversion cable cable
the water detection
cable
Table 3-43 WLDS900 water sensor specifications
Item Specification
Operating 12 V DC (9–16 V DC)
voltage
Operating –20° to +70°
C C
temperature
Storage –40° to +85°
C C
temperature
Humidity 10%–80% RH (non-condensing)
3.2.12.3 Electrode Water Sensor
The electrode water sensor with the BOM number of 33010444 contains electrode probes and
cables.
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Figure 3-26 Electrode water sensor
Table 3-44 Electrode water sensor technical specifications
Item Specification
Operating –40° to +80°
C C
temperature
Storage –40° to +80°
C C
temperature
Service life 10 years
3.2.13 WiFi Module
The WiFi module provides WiFi signals for equipment such as pads and mobile phones to
interact with the host computer.
Figure 3-27 WiFi module
Table 3-45 Technical specifications
Item Specifications
Wireless standard IEEE 802.11n, IEEE 802.11g, and IEEE 802.11b
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Item Specifications
Network 11n: up to 150 Mbps
bandwidth 11g: up to 54 Mbps
11b: up to 11 Mbps
Frequency band 2.4-2.4835 GHz
Wireless 20 dBm (MAX EIRP)
transmission
power
Supported Windows 2000/XP/Vista/Linux/Win 7
operating system
Ports USB 2.0 high-speed connector
Voltage range 5.0 V DC±5%
Operating C C
-20° to +70°
temperature
Storage C C
-40° to +90°
temperature
Relative humidity 10%–90% RH (non-condensing)
Storage humidity 5%–90% RH (non-condensing)
Power < 0.8 W
3.2.14 ETH Converter
The ETH converter is used to convert the Modbus–RTU protocol or CAN protocol to the
Modbus-MAC protocol for connecting to the POE bus.
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Figure 3-28 ETH converter
(1) Status indicator (2) BLINK button (3) COM1 communications port
(4) COM2 communications port (5) 48 V power port (6) POE port
Specifications
Table 3-46 ETH converter technical specifications
Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE power supply: One POE port, 10/100M communication rate,
complying with IEEE802.3at
RS485 or Provides two RS485/CAN ports. The default communications rate for the
control area RS485 port is 9600 bit/s, and that for the CAN port is 125 kbit/s. Both
network ports match the RJ45 terminal shared by RS485 and CAN.
(CAN)
BLINK If you press the BLINK button, the RUN indicator blinks intermittently at
button super short intervals (blinking at super short intervals for 0.5s and then off
for 0.5s) for 10 seconds.
E-label Supported
Indicators
Table 3-47 ETH converter indicators
Indicator Color Name Status Description
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Indicator Color Name Status Description
PWR Green Power input Steady on The power input is normal.
status
indicator Off There is no power input.
RUN Green Operating Off The power supply is
status abnormal.
indicator
Blinking at The ETH converter
long intervals successfully registers with the
ECC800 and the software
runs properly (the indicator
blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The communication fails or
short the ETH converter fails to
intervals register with the ECC800 (the
indicator blinks at 4 Hz, on
for 0.125s and then off for
0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is
generated.
3.2.15 PAD
The pad allows the wireless access from the data center management system. You can monitor
the equipment in the data center and environmental parameters in real time over the APP.
Figure 3-29 shows a pad.
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Figure 3-29 PAD
Table 3-48 Pad structural specifications
Item Specifications
Dimensions (L x W x 243 mm × 164 mm × 7.8 mm
H)
Weight About 460 g
Table 3-49 PAD technical specifications
Item Specifications
Touchscreen 10.1-inch, IPS full view, IPS screen, and capacitive five-point
touch
Store Machine: 32 GB
Memory: 3 GB
LPDDR3 extension card: microSD, a maximum of 256 GB
(non-standard configuration)
Button/Port Touch button + power switch and volume button
3.5 mm stereo headphones port
Micro SD card port
MicroUSB port
Camera Rear camera: 8-megapixel, F2.0 aperture, automatic focus
Front camera: 2-megapixel, F2.4 aperture, fixed focus
Sensor type: BSI
Flash: not supported
Video recording: rear camera up to 1080 pixels at 30 FPS;
front camera up to 720 pixels at 30 FPS
Zoom mode: digital zoom
Photo resolution: rear camera up to 8 M (3264 x 2448
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Item Specifications
pixels); front camera up to 1.9 M (1600x 1200 pixels)
Battery Materials: Li-polymer
Capacity: 5100 mAh (typical value) or 4980 mAh (rated
value)
Wi-Fi connection/web page browse time: about 6.5 hours
Power adapter charge time: about 3.5 hours (5 V 2A adapter)
3.2.16 T/H Sensor
3.2.16.1 T/H sensor (BOM number: 33010346)
Figure 3-30 Appearance
The T/H sensor uses an RJ45 connector.
Figure 3-31 Pins of an RJ45 connector
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Table 3-50 Pin description of an RJ45 connector
Pin Description
Pin 1 A
Pin 2 B
Pin 3 V+
Pin 4/5/6/7 Reserved
Pin8 V-
Table 3-51 T/H sensor specifications
Item Specifications
Temperature measuring range C C
-20° to 70°
Temperature accuracy ≤ ±0.3°C (25°C)
Humidity measuring range 0%–100% RH
Humidity accuracy ≤ ±5% RH (25°C, 30%–80% RH)
Operating temperature C C
-20° to 70°
Operating voltage 9–16 V DC
Storage temperature C C
-40° to 80° (non-condensing)
Output RS485
3.2.16.2 T/H Sensor (BOM number: 02310NBS)
Figure 3-32 Appearance
(1) Status indicator (2) RS485_IN
(3) RS485_OUT (4) Address DIP switch
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The RS485 communications ports of the T/H sensor use RJ11 (6P6C) connectors.
Figure 3-33 Pins of an RJ11 connector
Table 3-52 Pin description of an RJ11 connector
Pin Description
Pin 1 or Pin 2 GND
Pin 3 RS485-
Pin 4 RS485+
Pin 5 or Pin 6 12V
Table 3-53 Temperature and humidity sensor specifications
Item Specifications
Temperature measuring range –20° to +70°
C C
Temperature accuracy 1°
± C
Operating temperature –10° to +55°
C C
Operating voltage 9–16 V DC
Storage temperature –40° to +70°
C C
Output RS485
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3.2.16.3 T/H Sensor (BOM Number: 02311FQG)
Figure 3-34 Appearance
(1) RS485-OUT (2) RS485-IN (3) DIP switch (4) Button
(5) NTC1-3 (6) NTC4-6 (7) Display
Table 3-54 Temperature and humidity sensor specifications
Item Temperature Humidity
Measurement range – 40° to +70°
C C 1%–99% RH
Precision ≤ ±1°C (25°C) ≤ ±5% RH (25°C, 20%–80% RH)
Extended temperature Provides two RJ45 ports to connect six NTC temperature
collection port sensors, each RJ45 port connecting to three NTC
temperature sensors.
Signal port RS485
Power supply 5 –16 V DC (typical value 12 V DC)
Power consumption < 180 mW
Storage environment – 40° to +70°
C C
Weight About 85 g
3.2.17 Intelligent Battery Monitoring System
The intelligent battery monitoring system consists of the iBOX (CIM) and iBAT (BIM).
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The iBOX is an intelligent battery management module that collects wireless communication
data from the downstream iBAT groups, collects and analyzes the operating data of battery
strings, calculates state of charge (SOC) and state of health (SOH) of batteries and battery
strings and estimates the battery health status accordingly, supports battery tripping
management, and uploads data to the management unit through COM or POE ports.
The iBAT is a battery monitoring module that monitors the voltages, internal resistances, and
pole temperatures of batteries.
In the scenario with battery cabinets, the iBOX is installed inside a smart module battery
cabinet and the iBOX communications cable connects to a smart ETH gateway.
(Optional) When a battery system needs to be managed by multiple iBOXs, the iBOXs can be
connected to northbound devices using straight-through cables (the ECC800 supports four
iBOXs in parallel through the smart ETH gateway) without cascading.
Figure 3-35 Connecting the iBOX signal cable
3.2.17.1 iBOX
iBOX is a battery information collection module. It collects battery status data from the
downstream iBAT groups through wireless communication, and sends the data to the ECC,
UPS, and the third-party network management system (NMS) through COM or POE ports.
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Appearance
Figure 3-36 iBOX front view
(1) –48 V 0.5 A port (2) POE port (3) COM_IN port (RS485
(power input) communication input)
(4) COM_OUT port (5) DI and DO ports (6) HALL_1–HALL_8
(RS485 communication current monitoring ports
output)
(7) RF_Z antenna port (8) BCB_1–BCB_4 ports (9) BCB_OUT and BCB_IN
(BCB_2–BCB_4 reserved) ports
(10) Networking switch (11) PWR indicator (12) RUN indicator
(13) ALM indicator (14) RF_Z indicator (15) Delivered antenna
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Figure 3-37 iBOX bottom view
(1) Fastener (2) Micro SD card slot
(3) Default button (IP (4) ADDR dual in-line package (DIP) switch (RS485
reset) communications address)
(5) 12 V 2 A port (power
input)
Power Port
Figure 3-38 Power port pins
Table 3-55 12 V, 2 A port pin definitions
Pin Definition Description
1 – In this scenario, an external
power module is adopted to
2 + supply 12 V DC operating
voltage.
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Table 3-56 –48 V, 0.5 A port pin definitions
Pin Definition Description
1 + The system provides 48 V
DC operating voltage in this
2 – scenario.
POE Port
Figure 3-39 POE port pins
Table 3-57 POE port pin definitions
Pin Definition Description
1 TX+ Supports power supply
through the POE port. The
2 TX– terminal is an RJ45 terminal
with an indicator.
3 RX+
4, 5 P45_P1
6 RX–
7, 8 P78_P1
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COM Port
Figure 3-40 COM port pins
Table 3-58 COM port pin definitions
Pin Signal Description
1 RS485+ Two cascaded RS485
communication ports
2 RS485–
3 NC
4 RS485+
5 RS485–
6 GND
7 NC
8 NC
DI and DO Ports
Table 3-59 DI and DO port pin definitions
Pin Definition Signal Status Initial Remarks
Description Description Status
1 + Dry contact Open: The Open Dry contact
input signal dry input and
2 – contact output signal
input is
open.
Closed:
The dry
contact
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Pin Definition Signal Status Initial Remarks
Description Description Status
input is
closed.
3 NO Dry contract Open: The Open
output signal dry
4 COM contact
output is
open.
Closed:
The dry
contact
output is
closed.
HALL Current Monitoring Port
Figure 3-41 HALL current monitoring port pins
Table 3-60 HALL current monitoring port pin definitions
Pin Definition Description
1 +12 V Detect the charge and discharge currents of four battery strings
or eight battery routes.
2 –12 V
3 AI
4 GND
If the battery string is configured with the neutral wire, measure the currents of the positive and
negative battery string cables. If the battery string is not configured with the neutral wire, measure
the current of either the positive or negative battery string cable. The following uses the scenario
where the battery string is configured with the neutral wire as an example.
When an iBOX manages multiple battery strings, first connect the Hall effect sensors on the positive
and negative cables of battery string 1 respectively to the corresponding ports on the iBOX. Then
connect the Hall effect sensors on battery string 2 to the iBOX in the same way, and so on.
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If the positive or negative battery string cable is too thick to be routed through the Hall effect sensor,
or the measurement range of the Hall effect sensor is not enough, use multiple Hall effect sensors to
monitor the current of one battery string. The iBOX supports the sum of the monitoring results of
multiple Hall effect sensors, which is set through Multi-Hall cur. setting.
The value of Multi-Hall cur. setting equals the number of positive or negative Hall effect sensors in
a single battery string and should be greater than or equal to 1.
BCB Port
Figure 3-42 BCB port pins
Table 3-61 BCB_1–BCB_4 port pin definitions
Pin Definition Signal Status Initial Remarks
Description Description Status
1 OL Monitors Grounded: Disconnected The four BCBs can
whether the BCB separately manage
BCB box is connected. tripping of four battery
connected Disconnected: routes.
BCB not
connected.
2 STA Monitors the Grounded: Disconnected
battery circuit The battery
breaker circuit breaker
is ON.
Disconnected:
The battery
circuit breaker
is OFF.
3 DRV Controls battery 0 V: There is 0V
circuit breaker no driving
trip and outputs signal for
12 V driving BCB tripping.
signals 12 V: There is
4 GND Secondary side a driving
ground signal for
BCB tripping.
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Table 3-62 BCB_IN and BCB_OUT cascading port pin definitions
Pin Definition BCB_IN BCB_OUT Status Description Initial Description
Signal Signal Status
Description Description
1 OL Specifies Specifies Grounded: BCB Disconnected Receives
whether the whether the connected. BCB
BCB connects cascaded Disconnected: commands
to the signal BCBs connect BCB not sent by the
output port. to the signal connected. UPS and
input port. supports
BCB port
2 STA Signal output Monitors Grounded: The Disconnected cascading
port for the whether the battery circuit management.
battery circuit cascaded breaker is ON.
breaker status BCBs are Disconnected:
connected to The battery
the input. circuit breaker is
OFF.
3 DRV Controls battery circuit breaker 0 V: There is no 0V
trip and receives 12 V driving driving signal for
signals BCB tripping.
12 V: There is a
4 GND Secondary side ground
driving signal for
BCB tripping.
DIP Switch
Table 3-63 DIP switch description
No. Definition Description
1 ADDR_1 RS485 communications
address setting
2 ADDR_2
3 ADDR_3
4 ADDR_4
Indicators
Table 3-64 Indicator description
Indicator Color Meaning Status Description Measure
RF_Z Green Wireless Steady on No network Requires no
communica parameters exist. handling.
(A network is to be
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Indicator Color Meaning Status Description Measure
tion status created.)
Blinking at A network is being
super short created (new nodes
intervals allowed).
Blinking at Data is being
long transmitted (new
intervals nodes not
allowed).
RUN Green Northbound Blinking at The Requires no
communica long communication is handling.
tion status intervals normal.
Blinking Blinking, lasting Requires no
intermittent for 10s. handling.
ly at super
short
intervals
Blinking at Communication 1. Check
short fails. (No whether the
intervals legitimate communicati
northbound data on cable is
has been received loose.
for 3 minutes.) If yes,
reconnect
the
communi
cation
cable.
If no, go
to the
next step.
2. Check
whether the
device is
malfunctioni
ng.
If yes,
replace
the
device.
If no,
contact
Huawei
technical
support.
ALM Red Alarm Steady on The actual number Check the value
indicator of online devices is of iBAT
less than the value number, the
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Indicator Color Meaning Status Description Measure
of iBAT number. iBAT cable
connection, and
the iBAT
indicators.
Off The actual number Requires no
of online devices handling.
equals the value of
iBAT number.
PWR Green Power Steady on Board power Requires no
indicator indicator. handling.
If an indicator blinks at long intervals, it is blinking at 0.5 Hz, that is, on for 1s and then off for 1s.
If an indicator blinks at short intervals, it is blinking at 4 Hz, that is, on for 0.125s and then off for
0.125s.
If an indicator blinks at super short intervals, it is blinking at 10 Hz, that is, on for 0.05s and then off
for 0.05s.
Blinking intermittently at super short intervals means an indicator blinks at super short intervals for
0.5s and then remains off for 0.5s.
Networking Switch
Table 3-65 Networking switch description
Name Definition Function
Button pressing Press the button for less iBOX blinking function
than 1s.
Button pressing Press and hold the button Creates a network if no network has
for more than 1s but less been created. Switches between network
than 5s. organization and data transmission if a
network has been created.
Button holding Press and hold the button Clears the current network (including
down for more than 10s but less the network parameters of all the online
than 20s. iBATs).
Default Button
Table 3-66 Default button description
Name Definition Function
Default button Hold down the button Reset to the default IP address
for more than 10 (192.168.0.10)
seconds.
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3.2.17.2 iBAT
The iBAT is a battery monitoring module that monitors the voltages, internal resistances, and
pole temperatures of batteries and supports 12 V power.
Features
Monitors the voltages, internal resistances, and pole temperatures of 12 V batteries.
Supports the hibernation function. (When it detects that the battery voltage is low, it will
enter the low-power mode.)
Communicates with the iBOX wirelessly.
iBAT Appearance
Figure 3-43 iBAT2.0
Figure 3-44 iBAT3.0
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Indicators
Table 3-67 Indicator description
Indicator Color Silk Status Description
Screen
Running Green RUN Off Power consumption is low or the
iBAT is not powered on.
Blinking at The networking has started but not
super short completed.
intervals
Blinking at The networking succeeds.
long intervals
Alarm Red ALM Off The iBAT is not faulty.
Steady on The iBAT is faulty.
Communication with the iBOX
times out.
No network is connected. (The
iBAT is waiting to connect to a
network.)
Blinking at Network parameters are being
super short cleared.
intervals The iBAT is blinking.
(iBattery 2.0)
Blinking at
short intervals
(iBattery 3.0)
If an indicator blinks at long intervals, it is blinking on for 1s and then off for 1s.
If an indicator blinks at super short intervals, it is blinking at 10 Hz, that is, on for 0.05s and then off
for 0.05s.
If an indicator blinks at super short intervals, it is blinking at 4 Hz, that is, on for 0.125s and then off
for 0.125s.
Networking Switch
Table 3-68 Networking switch description
Name Definition Function
Button pressing Press the button for less Searches for and joins a network if there is no
than 5 seconds. network. Initializes the network parameters if
there is a network.
Button holding Hold down the button Clears the current network and resets the
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Name Definition Function
down for more than 5 wireless module; disconnects the network.
seconds.
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4 UI Description
4.1 WebUI
For data transmission security, the ECC800 supports WebUI access through TLS.
Figure 4-1 Home page
WebUI Introduction
Table 4-1 WebUI introduction
Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
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Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Home Plan NA View and Yes NA
View manage the
layout view of
devices.
View the system
PUE (including
the instantaneous
mPUE value and
average PUE
value) in a
dashboard and
the system trend
curve.
Active NA View active alarms. No NA
Alarms
Multi-M NA View the status of Yes NA
odule each cascaded
Monitori ECC800.
ngb
Monitori System Connected Monitor the device Yes For example, in the path of
ng devices, such as running information Monitoring > ECC800 >
ECC800, ETH in real time, set Running Parameters:
Converter device running AI/DI_1 sensor-AI/DI_6
Group, and parameters, and sensor is Disable by default.
Smart ETH control the device
IP device num is 100 by
Gateway Group. running. For
example, set smart default.
cooling product Online detection timeout
parameters, delete interval is 30 by default.
devices failing in
Power Connected communication, and Yes NA
Distributi devices, such as set AI/DI device
on Integrated PDU, parameters.
PDU8000, and
Power
Distribution
Unit
Aisle Connected Yes NA
devices, such as
Multi-Functiona
l Sensor Group,
Access Actuator
Group, and
Skylight
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Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Actuator Group
Cooling Connected Yes –
smart cooling
products.
Cabinet IT cabinet Yes NA
Query Historica NA Query historical No NA
l Alarms alarms.
Performa NA Query device No NA
nce Data performance data.
Operatio NA Query operation No NA
n Log logs.
Access NA Query access control No NA
Event events.
Export NA Export historical No NA
Data data and device data.
System System Site Set the system type Yes Smart module name is
Settings Paramete Configuration and site ID. FusionModule by default.
rs System type is
FusionModule2000 by default.
NOTE
If System type is General, the
ECC800 is a general collector that
collects device data and reports the
data to the northbound NMS.
Monitor IP Set the IP address No IP for WAN_1 is
for the monitoring 192.168.1.10 by default.
module. The default IP addresses of
Primary DNS server and
Secondary DNS server in the
DNS Server Address area are
192.168.1.10.
IP for WAN_2 is
192.168.0.10 by default.
Time Set the time zone, No NA
time, and date.
Access NA Set the access users No NA
Manage and permissions.
ment
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Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Video NA Add, modify, or Yes NA
Manage delete videos.
ment
NMS NetEco Set SNMP and Yes Server IP is 192.168.8.11 by
Applicati NetEco default.
on communications Port number is 31220 by
parameters. default.
Monitoring IP address for link
setup is WAN_1 by default.
SNMP Yes SNMP version is SNMPv3 by
default.
SNMP port number is 161 by
default.
Transparent Set the transparent Yes Transparent Transmission
Transmission transmission Through COM Ports is Disable
Channel function of the by default.
device and upload Enable security authentication
the network security is Enable by default.
certificate.
Device Device Addition Add devices or No NA
Manage replace the security
ment Security certificate for device No NA
Certification access.
Change
Smart NA Cascade up to three Yes NA
Module ECC800s through
Cascadin multi-module
g configuration.
PUE NA Set PUE parameters. Yes PUE Function is Enable by
Configur default.
ation PUE configuration mode is
Standard by default.
Linkage NA Set PLC linkage Yes NA
Control rules.
Alarm Basic Alarm Set basic alarm Yes NA
Paramete Parameters parameters and
rs alarm association
Alarm Linkage parameters. Yes NA
Performa Performance Query and set device Yes NA
nce Parameters performance
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Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Paramete parameters.
rs
All Configured View all the preset Yes NA
Data performance
parameters
Event Email Settings Set alarm Yes NA
Notificati notification mode to
on SMS Settings be over email and Yes NA
SMS.
Alarm Yes NA
Notification
Signal NA Modify signal Yes NA
Name names.
Modify
Maintena Software Software Upgrade the Yes NA
nce Upgrade Upgrade software of the
ECC800 and its
southbound devices
online.
Version If the version is not No NA
Mapping matched, you need
to perform matching
upgrade.
Version NA Query the version No NA
Informati information about
on hardware and
software.
E-Label NA Query or export No NA
E-labels.
User NA Manage users, such No NA
Manage as adding,
ment modifying, and
deleting users.
Configur NA Import and export No NA
ation File configuration files to
configure devices
quickly, and restore
factory defaults.
Fault NA Export fault No NA
Informati information.
on
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ECC800 Data Center Controller
User Manual 4 UI Description
Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
APP NA Download the app No NA
Obtainin installation package
g by scanning the QR
code.
Paramete NA Synchronize No NA
r Sync device
parameters to
quickly import
data of
southbound
devices (such as
the
multi-functional
sensor and
skylight
actuator).
Support device
replacement.
Access NA Manage the access No NA
Package package.
Mgmt
Configur NA Support the No NA
ation deployment wizard
Wizard and set simple
parameters as
instructed by the
wizard.
a: The factory settings can be restored only on the WebUI.
b: Multi-Module Monitoring is displayed on the Home page only after you set Smart Module Cascading.
Issue 07 (2020-01-20) Copyright © Huawei Technologies Co., Ltd. 80
V100R002C10
User Manual
Issue 07
Date 2020-01-20
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2020. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior
written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective
holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and
the customer. All or part of the products, services and features described in this document may not be
within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements,
information, and recommendations in this document are provided "AS IS" without warranties, guarantees or
representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the
preparation of this document to ensure accuracy of the contents, but all statements, information, and
recommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website: https://e.huawei.com
Issue 07 (2020-01-20) Copyright © Huawei Technologies Co., Ltd. i
ECC800 Data Center Controller
User Manual About This Document
About This Document
Purpose
This document describes the ECC800 data center controller in terms of features, devices, user
interfaces (UIs), and power-on commissioning, as well as frequently asked questions (FAQ)
and troubleshooting measures.
This document describes all the functions of the ECC800. Certain functions are implemented
by hardware such as the UPS and PDU, and may be unavailable if the hardware is not
connected to the ECC800.
The ECC800 functions described in the user manual are applicable to multiple FusionModule
solutions, and some functions may be applicable only to a few FusionModule solutions. For
details about the applicable ECC800 functions, see the FusionModule solution
documentation.
The figures provided in this document are for reference only.
The software version is ECC800 V100R002C10SPC400.
Intended Audience
This document is intended for:
Sales engineers
Technical support engineers
Maintenance engineers
Symbol Conventions
The symbols that may be found in this document are defined as follows.
Symbol Description
Indicates a hazard with a high level of risk which, if not
avoided, will result in death or serious injury.
Indicates a hazard with a medium level of risk which, if not
avoided, could result in death or serious injury.
Indicates a hazard with a low level of risk which, if not
Issue 07 (2020-01-20) Copyright © Huawei Technologies Co., Ltd. ii
ECC800 Data Center Controller
User Manual About This Document
Symbol Description
avoided, could result in minor or moderate injury.
Indicates a potentially hazardous situation which, if not
avoided, could result in equipment damage, data loss,
performance deterioration, or unanticipated results.
NOTICE is used to address practices not related to personal
injury.
Supplements the important information in the main text.
NOTE is used to address information not related to personal
injury, equipment damage, and environment deterioration.
Change History
Changes between document issues are cumulative. The latest document issue contains all
updates made in previous issues.
Issue 07 (2020-01-20)
Added the description about how to connect the Envicool SC15.
Issue 06 (2019-12-20)
Updated the safety information.
Issue 05 (2019-09-16)
Added "Setting the Temperature Map".
Added "How to Set and Add an MA01C PDC".
Added the Card, password or fingerprint door access authorization mode.
Issue 04 (2019-08-31)
Added the description about how to set and add the AIRSYS Air Conditioner.
Issue 03 (2019-07-31)
Added the description about how to connect the HT-500 dehumidifier.
Deleted Wireless Components.
Deleted Facial Recognition.
Issue 02 (2019-06-06)
Added Facial Recognition.
Added Wireless Components.
Issue 01 (2018-07-02)
This issue is the first official release.
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ECC800 Data Center Controller
User Manual Contents
Contents
About This Document .................................................................................................................... ii
1 Safety Information ........................................................................................................................ 1
1.1 General Safety .............................................................................................................................................................. 1
1.2 Personnel Requirements ............................................................................................................................................... 4
1.3 Electrical Safety ............................................................................................................................................................ 4
1.4 Installation Environment Requirements ....................................................................................................................... 6
1.5 Mechanical Safety ........................................................................................................................................................ 7
1.6 Others............................................................................................................................................................................ 9
2 Overview....................................................................................................................................... 11
2.1 Positioning .................................................................................................................................................................. 11
2.2 Features ....................................................................................................................................................................... 11
3 Device Description ..................................................................................................................... 13
3.1 ECC800 ...................................................................................................................................................................... 13
3.2 Southbound Device Introduction ................................................................................................................................ 23
3.2.1 Rack Environment Unit ........................................................................................................................................... 23
3.2.2 Smart ETH Gateway ................................................................................................................................................ 24
3.2.3 Access Control System ............................................................................................................................................ 26
3.2.3.1 Aisle or Room Access Control System ................................................................................................................. 26
3.2.3.1.1 Access Actuator ................................................................................................................................................. 27
3.2.3.1.2 Fingerprint and Card Reader with a Keypad ..................................................................................................... 31
3.2.3.1.3 Fingerprint and Card Reader .............................................................................................................................. 33
3.2.3.1.4 Card Reader with a Keypad ............................................................................................................................... 34
3.2.3.1.5 Magnetic Lock ................................................................................................................................................... 35
3.2.3.2 Cabinet Access Control System ............................................................................................................................ 36
3.2.4 AC Actuator ............................................................................................................................................................. 37
3.2.5 Skylight Actuator ..................................................................................................................................................... 40
3.2.6 Multi-Functional Sensor .......................................................................................................................................... 43
3.2.7 Smoke Detector ....................................................................................................................................................... 45
3.2.8 Temperature Sensor ................................................................................................................................................. 46
3.2.9 Alarm Beacon .......................................................................................................................................................... 46
3.2.10 (Optional) Smart U Space Manager ....................................................................................................................... 47
3.2.11 eLight Actuator ...................................................................................................................................................... 48
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3.2.12 Water Sensor .......................................................................................................................................................... 50
3.2.12.1 WLDS600 Water Sensor ..................................................................................................................................... 50
3.2.12.2 WLDS900 Water Sensor ..................................................................................................................................... 51
3.2.12.3 Electrode Water Sensor ....................................................................................................................................... 52
3.2.13 WiFi Module .......................................................................................................................................................... 53
3.2.14 ETH Converter....................................................................................................................................................... 54
3.2.15 PAD........................................................................................................................................................................ 56
3.2.16 T/H Sensor ............................................................................................................................................................. 58
3.2.16.1 T/H sensor (BOM number: 33010346) ............................................................................................................... 58
3.2.16.2 T/H Sensor (BOM number: 02310NBS)............................................................................................................. 59
3.2.16.3 T/H Sensor (BOM Number: 02311FQG)............................................................................................................ 61
3.2.17 Intelligent Battery Monitoring System .................................................................................................................. 61
3.2.17.1 iBOX ................................................................................................................................................................... 62
3.2.17.2 iBAT.................................................................................................................................................................... 72
4 UI Description ............................................................................................................................. 75
4.1 WebUI ......................................................................................................................................................................... 75
4.2 Mobile Phone App ...................................................................................................................................................... 81
4.3 Pad App....................................................................................................................................................................... 83
5 Power-On Commissioning ........................................................................................................ 85
5.1 Preparations and WebUI Login ................................................................................................................................... 85
5.2 Commissioning Configuration Wizard ....................................................................................................................... 89
5.3 Commissioning Event Notification............................................................................................................................. 90
5.4 Commissioning the New Main Way ........................................................................................................................... 94
5.5 Commissioning the eLight .......................................................................................................................................... 96
6 Feature Description..................................................................................................................... 99
6.1 Access Management ................................................................................................................................................... 99
6.1.1 Commissioning a Door Status Sensor ...................................................................................................................... 99
6.1.1.1 Commissioning a Door Status Sensor (Connected to the AI/DI port on the independent deployment AI_DI unit)
.......................................................................................................................................................................................... 99
6.1.1.2 Commissioning a Door Status Sensor (Connected to the AI/DI Port on the Rack Environment Unit) ............... 100
6.1.2 Commissioning an Access Control Device and a Cabinet Electronic Lock ........................................................... 101
6.1.3 Commissioning the Exit Button, Skylight Button, Atmosphere Light, Emergency Button, and Magnetic Lock .. 105
6.1.4 Commissioning an Emergency Door Release Button ............................................................................................ 106
6.2 Video Management ................................................................................................................................................... 107
6.2.1 Preparing Documentation ...................................................................................................................................... 107
6.2.2 Networking Scenarios ............................................................................................................................................ 107
6.2.3 Commissioning a Camera (Smart ETH Gateway Networking Scenario) .............................................................. 108
6.2.3.1 Commissioning IPC6325 Cameras ..................................................................................................................... 108
6.2.3.2 Commissioning IPC6325 Camera (SD Card Configured) .................................................................................. 115
6.2.4 Commissioning a Camera (LAN Switch Networking Scenario) ........................................................................... 117
6.2.4.1 Commissioning IPC6325 Cameras ..................................................................................................................... 117
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6.2.4.2 Commissioning IPC6325 Camera (SD Card Configured) .................................................................................. 120
6.2.5 Setting Parameters on the VCN WebUI ................................................................................................................. 123
6.2.6 Setting Parameters on the VCN IVS Client ........................................................................................................... 125
6.3 Linkage Control ........................................................................................................................................................ 128
6.3.1 Fire Control Linkage .............................................................................................................................................. 129
6.3.2 High Temperature Linkage .................................................................................................................................... 131
6.3.3 (Optional) Commissioning an Intelligent Aisle Light ............................................................................................ 132
6.4 PUE Configuration ................................................................................................................................................... 135
6.4.1 Configuring PUE Standard Mode .......................................................................................................................... 136
6.4.2 Configuring PUE User-defined Mode ................................................................................................................... 137
6.4.3 Viewing PUE Data ................................................................................................................................................. 139
6.5 Battery Management ................................................................................................................................................. 140
6.5.1 Setting iBOX and iBAT Parameters....................................................................................................................... 140
6.5.2 Networking iBOXs and iBATs in Wireless Mode .................................................................................................. 141
6.6 Asset Management .................................................................................................................................................... 142
6.6.1 Determining the Position of the Smart U Space Manager ..................................................................................... 143
6.6.2 Querying the U Space Use Information ................................................................................................................. 143
6.7 Power Management .................................................................................................................................................. 144
6.7.1 Configuring Power Management Parameters ........................................................................................................ 144
6.7.2 Setting Fault Isolation Parameters ......................................................................................................................... 147
6.7.3 Viewing the Power Usage ...................................................................................................................................... 147
6.7.4 Viewing the Power Supply Links Diagram ............................................................................................................ 148
6.8 Cooling Capacity Management ................................................................................................................................ 150
6.8.1 (Optional) Setting Cooling Management Parameters ............................................................................................ 150
6.8.2 Viewing Cooling Capacity Usage Information ...................................................................................................... 151
6.8.3 (Optional) Setting Cooling Management Parameters ............................................................................................ 152
6.8.4 Viewing the Cooling Links Diagram ..................................................................................................................... 154
6.8.5 Setting the Temperature Map ................................................................................................................................. 156
6.9 Remote Management ................................................................................................................................................ 159
6.9.1 NetEco Management.............................................................................................................................................. 159
6.9.1.1 Connecting the Communications Cable .............................................................................................................. 159
6.9.1.2 Setting NetEco Parameters ................................................................................................................................. 159
6.9.1.3 Creating an ECC800 on the NetEco ................................................................................................................... 160
6.9.1.4 Setting the Transparent Transmission Function .................................................................................................. 161
6.9.2 Third-party NMS Management (over SNMP) ....................................................................................................... 164
6.9.2.1 Connecting the Communications Cable .............................................................................................................. 164
6.9.2.2 Setting SNMP Management Parameters ............................................................................................................. 164
7 Maintenance ............................................................................................................................... 167
7.1 Routine Maintenance ................................................................................................................................................ 167
7.2 Common Faults and Troubleshooting ....................................................................................................................... 168
7.3 Component Replacement .......................................................................................................................................... 170
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7.3.1 Replacing an ECC800 Main Control Module ........................................................................................................ 170
7.3.2 Replacing a PSU .................................................................................................................................................... 172
7.3.3 Replacing ECC800 Antennas ................................................................................................................................. 173
7.3.4 Replacing a SIM Card and Micro SD Card ........................................................................................................... 174
8 FAQ .............................................................................................................................................. 176
8.1 WebUI Operations .................................................................................................................................................... 176
8.1.1 Setting ECC800 Cascading .................................................................................................................................... 176
8.1.2 (Optional) Setting Device Performance Parameters .............................................................................................. 177
8.1.3 How Can I View Version Information? .................................................................................................................. 178
8.1.4 How Do I Set the Date and Time? ......................................................................................................................... 178
8.1.5 How to Check the System Type and Set the Smart Module Name ........................................................................ 179
8.1.6 How to Manage WebUI Users? ............................................................................................................................. 180
8.1.7 How Do I Create a Smart Module Plan View? ...................................................................................................... 182
8.1.8 How Do I Set and Add Devices? ........................................................................................................................... 185
8.1.8.1 How to Set and Add an Integrated UPS Parameters? ......................................................................................... 185
8.1.8.2 How to Set and Add a UPS2000-G? ................................................................................................................... 185
8.1.8.3 How to Set and Add a UPS5000-E? ................................................................................................................... 187
8.1.8.4 How to Set and Add a PDU8000 or integrated PDF (over Modbus-TCP)? ........................................................ 189
8.1.8.5 How to Set and Add a PDU8000 (over Modbus RTU)? ..................................................................................... 189
8.1.8.6 How to Set and Add a PDU2000?....................................................................................................................... 191
8.1.8.7 How to Set and Add an ATS? .............................................................................................................................. 193
8.1.8.8 How to Set and Add a PMAC615 AC Meter? .................................................................................................... 194
8.1.8.9 How to Set and Add a PMAC625 AC Meter? .................................................................................................... 196
8.1.8.10 How to Set and Add a PDC DC Meter? ............................................................................................................ 198
8.1.8.11 How to Set and Add an AC PDC MA01C? ....................................................................................................... 199
8.1.8.12 How to Set and Add a NetCol5000-A042 Parameters? .................................................................................... 200
8.1.8.13 How to Set and Add a NetCol5000-C030 Parameters (over Modbus TCP)? .................................................... 201
8.1.8.14 How to Set and Add a NetCol5000-C030 (over Modbus RTU)? ...................................................................... 202
8.1.8.15 How to Set and Add a NetCol5000-A025 Parameters (over MAC-Modbus)? ................................................. 203
8.1.8.16 How to Set and Add a NetCol5000-A025 Parameters (over Modbus-TCP)? ................................................... 204
8.1.8.17 How to Set and Add a NetCol5000-A010 Parameters (over MAC-Modbus)? ................................................. 205
8.1.8.18 How Do I Set NetCol5000CF_110HALF Parameters (Modbus-TCP)? ........................................................... 205
8.1.8.19 How to Set and Add a NetCol5000CF_110 Parameters (over Modbus-TCP)?................................................. 206
8.1.8.20 How to Set and Add a SUNRISE SCU-20K? ................................................................................................... 207
8.1.8.21 How to Set and Add a Rack-mounted HR04A.................................................................................................. 209
8.1.8.22 How Do I Add and Set an Envicool SC15? ...................................................................................................... 210
8.1.8.23 How Do I Add and Set an AIRSYS Air Conditioner? ...................................................................................... 211
8.1.8.24 How to Set and Add a Dehumidifier HT-500? .................................................................................................. 213
8.1.8.25 How to Set and Add an IP Device? ................................................................................................................... 213
8.1.8.26 How to Set and Add an Independent Deployment AI_DI Unit? ....................................................................... 214
8.1.8.27 How to Set and Add the Multi-functional Sensor? ........................................................................................... 216
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8.1.8.28 How to Set and Add the Smoke Detector (Connected to the AI/DI Port on the ECC800)? .............................. 217
8.1.8.29 How to Set and Add the Smoke Detector (Connected to the AI/DI Port on the Skylight Actuator)? ............... 219
8.1.8.30 How to Set and Add the Smoke Detector (Connected to the AI/DI Port on the Rack Environment Unit)? ...... 220
8.1.8.31 How to Set and Add the WLDS900 Water Sensor? .......................................................................................... 221
8.1.8.32 How to Set and Add the WLDS600 Water Sensor? .......................................................................................... 222
8.1.8.33 How to Set and Add the Electrode Water Sensor? ............................................................................................ 223
8.1.8.34 How to Set and Add the Temperature Sensor (Connected to the AI/DI Port on the ECC800)? ........................ 224
8.1.8.35 How to Set and Add the Temperature Sensor (Connected to the NTC Port on the Rack Environment Unit)? . 225
8.1.8.36 How to Set and Add the T/H Sensor (BOM Number: 33010346)? ................................................................... 226
8.1.8.37 How to Set and Add the T/H Sensor (BOM Number: 02310NBS)? ................................................................. 227
8.1.8.38 How to Set and Add the T/H Sensor (BOM Number: 02311FQG)? ................................................................. 229
8.1.9 How to Restore Factory Settings?.......................................................................................................................... 231
8.1.10 How Do I Install a Network Security Certificate? ............................................................................................... 232
8.1.11 How Can I Install a Device Access Certificate? .................................................................................................. 232
8.1.12 How Can I Change the ECC800 IP Address on the WebUI? ............................................................................... 233
8.1.13 How Do I Configure ECC800 Alarm Parameters? .............................................................................................. 233
8.1.14 How Can I View Real-Time Monitoring Data, Active Alarms, Historical Alarms, Access Event, and Operation
Logs? .............................................................................................................................................................................. 234
8.1.15 How Can I Handle Alarms? ................................................................................................................................. 235
8.1.16 How Can I View Performance Data? ................................................................................................................... 235
8.1.17 How Is a Signal Name Changed? ........................................................................................................................ 235
8.1.18 How Can I Export Historical Data and Device Data? .......................................................................................... 236
8.1.19 How Can I Export or Import a Configuration File? ............................................................................................. 237
8.1.20 How Can I Export Fault Information? ................................................................................................................. 238
8.1.21 How Can I Synchronize Device Parameters? ...................................................................................................... 239
8.1.22 How Can I Handle DO Association Failure? ....................................................................................................... 239
8.1.23 What Do I Do If the ECC800 WebUI Display Language Changes from Chinese to English During Use? ......... 240
8.1.24 What Do I Do If the ECC800 Fails to Communicate with the UPS5000-E? ....................................................... 240
8.1.25 What Do I Do If a Message Indicating Unauthorized Fingerprint Is Displayed During Fingerprint Scanning on
the Access Control Device (Fingerprint Has Been Recorded)? ...................................................................................... 241
8.1.26 How Can I Rectify Camera Access Restriction? .................................................................................................. 241
8.1.27 How Should I Add the Devices Accessed Through a Smart ETH Gateway over Modbus-TCP to the ECC800
WebUI? ........................................................................................................................................................................... 242
8.1.28 How Should I Add the Devices Accessed Through a Smart ETH Gateway over Modbus-MAC to the ECC800
WebUI? ........................................................................................................................................................................... 243
8.1.29 How Should I Add Devices Accessed Through the ETH Converter to the ECC800 WebUI? ............................. 244
8.1.30 How Should I Add Devices Accessed Through the ECC800 COM Port to the ECC800 WebUI ........................ 246
8.1.31 How Should I Add Devices Accessed Through the ECC800 AI/DI Port to the ECC800 WebUI ........................ 247
8.1.32 How Should I Open Doors Remotely over the ECC800 WebUI ......................................................................... 249
8.1.33 How Should I Turn On or Off Aisle Lights in the Smart Module over the ECC800 WebUI? ............................. 250
8.1.34 How Should I Opening Skylights Remotely over the ECC800 WebUI? ............................................................. 251
8.1.35 How Should I Turn On or Off Smart Cooling Products over the ECC800 WebUI? ............................................ 252
8.1.36 How Should I Open the Cabinet Electronic Lock over the ECC800 WebUI ....................................................... 252
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8.1.37 How Should I Link the Smoke Alarm with the Alarm Beacon over the ECC800 WebUI ................................... 253
8.1.38 How should I Link the AI/DI Alarm with the Alarm Beacon over the ECC800 WebUI...................................... 254
8.1.39 How Should I Modify Device Names over the ECC800 WebUI ......................................................................... 255
8.2 APP Operations ......................................................................................................................................................... 256
8.2.1 How to Connect to a WiFi Network ...................................................................................................................... 256
8.2.2 How to Prepare and Login App ............................................................................................................................. 256
8.2.3 How Do I Ensure that Device Positions in the Plan View Are Consistent with Actual Positions? ........................ 258
8.2.4 How to View Real-time Data? ............................................................................................................................... 259
8.2.5 How Can I Export and Import Data? ..................................................................................................................... 259
8.2.6 How Can I Synchronize Device Parameters? ........................................................................................................ 260
8.2.7 How Can I Handle App Login Failure? ................................................................................................................. 261
9 PLC Function .............................................................................................................................. 262
9.1 Linkage Control Introduction ................................................................................................................................... 262
9.2 Linkage Control Configuration Examples ................................................................................................................ 263
10 Acronyms and Abbreviations ............................................................................................... 266
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User Manual 1 Safety Information
1 Safety Information
1.1 General Safety
Statement
Before installing, operating, and maintaining the equipment, read this document and observe
all the safety instructions on the equipment and in this document.
The"NOTICE", "CAUTION", "WARNING", and "DANGER" statements in this document do
not cover all the safety instructions. They are only supplements to the safety instructions.
Huawei will not be liable for any consequence caused by the violation of general safety
requirements or design, production, and usage safety standards.
Ensure that the equipment is used in environments that meet its design specifications.
Otherwise, the equipment may become faulty, and the resulting equipment malfunction,
component damage, personal injuries, or property damage are not covered under the warranty.
Follow local laws and regulations when installing, operating, or maintaining the equipment.
The safety instructions in this document are only supplements to local laws and regulations.
Huawei will not be liable for any consequences of the following circumstances:
Operation beyond the conditions specified in this document
Installation or use in environments which are not specified in relevant international or
national standards
Unauthorized modifications to the product or software code or removal of the product
Failure to follow the operation instructions and safety precautions on the product and in
this document
Equipment damage due to force majeure, such as earthquakes, fire, and storms
Damage caused during transportation by the customer
Storage conditions that do not meet the requirements specified in this document
General Requirements
Do not install, use, or operate outdoor equipment and cables (including but not limited to
moving equipment, operating equipment and cables, inserting connectors to or removing
connectors from signal ports connected to outdoor facilities, working at heights, and
performing outdoor installation) in harsh weather conditions such as lightning, rain,
snow, and level 6 or stronger wind.
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Before installing, operating, or maintaining the equipment, remove any conductive
objects such as watches or metal jewelry like bracelets, bangles, and rings to avoid
electric shock.
When installing, operating, or maintaining the equipment, wear dedicated protective
gears such as insulation gloves, goggles, and safety clothing, helmet, and shoes, as
shown in the following figure.
Follow the specified procedures for installation, operation, and maintenance.
Before handling a conductor surface or terminal, measure the contact point voltage and
ensure that there is no risk of electric shock.
After installing the equipment, remove idle packing materials such as cartons, foam,
plastics, and cable ties from the equipment area.
In the case of a fire, immediately leave the building or the equipment area, and turn on
the fire alarm bell or make an emergency call. Do not enter the building on fire in any
case.
Do not stop using protective devices. Pay attention to the warnings, cautions, and related
precautionary measures in this document and on the equipment. Promptly replace
warning labels that have worn out.
Keep irrelevant people away from the equipment. Only operators are allowed to access
the equipment.
Use insulated tools or tools with insulated handles, as shown in the following figure.
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User Manual 1 Safety Information
All cable holes should be sealed. Seal the used cable holes with firestop putty. Seal the
unused cable holes with the caps delivered with the cabinet. The following figure shows
the criteria for correct sealing with firestop putty.
Do not scrawl, damage, or block any warning label on the equipment.
Tighten the screws using tools when installing the equipment.
Do not work with power on during installation.
Repaint any paint scratches caused during equipment transportation or installation in a
timely manner. Equipment with scratches cannot be exposed to an outdoor environment
for a long period of time.
Before operations, ensure that the equipment is firmly secured to the floor or other solid
objects, such as a wall or an installation rack.
Do not use water to clean electrical components inside or outside of a cabinet.
Do not change the structure or installation sequence of equipment without permission.
Do not touch a running fan with your fingers, components, screws, tools, or boards
before the fan is powered off or stops running.
Personal Safety
If there is a probability of personal injury or equipment damage during operations on the
equipment, immediately stop the operations, report the case to the supervisor, and take
feasible protective measures.
To avoid electric shock, do not connect safety extra-low voltage (SELV) circuits to
telecommunication network voltage (TNV) circuits.
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Do not power on the equipment before it is installed or confirmed by professionals.
1.2 Personnel Requirements
Personnel who plan to install or maintain Huawei equipment must receive thorough
training, understand all necessary safety precautions, and be able to correctly perform all
operations.
Only qualified professionals or trained personnel are allowed to install, operate, and
maintain the equipment.
Only qualified professionals are allowed to remove safety facilities and inspect the
equipment.
Personnel who will operate the equipment, including operators, trained personnel, and
professionals, should possess the local national required qualifications in special
operations such as high-voltage operations, working at heights, and operations of special
equipment.
Professionals: personnel who are trained or experienced in equipment operations and are
clear of the sources and degree of various potential hazards in equipment installation,
operation, maintenance
Trained personnel: personnel who are technically trained, have required experience, are
aware of possible hazards on themselves in certain operations, and are able to take
protective measures to minimize the hazards on themselves and other people
Operators: operation personnel who may come in contact with the equipment, except
trained personnel and professionals
Only professionals or authorized personnel are allowed to replace the equipment or
components (including software).
1.3 Electrical Safety
Grounding
For the equipment that needs to be grounded, install the ground cable first when
installing the equipment and remove the ground cable last when removing the
equipment.
Do not damage the ground conductor.
Do not operate the equipment in the absence of a properly installed ground conductor.
Ensure that the equipment is connected permanently to the protective ground. Before
operating the equipment, check its electrical connection to ensure that it is securely
grounded.
General Requirements
Use dedicated insulated tools when performing high-voltage operations.
AC and DC Power
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Do not connect or disconnect power cables with power on. Transient contact between the core
of the power cable and the conductor will generate electric arcs or sparks, which may cause
fire or personal injury.
If a "high electricity leakage" tag is attached on the equipment, ground the protective
ground terminal on the equipment enclosure before connecting the AC power supply;
otherwise, electric shock as a result of electricity leakage may occur.
Before installing or removing a power cable, turn off the power switch.
Before connecting a power cable, check that the label on the power cable is correct.
If the equipment has multiple inputs, disconnect all the inputs before operating the
equipment.
A circuit breaker equipped with a residual current device (RCD) is not recommended.
A damaged power cable must be replaced by the manufacturer, service agent, or
professionals to avoid risks.
High voltage operations and installation of AC-powered facilities must be performed by
qualified personnel.
Cabling
When routing cables, ensure that a distance of at least 30 mm exists between the cables
and heat-generating components or areas. This prevents damage to the insulation layer of
the cables.
Do not route cables behind the air intake and exhaust vents of the equipment.
Ensure that cables meet the VW-1 flame spread rating requirements.
Bind cables of the same type together. When routing cables of different types, ensure that
they are at least 30 mm away from each other.
If an AC input power cable is connected to the cabinet from the top, bend the cable in a
U shape outside the cabinet and then route it into the cabinet.
When the temperature is low, violent impact or vibration may damage the plastic cable
sheathing. To ensure safety, comply with the following requirements:
C.
Cables can be laid or installed only when the temperature is higher than 0° Handle
cables with caution, especially at a low temperature.
Cables stored at subzero temperatures must be stored at room temperature for at least 24
hours before they are laid out.
Do not perform any improper operations, for example, dropping cables directly from a
vehicle.
When selecting, connecting, and routing cables, follow local safety regulations and rules.
ESD
The static electricity generated by human bodies may damage the electrostatic-sensitive
components on boards, for example, the large-scale integrated (LSI) circuits.
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Wear ESD gloves or a well-grounded ESD wrist strap when touching the device or
handling boards or application-specific integrated circuits (ASICs).
When holding a board, hold its edge without touching any components. Do not touch the
components with your bare hands.
Package boards with ESD packaging materials before storing or transporting them.
Figure 1-1 Wearing an ESD wrist strap
Neutral-Ground Voltage
It is recommended that the three-phase loads be equalized and the neutral-ground voltage be
kept at less than 2 V to meet power distribution requirements.
1.4 Installation Environment Requirements
To prevent fire due to high temperature, ensure that the ventilation vents or heat
dissipation system are not blocked when the equipment is running.
Install the equipment in an area far away from liquids. Do not install it under areas prone
to condensation, such as under water pipes and air exhaust vents, or areas prone to water
leakage, such as air conditioner vents, ventilation vents, or feeder windows of the
equipment room. Ensure that no liquid enters the equipment to prevent faults or short
circuits.
If any liquid is detected inside the equipment, immediately disconnect the power supply
and contact the administrator.
Do not expose the equipment to flammable or explosive gas or smoke. Do not perform
any operation on the equipment in such environments.
Ensure that the equipment room provides good heat insulation, and the walls and floor
are dampproof.
Install a rat guard at the door of the equipment room.
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Installation at Heights
Working at heights refers to operations that are performed at least 2 meters above the
ground.
Do not work at heights if the steel pipes are wet or other potential danger exists. After the
preceding conditions no longer exist, the safety director and relevant technical personnel
need to check the involved equipment. Operators can begin working only after obtaining
consent.
When working at heights, comply with local relevant laws and regulations.
Only trained and qualified personnel are allowed to work at heights.
Before working at heights, check the climbing tools and safety gears such as safety
helmets, safety belts, ladders, springboards, scaffolding, and lifting equipment. If they do
not meet the requirements, take corrective measures or disallow working at heights.
Wear personal protective equipment such as the safety helmet and safety belt or waist
rope and fasten it to a solid structure. Do not mount it on an insecure moveable object or
metal object with sharp edges. Make sure that the hooks will not slide off.
Set a restricted area and eye-catching signs for working at heights to warn away
irrelevant personnel.
Carry the operation machinery and tools properly to prevent them from falling off and
causing injuries.
Personnel involving working at heights are not allowed to throw objects from the height
to the ground, or vice versa. Objects should be transported by tough slings, hanging
baskets, highline trolleys, or cranes.
Ensure that guard rails and warning signs are set at the edges and openings of the area
involving working at heights to prevent falls.
Do not pile up scaffolding, springboards, or other sundries on the ground under the area
involving working at heights. Do not allow people to stay or pass under the area
involving working at heights.
Inspect the scaffolding, springboards, and workbenches used for working at heights in
advance to ensure that their structures are solid and not overloaded.
Any violations must be promptly pointed out by the site manager or safety supervisor
and the involved personnel should be prompted for correction. Personnel who fail to stop
violations will be forbidden from working.
1.5 Mechanical Safety
Hoisting Devices
Do not walk under hoisted objects.
Only trained and qualified personnel should perform hoisting operations.
Check that hoisting tools are available and in good condition.
Before hoisting objects, ensure that hoisting tools are firmly secured onto a load-bearing
object or wall.
Ensure that the angle formed by two hoisting cables is no more than 90 degrees, as
shown in the following figure.
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Do not drag steel ropes and hoisting tools or bump hoisted objects against hard objects
during hoisting.
Using Ladders
Use wooden or fiberglass ladders when you need to perform live working at heights.
When a step ladder is used, ensure that the pull ropes are secured and the ladder is held
firm.
Before using a ladder, check that it is intact and confirm its load bearing capacity. Do not
overload it.
Ensure that the ladder is securely positioned. The recommended angle for a ladder
against the floor is 75 degrees, as shown in the following figure. An angle rule can be
used to measure the angle. Ensure that the wider end of the ladder is at the bottom, or
protective measures have been taken at the bottom to prevent the ladder from sliding.
When climbing a ladder, take the following precautions to reduce risks and ensure
safety:
Keep your body steady.
Do not climb higher than the fourth rung of the ladder from the top.
Ensure that your body's center of gravity does not shift outside the legs of the ladder.
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Drilling Holes
When drilling holes into a wall or floor, observe the following safety precautions:
Do not drill holes into the equipment. Doing so may affect the electromagnetic shielding of
the equipment and damage components or cables inside. Metal shavings from drilling may
short-circuit boards inside the equipment.
Obtain the consent from the customer, subcontractor, and Huawei before drilling.
Wear goggles and protective gloves when drilling holes.
When drilling holes, protect the equipment from shavings. After drilling, clean up any
shavings that have accumulated inside or outside the equipment.
Moving Heavy Objects
When removing a heavy or unstable component from a cabinet, be aware of unstable or heavy
objects on the cabinet.
Be cautious to avoid injury when moving heavy objects.
When moving the equipment by hand, wear protective gloves to prevent injuries.
Move or lift the equipment by holding its handles or lower edges. Do not hold the
handles of modules (such as power supply units, fans, and boards) that are installed in
the equipment because they cannot support the weight of the equipment.
Avoid scratching the cabinet surface or damaging cabinet components and cables during
equipment transportation.
When transporting the equipment using a forklift truck, ensure that the forks are properly
positioned to ensure that the equipment does not topple. Before moving the equipment,
secure it to the forklift truck using ropes. When moving the equipment, assign dedicated
personnel to take care of it.
Choose railways, sea, or a road with good condition for transportation to ensure
equipment safety. Avoid tilt or jolt during transportation.
Move a cabinet with caution. Any bumping or falling may damage the equipment.
1.6 Others
Exercise caution when shutting down the smart cooling product. Doing so may cause
equipment and room overheating, which will damage the equipment.
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Exercise caution when powering off the rPDU or PDU2000. Doing so may affect the
power supply to equipment, which will interrupt services.
Exercise caution when manually shutting down the UPS inverter for transferring to
bypass mode, or when adjusting the UPS output voltage level or frequency. Doing so
may affect the power supply to equipment.
Exercise caution when setting battery parameters. Incorrect settings will affect the power
supply and battery lifespan.
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User Manual 2 Overview
2 Overview
2.1 Positioning
The ECC800 is the core component for the smart module local management. It is intelligent,
flexible in connection, easy to maintain, and reliable. It adopts the POE bus for expansion,
and allows all intelligent monitoring devices to be flexibly laid out so that it can manage the
devices in the smart module.
2.2 Features
Efficient
− Supports access of wireless devices and provides backup routes, reducing cable
layout workload and enhancing reliability.
− Supports unlocking through the access card, password and fingerprint.
− Supports remote alarm notifications by SMS and email.
− Supports power supply and communication over the power over Ethernet (POE) bus,
providing rich bandwidth resources and high communication efficiency.
− Supports remote upgrade, fault data export, and configuration parameter
synchronization.
− Supports the connection of eight in-room access control devices and four cameras
for a single smart module.
− Cascades a maximum of three ECC800s, displays the active alarms and power
usage effectiveness (PUE) data of cascaded ECC800s on the WebUI of one
ECC800.
− Collects statistics on the instantaneous PUE and average PUE of the smart module
and displays the statistics on a dashboard and in curves, so that you can query the
power consumption of the smart module in real time
− Supports the function of transparent transmission over the RS485 port, so that
southbound components can communicate with the NetEco after accessing the
ECC800.
− Allows you to modify device performance parameters and query historical
performance data.
− Supports asset management, power management, and cooling capacity management,
allowing a grasp of dynamic information about the smart module in a timely
manner, and facilitating effective management.
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− Supports deployment wizard, which provides commissioning guidance.
Simple
− Supports local WiFi hotspots. After you install the WiFi module at the USB port on
the ECC800, you can connect to the ECC800 using the app on the mobile phone or
tablet computer to view the basic information about the smart module, such as
layout, resources, energy efficiency, environment, and alarms. This increases
usability.
− Supports query of device information in real time using the pad app or mobile
phone app, facilitating operation and maintenance.
− Supports connection of NE monitoring devices to the POE bus in plug-and-play
mode for auto-discovery and auto-registration requiring no configuration. This
feature enables fast delivery and higher maintainability.
Reliable
− Supports intelligent linkage management which allows customization of linkage
logic, achieving intelligent operation and maintenance.
− Supports dual power inputs, providing high reliability.
− Supports intelligent battery monitoring management, which allows monitoring of
cell voltage and internal resistance for discovery of failed cells.
− Supports automation functions such as fire control linkage and smoke alarm
linkage.
− Supports a POE ring network, reducing networking fault points and providing high
reliability.
− Supports cabinet-level magnetic locks, door status sensor, and temperature
monitoring, providing high security.
− Interconnects with the NetEco and supports the SNMP, allowing central
management over various scenarios and modules.
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User Manual 3 Device Description
3 Device Description
3.1 ECC800
The ECC800 consists of power supply units (PSUs) and an ECC800 main control module and
monitors the equipment and environment in the smart module.
Figure 3-1 ECC800 (front view)
(1) PSU (2) PSU (3) Status indicator
(4) 3G/4G antenna port (5) FE ports (6) AI/DI_1–6 sensor
Manufacturer: Guangdong (WAN_1–WAN_2 and input port
Shenglu Telecommunication Tech. LAN_1–LAN_2)
Co., Ltd.
Model: SL10802U
(7) RF_Z antenna port (8) SW button (9) DO_1–2 dry
Manufacturer: Guangdong contact output
Shenglu Telecommunication Tech.
Co., Ltd.
Model: SL15334H
(10) RS485 port 12V (COM1–4) (11) Default button (12) USB port
(13) ECC800 main control module
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Figure 3-2 ECC800 (rear view)
(1) 53.5V DC_OUT1 (2) 53.5V DC_OUT2 (3) AC_INPUT1
(4) AC_INPUT2
Figure 3-3 ECC800 main control module (side view)
(1) SIM card slot (2) Micro-SD card slot
ECC800 Specifications
Table 3-1 ECC800 environmental specifications
Item Specifications
Working temperature –20° to +50°
C C
Storage temperature –40° to +70°
C C
Relative humidity 5%–95% RH (non-condensing)
Altitude 0–4000 m (When the altitude is between 3000 m and 4000 m,
C
the temperature decreases by 1° for each additional 200 m.)
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Table 3-2 ECC800 structural specifications
Item Specifications
Dimensions (L x W x H) 442 mm x 330 mm x 43.6 mm
Color Black
Installation Can be installed in a 1 U space in a standard
19-inch cabinet
Environmental protection RoHS5
Table 3-3 ECC800 technical specifications
Item Specifications
Power input Supports two AC inputs
Rated voltage: 200–240 V AC/100–120 V AC
Rated frequency: 50 Hz/60 Hz
Power output Output voltage: 42–58 V DC (rated voltage: 53.5 V DC)
Output power of two power module supplies: 2000 W (176–300
V AC); 940 W (linear derating at 85–175 V AC)
Output power of a single power module supply: 1000 W
(176–300 V AC); 470 W (linear derating at 85–175 V AC)
FE port expansion Supports two WAN ports, two LAN ports, and 10/100M
communications rate
RS485 serial port Supports four RS485 ports with the default communications rate
expansion of 9600 bit/s.
Each port provides 12 V DC power with the rated current of 450
mA.
AI/DI expansion Supports six AI/DI ports to connect to smoke sensors, water
(RJ45) sensors, and temperature sensors.
Each port provides 12 V DC power with the rated current of 85
mA.
DO expansion Two DO ports. Each port supports passive and active DO.
(RJ45) Supports passive (dry contact) DO ports with contact point
capacity of 20 W, maximum withstand voltage of 60 V DC, and
rated current of 500 mA.
Supports active DO ports with the output voltage of 12 V DC
and output current of 450 mA.
Wireless Supports wireless communication that complies with
communication IEEE802.15.4.
3G (optional) Supports 3G (WCDMA) communication and is compatible with 2G
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Item Specifications
(GSM) communication. A standard SIM card slot is provided.
NOTE
The prerequisite for using a SIM card is that the site has signal coverage.
USB After installing the WiFi module, connect the WiFi module to
the ECC800 using the app on the mobile phone or tablet
computer to view the basic information about the smart module,
such as layout, resources, energy efficiency, environment, and
alarms.
Insert a USB flash drive to export historical data, device data,
fault information, and configuration files, and import or export
the device configuration data and historical data.
Button SW: wireless network pairing button
Default: restores the default IP address
Table 3-4 ECC800 RF parameters
Model Name Specifications
ECC800 RF_Z Operation Frequency 2405 MHz–2480 MHz
RF_Z EIRP (max.) 5 dBm
3G Operation Frequency WCDMA BAND: 850 MHz–2100
MHz
GSM: 850 MHz–1900 MHz
3G EIRP (max.) 36 dBm
Software version V100
Indicators
Table 3-5 Indicators on the ECC800 main control module
Indicator Color Name Status Description
RUN Green Running Steady on The power supply is normal, the
status program is being loaded, or WiFi
indicator WPS is pairing.
Off The power supply is abnormal.
Blinking at The software runs properly (the
long indicator blinks at 0.5 Hz, on for
intervals 1s and then off for 1s) or the
ECC800 registers with the
NetEco successfully.
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Indicator Color Name Status Description
Blinking at The ECC800 does not register
short with the NetEco (the indicator
intervals blinks at 4 Hz, on for 0.125s and
then off for 0.125s).
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off The system is normal.
RF_Z Green Communica Steady on No network parameters exist, or
tion status a network is to be created.
indicator
Blinking at A network is set up, and no node
long access is allowed (the indicator
intervals blinks at 0.5 Hz, on for 1s and
then off for 1s).
Blinking at A network is set up, and node
super short access is allowed (the indicator
intervals blinks at 10 Hz, on for 0.05s and
then off for 0.05s).
3G Green 3G status Steady on The 3G module is powered on.
indicator
Off The 3G module stops running, or
no 3G module is configured.
Blinking at The 3G module succeeds in
long dial-up (the indicator blinks at
intervals 0.5 Hz, on for 1s and then off for
1s).
Blinking at The 3G module registers with the
short operator network successfully
intervals (the indicator blinks at 4 Hz, on
for 0.125s and then off for
0.125s).
Table 3-6 PSU indicator description
Indicator Colo Name Status Description
r
Gree Power Steady on The converter has a power input.
n indicator
Off The converter has no power input or
is faulty.
Blinking at The converter is being queried (the
long intervals indicator blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The converter application program
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Indicator Colo Name Status Description
r
short intervals is being loaded (the indicator blinks
at 4 Hz, on for 0.125s and then off
for 0.125s).
Yell Alarm Steady on The converter generates a
ow indicator forewarning indicating that power
will be limited due to ambient over
temperature, or generates a
protection shutdown alarm due to
ambient over temperature or under
temperature.
Power input overvoltage or
undervoltage protection
Reverse DC input connection
Slight current imbalance
Output overvoltage
Hibernation
Off The converter generates no
protection alarms.
Blinking at The communication between the
long intervals converter and the outside is
interrupted (the indicator blinks at
0.5 Hz, on for 1s and then off for
1s).
Red Fault Steady on The converter locks out due to
indicator output overvoltage.
The converter delivers no output
due to internal faults.
Off The converter is working properly.
Wireless Network Pairing (SW) and IP Address Reset (Default) Buttons
Table 3-7 Wireless network pairing and IP address reset buttons
Button Function Operation Description Indicator Status
Name Description
SW Wireless In non-wireless network (802.15.4) The RF_Z indicator
network RF_Z pairing mode, press and hold down is blinking at super
(802.15.4) the button for 1.2s to 5s to enter the short intervals.
pairing wireless network pairing mode.
In wireless network (802.15.4) The RF_Z indicator
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Button Function Operation Description Indicator Status
Name Description
pairing mode, press and hold down is blinking at long
the button for 1.2s to 5s to exit the intervals.
pairing mode; or the system
automatically exits the pairing mode
after 30 minutes without pressing
the button.
Press and hold down the button for The RF_Z indicator
more than 6s to clear network is on.
parameters.
WiFi pairing In non-WiFi pairing mode, press the When the system
button button for less than 1.2s to enter the enters the pairing
NOTE WiFi pairing mode. mode, the RUN
This function is
indicator is
supported only steady on.
in a scenario After pairing
where the WiFi
succeeds, the
converter is
configured. RUN indicator
blinks just as
before WiFi
pairing.
If pairing does
not succeed in 3
minutes, the RUN
indicator blinks
just as before
WiFi pairing.
Default IP address reset Hold down the button for at least 3s. None
Then the IP addresses for the
ECC800 WAN_1 and WAN_2
ports will restore to the default
addresses.
Communications Ports
The ECC800 provides the following communications ports. Figure 3-4 shows the pins of the
RJ45 port.
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Figure 3-4 RJ45 port pins
There are four FE ports, that is, two WAN ports (WAN_1 and WAN_2) and two LAN ports
(LAN_1 and LAN_2). Table 3-8 provides the FE port pin definitions.
Table 3-8 FE port pin definitions
Item Description
Pin sequence Pin 1 TX+
Pin 2 TX-
Pin 3 RX+
Pin 4 N/A
Pin 5 N/A
Pin 6 RX-
Pin 7 N/A
Pin 8 N/A
Indicator Green Linked, steady on
indicator
Yellow ACT data communication, blinking
indicator
There are four RS485 ports (COM1/12V–COM4/12V). Table 3-9 provides the RS485 port pin
definitions.
Table 3-9 RS485 port pin definitions
Item Description
Pin sequence Pin 1 RS485+
Pin 2 RS485–
Pin 3 12 V DC_OUT
Pin 4 RS485+
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Item Description
Pin 5 RS485–
Pin 6 N/A
Pin 7 N/A
Pin 8 GND
Indicator Green Power output indicator
indicator Steady on: The 12 V DC output is normal.
Off: No 12 V DC output is provided.
There are six AI/DI dry contact inputs (AI/DI_1–6). Table 3-10 provides the AI/DI port pin
definitions.
Pins 1, 2, 4, and 5 identify sensor types.
Pin 3 and Pin 8 are power output ports.
Pin 6 and Pin 7 collect sensor data. Pin 7 can detect current type sensors (4–20 mA). Pin 6 and Pin 7
can detect the output status of passive dry contact type sensors. Pin 3 and Pin 7 can detect
temperature sensors.
Table 3-10 AI/DI port pin definitions
Item Description
Pin sequence Pin 1 Type_1
Pin 2 Type_2
Pin 3 12 V DC
Pin 4 Type_3
Pin 5 Type_4
Pin 6 DI-
Pin 7 DI+
Pin 8 GND
Indicator Green Power output indicator
indicator Steady on: The 12 V DC output is normal.
Off: No 12 V DC output is provided.
There are two DO dry contact outputs (DO_1 and DO_2). Table 3-11 provides the DO port
pin definitions.
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Table 3-11 DO port pin definitions
Item Description
Pin sequence Pin 1 N/A
Pin 2 N/A
Pin 3 12 V DC_OUT
Pin 4 N/A
Pin 5 N/A
Pin 6 DO_NO
Pin 7 DO_COM
Pin 8 GND
Indicator Green Power output indicator
indicator Steady on: The 12 V DC output is normal.
Off: No 12 V DC output is provided.
Table 3-12 USB port pin definitions
Item Description
Pin sequence Pin 1 5V
Pin 2 DM
Pin 3 DP
Pin 4 GND
Power Ports
The ECC800 provides four power ports, including two AC input ports (AC_INPUT1 and
AC_INPUT2) and two DC output ports (DC_OUTPUT1 and DC_OUTPUT2). Table 3-13
provides the power port pin definitions.
Table 3-13 Power port pin definitions
Port Type Pin Description
AC Pin 1 L
Pin 2 PE
Pin 3 N
DC Pin 1 48V+
Pin 2 48VGND
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User Manual 3 Device Description
3.2 Southbound Device Introduction
3.2.1 Rack Environment Unit
The rack environment unit collects and controls the environmental data of IT cabinets in the
smart module.
Figure 3-5 Rack environment unit
(1) Ground port (2) 48 V DC power input (3) POE port (4) COM1/12V
port port
(5) COM2/12V (6) COM3 port (7) COM4 port (8) NTC1-3
port
(9) NTC4-6 (10) AI/DI_1 port (11) AI/DI_2 port (12) 12V_1 port
(13) 12V_2 port (14) BLINK button (15) Status
indicator
Specifications
Table 3-14 Technical specifications for the rack environment unit
Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE input: One POE port that complies with IEEE802.3at.
12 V power Two 12 V DC power outputs with the rated output current of 250 mA
output
POE port FE communication with the rate of 10/100M
RS485 serial Four RS485 ports with the default communications rate of 9600 bit/s
port Among the four RS485 ports, two support 12 V DC, 400 mA power
expansion output.
The other two are isolated, with the default communications rate of
9600 bit/s, and do not support power output.
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Item Specifications
AI/DI input Two active 12 V DC, 200 mA AI/DI input ports
Temperature Provides two RJ45 ports to connect to six temperature sensors, each RJ45
sensor port port connecting to three temperature sensors.
BLINK Provides a BLINK function.
button
Indicators
Table 3-15 lists the structural specifications for the rack environment unit.
Table 3-15 Indicator description
Indicator Color Name Status Description
PWR Green Power input Steady on The power input is normal.
status
indicator Off There is no power input.
RUN Green Module Off The power is abnormal or
running the board program is
status loading.
indicator
Blinking at The software runs properly
long (the indicator blinks at 0.5
intervals Hz, on for 1s and then off
for 1s).
Blinking at POE communication fails
short (the indicator blinks at 4 Hz,
intervals on for 0.125s and then off
for 0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is
generated.
3.2.2 Smart ETH Gateway
A smart ETH gateway allows the extension of the 53.5 V DC power supply and FE
communication for the ECC800 and can be flexibly deployed in a smart module.
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Figure 3-6 Smart ETH gateway
(1) PWR_IN (2) FE_1 cascading (3) POE_1–2 (4) POE_3–4 ports
cascading power port signal port ports
(5) 48V_OUT1 (6) 48V_OUT2 (7) FE_2 (8) PWR_OUT
power output port power output port cascading signal cascading power port
port
(9) BLINK button (10) Status indicator
Specifications
Table 3-16 Technical specifications for a smart ETH gateway
Item Specifications
Power input PWR_IN D-type power input terminal, for power cascading, input voltage
range: 45–55 V DC
Power of a single smart ETH gateway: max (2.7 A , 48 V DC); power of
cascaded smart ETH gateways: max (25 A, 48 V DC)
Power output PWR_OUT D-type power output terminal, for power cascading, output
voltage range: 45–55 V DC
48V_OUT1 and 48V_OUT2, terminal (1 A,48 V DC), output voltage
range: 45–55 V DC
FE port Two FE ports, RJ45 terminal with an indicator, 10/100M communication
rate, for the cascading between smart ETH gateways and the
communication with the upper computer
POE port Four POE ports, RJ45 terminal with an indicator, 10/100M
communications rate, complying with IEEE802.3, IEEE802.3u,
IEEE802.3af/at
BLINK If you press the BLINK button, the RUN indicator blinks intermittently at
button super short intervals (blinking at super short intervals for 0.5s and then off
for 0.5s) for 5 seconds.
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Indicators
Table 3-17 Indicators on a smart ETH gateway
Indicator Color Name Status Description
PWR Green Power input Steady on The power input is normal.
status indicator
Off There is no power input.
RUN Green Module Off The power supply is
running status abnormal.
indicator
Blinking at The smart ETH gateway
long successfully registers with
intervals the ECC800 and the software
runs properly (the indicator
blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The smart ETH gateway does
short not register with the ECC800
intervals (the indicator blinks at 4 Hz,
on for 0.125s and then off for
0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is
generated.
3.2.3 Access Control System
The access control system applies to the equipment room, aisle containment, and cabinet
doors.
3.2.3.1 Aisle or Room Access Control System
The access control system collects and monitors data about the access of devices and
personnel to ensure access security.
Diverse access control devices such as the fingerprint and card reader with a keypad,
fingerprint and card reader, and card reader with a keypad are supported. Note that the
communication distance between an access control device and an access actuator should be
less than or equal to 5 meters.
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If the IC cards used by the access control device need to be purchased, the IC card chip specifications
are as follows.
Table 3-18 IC card chip specifications
Item Specifications
Chip model S50
Chip name Mifare 1K (S50) card
Chip type Philips Mifare 1 IC S50
Operating frequency 13.56 MHz
Read/write distance 1–3 cm
Storage capacity 8 Kbit, 16 partitions
The emergency button or emergency door release button is used to open a door in
emergencies.
The emergency button can disconnect the power supply to the lock and therefore unlock
the door in case of emergency.
In case of emergency, break the glass of the emergency door release button to disconnect
the power supply to the lock and therefore unlock the door.
3.2.3.1.1 Access Actuator
The access actuator is the control component for the aisle door in a smart module. It connects
to the ECC800 controller over FE port, wireless networking (802.15.4). It opens the magnetic
lock by detecting the card swiping information of the card reader, door open button
information, and fire linkage information. It has access right management, access event record,
and alarm record functions.
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Figure 3-7 Access actuator
(1) 48 V power port (2) POE port (3) RS485 port COM2
(4) RS485 port COM1 (5) Address DIP switch (6) Status indicator
(7) BLINK button (8) WG_2 Wiegand (9) WG_1 Wiegand interface
interface
(10) AI/DI_2 dry (11) AI/DI_1 dry (12) LOCK/GND/GATE/COM door
contact (Reserved port contact (Reserved port status or magnetic lock port
for linkage control or for exit button)
third-party fire
extinguishing system
dry contacts)
Specifications
Table 3-19 Access actuator technical specifications
Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE input: One POE port that complies with IEEE802.3at.
POE port FE communication, 10/100M communications rate
Wireless One wireless communication port that complies with
communication IEEE802.15.4, mutual backup with FE communication
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Item Specifications
AI/DI port Two AI/DI ports, can connect to the fire alarm and exit button
DO/DI port One 12 V DC power output that controls magnetic locks,
terminal
One DI input port for connecting to the door status switch
RS485 serial port Two RS485 ports (one route) with the default communications rate
expansion of 9600 bit/s, physical port cascading supported (reserved function)
Wiegand interface Two Wiegand interfaces, 12 V DC card reader operating power
output; two routes of card readers (non-fingerprint readers) can
operate at the same time.
BLINK button Press the button for less than 1 second to start blinking.
Hold down the button for 1–5 seconds to search for a network
and start networking.
Hold down the button for more than 10 seconds to clear
network parameters.
Address DIP switch 4-pin address DIP switch
E-label Supported
Indicators
Table 3-20 Access actuator indicator description
Indicator Color Name Status
PWR Green Power input status Steady on: The power
indicator input is normal.
Off: There is no
power input.
RUN Green Communication status Off: The power is
indicator abnormal or the
board program is
loading.
Blinking at long
intervals: The access
actuator successfully
registers with the
ECC800 and the
software runs
properly (the
indicator blinks at 0.5
Hz, on for 1s and
then off for 1s).
Blinking at short
intervals: The
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Indicator Color Name Status
communication is
disconnected or the
access actuator fails
to register with the
ECC800 (the
indicator blinks at 4
Hz, on for 0.125s and
then off for 0.125s).
Blinking: The
indicator blinks at
super short intervals
for 0.5s (blinking at
10 Hz, on for 0.05s
and then off for
0.05s) and then turns
off for 0.5s. The
cycle lasts for 10s.
ALM Red Alarm indicator Steady on: A system
failure alarm is
generated.
Off: No system alarm
is generated.
RF_Z Green Wireless communication Steady on: No
status indicator network parameters
exist, or a network is
to be created.
Blinking at long
intervals: A network
is set up, and no node
access is allowed (the
indicator blinks at 0.5
Hz, on for 1s and
then off for 1s).
Blinking at super
short intervals: A
network is set up, and
node access is
allowed (the indicator
blinks at 10 Hz, on
for 0.05s and then off
for 0.05s).
Blinking
intermittently at super
short intervals: The
access actuator is
searching for a
network (the
indicator blinks at
super short intervals
for 0.5s and then
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Indicator Color Name Status
turns off for 0.5s).
Communications Ports
The access actuator provides one DO port (LOCK/GND) and one DI port (GATE/COM).
Table 3-21 lists the LOCK/GND/GATE/COM port pin definitions.
Table 3-21 LOCK/GND/GATE/COM port pin definitions
Item Description
LOCK/GND LOCK 12V_OUT
(control
magnetic GND GND
locks) pin
sequence
GATE/COM GATE DI1
(door status)
pin sequence COM COM
3.2.3.1.2 Fingerprint and Card Reader with a Keypad
Figure 3-8 Fingerprint and card reader with a keypad
The following uses the old fingerprint and card reader with a keypad as an example. The new and old
fingerprint and card readers have the same appearance, but have different indicator colors when the
device is collecting a fingerprint. For details, see "Access control device operating status."
(1) Fingerprint reader (2) LED indicator
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Table 3-22 Specifications for the fingerprint and card reader with a keypad
Item Specifications
Dimensions (L x W x H) 156 mm x 53 mm x 38 mm
Rated operating voltage 12 V DC ±15%
Rated operating current 300 mA ±15%
Card type supported IC card
Authorized storage A maximum of 3000 authorized users, with a maximum
of 6000 fingerprints
Communications mode RS485 and Wiegand communications ports
Table 3-23 Access control device operating status
Item Old Version New Version
Standby LED indicator The indicator is The indicator is
steady blue. steady blue.
Fingerprint reader The indicator is The indicator is off.
steady green.
Unauthorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, blue, red, blue, red, blue, red,
collection and blue in order. and blue in order.
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
three. three.
Authorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, and blue blue, red, and blue
collection in order. in order.
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
Card swiping LED indicator The indicator blinks The indicator blinks
blue, red, and blue blue, red, and blue
in order. in order.
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
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3.2.3.1.3 Fingerprint and Card Reader
Figure 3-9 Fingerprint and card reader
(1) Fingerprint reader (2) LED indicator
Table 3-24 Fingerprint and card reader
Item Specifications
Dimensions (L x Wx H) 156 mm x 53 mm x 38 mm
Rated operating voltage 12 V DC ±5%
Rated operating current 300 mA ±5%
Card type supported IC card
Authorized storage A maximum of 3000 authorized users, with a maximum
of 6000 fingerprints
Communications mode RS485 and Wiegand communications ports
Table 3-25 Access control device operating status
Item Old Version New Version
Standby LED indicator The indicator is The indicator is
steady blue. steady blue.
Fingerprint reader The indicator is The indicator is off.
steady green.
Unauthorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, blue, red, blue, red, blue, red,
collection and blue in order. and blue in order.
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Item Old Version New Version
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
three. three.
Authorized LED indicator The indicator blinks The indicator blinks
fingerprint blue, red, and blue blue, red, and blue
collection in order. in order.
Fingerprint reader The indicator is The indicator turns
steady green. on (white).
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
Card swiping LED indicator The indicator blinks The indicator blinks
blue, red, and blue blue, red, and blue
in order. in order.
Buzzer sounds The buzzer sounds The buzzer sounds
once. once.
3.2.3.1.4 Card Reader with a Keypad
Figure 3-10 Card reader with a keypad
Table 3-26 Specifications of a card reader with a keypad
Item Specifications
Dimensions (L x W x H) 114 mm x 63 mm x 25 mm
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Item Specifications
Operating voltage Operating voltage range: 10.8–13.2 V DC; rated voltage:
12 V DC
Operating current Static standby current80 mA, dynamic operating current
(card swiping, key pressing) 150mA, minimum input
current 12 V DC/300 mA
Communications mode Wiegand communications port
3.2.3.1.5 Magnetic Lock
Figure 3-11 Double door magnetic lock
Figure 3-12 Single door magnetic lock
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Figure 3-13 Magnetic lock for a sliding door
3.2.3.2 Cabinet Access Control System
The cabinet access control system applies to cabinets in the aisle containment to ensure data
and device security.
Electronic cabinet lock
Features:
An IC card can be used after being authorized using software.
An IC card can be authorized for one lock or all locks.
Door opening information is recorded through a network.
The system displays the status of cabinet doors and locks in real time, the system
displays the status of cabinet doors and locks in real time and reports the unauthorized
door opening.
The system supports remote unlocking.
Figure 3-14 Electronic cabinet lock
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Table 3-27 Cabinet electronic lock specifications
Item Specifications
Rated input voltage 12 V DC
Rated current 200–300 mA
Unlock mode Unlocking with a powered card
Card type supported IC card
Mechanically unlock Supported
Mechanical Code Lock
Features:
The cabinet door can be opened with only the key and without the password.
The cabinet door can be opened with only the password and without the key.
The user can set a password.
A password should contain at least three digits.
The password can be reset if the user forgot it.
Figure 3-15 Mechanical code lock
3.2.4 AC Actuator
The AC actuator is used in a smart module to control the lighting inside the smart module by
receiving commands from the access control system or host, infrared linkage information
(disabled by default), or signals from the light button. It also provides a charging port for the
pad.
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Figure 3-16 AC actuator
(1) AC OUT2 port (2) AC OUT1 port (3) AC IN port (4) Status indicator
(5) BLINK button (6) AI/DI dry (7) COM1–2 RS485
contact port
Specifications
Table 3-28 AC actuator technical specifications
Item Specifications
Power input One AC input, 100–240 V AC.
Power output AC OUT1: two AC outputs, 100–240 V AC, maximum total
current: 5 A. The built-in relay can connect or disconnect the
circuit.
AC OUT2: one AC output, 100–240 V AC, maximum
current: 5 A. Supplies power continuously.
Wireless One wireless communication port, complying with
communication IEEE802.15.4.
RS485 port One route of dual RS485 ports, not isolated (reserved).
AI/DI detection Two AI/DI dry contacts, connecting to two light buttons.
BLINK button Press the button for less than 1 second to start blinking.
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Item Specifications
Hold down the button for 1–5 seconds to search for a network
and start networking.
Hold down the button for more than 10 seconds to clear
network parameters.
Indicators
Table 3-29 AC actuator indicators
Indicator Color Name Status Description
Power Green Power status Steady on The power input is normal.
indicator
Off There is no power input.
RUN Green Running Off The power is abnormal or the
status board program is loading.
indicator
Blinking at The AC actuator successfully
long intervals registers with the ECC800 and
the software runs properly (the
indicator blinks at 0.5 Hz, on
for 1s and then off for 1s).
Blinking at The communication is
short intervals disconnected or the AC
actuator fails to register with
the ECC800 (the indicator
blinks at 4 Hz, on for 0.125s
and then off for 0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s. The
cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is generated.
RF_Z Green Communicati Steady on No network parameters exist,
on status or a network is to be created.
indicator
Blinking at A network is set up, and no
long intervals node access is allowed (the
indicator blinks at 0.5 Hz, on
for 1sand then off for 1s).
Blinking at A network is set up, and node
super short access is allowed (the indicator
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Indicator Color Name Status Description
intervals blinks at 10 Hz, on for 0.05s
and then off for 0.05s).
Blinking The AC actuator is searching
intermittently for a network (the indicator
at super short blinks at super short intervals
intervals for 0.5sand then turns off for
0.5s).
3.2.5 Skylight Actuator
The skylight actuator controls the rotating skylight on the aisle containment of the smart
module through the alarm linkage information from the fire extinguishing system or the
control information from the upper computer. The skylight actuator supports E-labels and
wireless networking (802.15.4).
Figure 3-17 Skylight actuator
(1) LOCK/GND (2) BUTTON/GND (3) AI/DI_1 sensor (4) AI/DI_2 sensor
magnetic lock DO window open button input port input port
output port DI input port
(5) BLINK button (6) Status indicator (7) Address DIP (8) COM1 port
switch
(9) COM2 port (10) POE port (11) 48 V power port
Specifications
Table 3-30 Skylight actuator technical specifications
Item Specifications
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Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE input: One POE port that complies with IEEE802.3 at.
POE port FE communication with the rate of 10/100M
Wireless One wireless port that complies with IEEE802.15.4, mutual backup
communication with FE communication
AI/DI port Two AI/DI ports for detecting fire extinguishing linkage signals;
smoke detection signals also supported
DO output One 12 V DC power output for controlling the skylight magnetic lock;
driving six skylight magnetic locks simultaneously
DI input One DI input port for connecting to the window open button
BLINK button Hold down the button for less than 1 second to start blinking.
Hold down the button for 1–5 seconds to search for a network and
start networking.
Hold down the button for more than 10 seconds to clear network
parameters.
Address DIP 4-pin address DIP switch
switch
E-label Supported
Indicators
Table 3-31 Skylight actuator indicator description
Indicator Color Name Status Description
Power Green Power input Steady on The power input is normal.
status indicator
Off There is no power input.
RUN Green Operating Off The power is abnormal or the
status indicator board program is loading.
Blinking at The skylight actuator
long intervals successfully registers with the
ECC800 and the software runs
properly (the indicator blinks at
0.5 Hz, on for 1s and then off for
1s).
Blinking at The communication fails or the
short intervals skylight actuator fails to register
with the ECC800 (the indicator
blinks at 4 Hz, on for 0.125s and
then off for 0.125s).
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Indicator Color Name Status Description
Blinking The indicator blinks at super
short intervals for 0.5s (blinking
at 10 Hz, on for 0.05s and then
off for 0.05s) and then turns off
for 0.5s. The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is generated.
RF_Z Green Communicatio Steady on No network parameters exist, or
n status a network is to be created.
indicator
Blinking at A network is set up, and no node
long intervals access is allowed (the indicator
blinks at 0.5 Hz, on for 1sand
then off for 1s).
Blinking at A network is set up, and node
super short access is allowed (the indicator
intervals blinks at 10 Hz, on for 0.05s and
then off for 0.05s).
Blinking The skylight actuator is
intermittently searching for a network (the
at super short indicator blinks at super short
intervals intervals for 0.5s and then turns
off for 0.5s).
Communications Ports
The skylight actuator provides one DO port (LOCK/GND) and one DI port (BUTTON/GND).
Table 3-32 lists the LOCK/GND/BUTTON/GND port pin definitions.
Table 3-32 LOCK/GND/BUTTON/GND port pin definitions
Item Description
LOCK/GND LOCK 12V_OUT
pin sequence
GND GND
BUTTON/GN BUTTON DI3
D pin
sequence GND GND
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3.2.6 Multi-Functional Sensor
A multi-functional sensor integrates the temperature and humidity (T/H) sensor, smoke sensor
and infrared detection. The multi-functional sensor can connect to the ECC800 over FE or
wireless communication.
The infrared detection function is enabled only when the intelligent lighting function is enabled.
Figure 3-18 Multi-functional sensor
(1) Address DIP switch (2) BLINK button (3) TEST button
(4) RF_Z indicator (5) RUN indicator (6) ALM indicator
Specifications
Table 3-33 Multi-functional sensor technical specifications
Item Specifications
Temperature –40°C to 80°C. Precision ≤ ±0.5 °C (0-50 °
C).
monitoring
Humidity 0 to 100%RH. Precision ≤ ±5% RH (25 °C, 20%–80% RH).
monitoring
Smoke Complies with Ul217. The smoke sensor generates an alarm when
monitoring testing 3.2% weak dust for each foot.
POE port One POE port that complies with IEEE802.3 at.
RS485 port Reserves one RS485 port.
DI input One DI input port, 12 V DC power input.
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Item Specifications
BLINK button Wireless communication:
Press the button for less than 1 second to start blinking.
Hold down the button for 1–5 seconds to search for a network and
start networking.
Hold down the button for more than 10s to clear network
parameters.
Smoke sensor Supported
test button
E-label Supported
Indicators
Table 3-34 Description of the indicators on the multi-functional sensor
Indicator Color Name Status Description
RUN Green Module Blinking at The multi-functional sensor
running status long successfully registers with
indicator intervals the ECC800 and the software
runs properly (the indicator
blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The multi-functional sensor
short fails to register with the
intervals ECC800 or the
communication fails (the
indicator blinks at 4 Hz, on
for 0.125s and then off for
0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm or
indicator smoke alarm is generated.
Off No system alarm is
generated.
RF_Z Green Communicati Steady on No network parameters exist,
on status or a network is to be created.
indicator
Blinking at A network is set up, and no
long node access is allowed (the
indicator blinks at 0.5 Hz, on
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Indicator Color Name Status Description
intervals for 1s and then off for 1s).
Blinking at A network is set up, and
super short node access is allowed (the
intervals indicator blinks at 10 Hz, on
for 0.05s and then off for
0.05s).
Blinking The multi-functional sensor
intermittentl is searching for a network
y at super (the indicator blinks at super
short short intervals for 0.5s and
intervals then turns off for 0.5s).
3.2.7 Smoke Detector
Smoke detectors are used to detect the smoke concentration.
Figure 3-19 Smoke detector
Table 3-35 Technical specifications of a smoke detector
Item Specifications
Operating voltage DC12V (9–16 V DC)
Quiescent current < 8 mA
Alarm current < 35 mA
Output mode Relay output
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Item Specifications
Output contact capacity 3 A/120 V AC or 3 A/24 V AC
Operating temperature –10º to +50º
C C
Ambient humidity < 95% RH (non-condensing)
Dimensions Diameter: 112 mm, height: 41 mm
3.2.8 Temperature Sensor
The temperature sensor (the BOM code: 3301034) is used for the surface temperature
measure, industrial process control, measurement instrument, etc.
Figure 3-20 Temperature sensor
Table 3-36 Temperature sensor specifications
Item Specifications
Measurement range –20º to +70º
C C
Measurement precision 1º C)
± C (25°
Operating temperature –10º to +55º
C C
Operating voltage 10–16 V DC
Storage temperature –40º to +70º
C C
3.2.9 Alarm Beacon
When a fire occurs or smokes are generated in the micro-modular equipment room, the alarm
beacon generates an audible signal and flashes to inform operators of fire and security risks.
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Figure 3-21 Alarm beacon
Table 3-37 Structural specifications of an alarm beacon
Item Specifications
Dimensions (L x W x H) 130 mm x 75 mm x 55 mm
Installation requirements Installed on a wall
Environmental RoHS, Reach
requirements
Table 3-38 Technical specifications of an alarm beacon
Item Specifications
Power input RJ45 port, input voltage 9–16 V DC, operating current ≤ 400
mA
Sound pressure ≥ 100 ±3 dB/30 cm
Continuous operating ≥ 45 min
time
3.2.10 (Optional) Smart U Space Manager
The smart U space manager is designed for IT asset management of the data center. The
system automatically detects the physical location of IT devices in the data center, collects IT
asset codes and the information about U space usage.
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Figure 3-22 Smart U space manager
(1) Asset detection strip (2) U space electronic label (3) Main control box
Table 3-39 Technical specifications of the smart U space manager
Item Specifications
Characteristic Applicable to 42 U cabinets
Communications port RS485, Modbus-RTU
Communication Rate: 9600 bps
Communication format: one start bit, eight data bits, no
parity bit, one stop bit
Power input 5%
12 V DC± (RJ45)
Rated current and power 250 mA
consumption
Data upload port One RS485 route (two RJ45 ports)
Dimensions (mm) Main control box: 71 mm x 70 mm x 25 mm
Detection strip: 1867 mm x 18 mm x 6.5 mm (H x W x
D)
Weight ≤ 0.2 kg (main control box), ≤ 0.35 kg (asset detection
strip)
Installation mode Magnet-based installation
3.2.11 eLight Actuator
The eLight actuator has the function of associating alarms, access authorization status, and
atmospheres.
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Table 3-40 eLight functions
Light of the eLight Cause
eLight Strip Strip Light
Light Lighting
Specificati
ons
Red light Steady on The smart module raises a critical alarm.
Blinking for Access authorization fails and the aisle door cannot be
3 seconds opened.
Blinking The eLight fails to communicate with the ECC800.
Orange light Steady on The smart module raises a major alarm.
Yellow light Steady on The smart module raises a minor alarm.
Grey light Steady on The smart module raises a warning.
Green light Blinking for Access authorization succeeds and the door can be
3 seconds opened.
Blue light Steady on Associated alarm severity is set to None.
Other color Steady on or The device is abnormal or cables are incorrectly
light blinking connected to terminals R, G, and B.
Figure 3-23 eLight actuator
Table 3-41 eLight actuator technical specifications
Item Specifications
Dimensions (L x W x H) 112 mm x 76 mm x 35 mm
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Item Specifications
Power input DC input: terminal, with the input voltage of 24 V DC
Power output AC output: terminal, with the output voltage of 120 V AC
RS485 port (RJ45) Two RS485 ports, support cascading
Installation requirement Install on a guide rail
Operating temperature C
4–40 °
Ambient humidity 5%–95% RH (non-condensing)
3.2.12 Water Sensor
A water sensor detects water on the floor in real time and generates an alarm when water is
detected.
3.2.12.1 WLDS600 Water Sensor
The WLDS600 water sensor with the BOM number of 33010556 consists of a water detection
cable, a water detector, an extension line, and a conversion cable.
Figure 3-24 WLDS600 water sensor
(1) Tie line (2) Water leakage location cable (3) End cap
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(4) Extension line (5) Water leakage locator
Table 3-42 WLDS600 water sensor specifications
Item Specification
Dimensions (H 70 mm x 58 mm x 86 mm ±1
x W x D)
Power supply 9–16V DC or 9–16V AC
Impulse current ≤ 450 mA
Power <2W
dissipation
Power, RJ45 female connector 1 piece
communication
connector
Protocol type Modbus-RTU, data bits 8bits, no parity
Baud rate, Default support 9600, baud rate setable, address setable, default address
address is 1, stop bit is 1bit.
Detected distant 100m (support cable connection in series)
Accuracy 0.5
± m (the cable length 0-10 m)
1%
1 m± (the cable length 10-100 m)
Alarm Light When the power supply is working properly, the green indicator is on.
state When a fault occurs, the yellow indicator is on. When water leakage
occurs, the red indicator is on.
Display 4-bits Nixie tube shows leaking position.
Adjustable 3 grade of sensitivity
Sensitivity
Installation DIN track install supported.
3.2.12.2 WLDS900 Water Sensor
The WLDS900 water sensor with the BOM number of 33010352 consists of a water detection
cable, a water detector, and a conversion cable.
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Figure 3-25 WLDS900 water sensor
(1) Water detector (2) Conversion cable end A, connected (3) Conversion cable
to the water detector
(4) Conversion cable (5) Water detection cable end A, (6) Water detection
end B, connected to connected to the conversion cable cable
the water detection
cable
Table 3-43 WLDS900 water sensor specifications
Item Specification
Operating 12 V DC (9–16 V DC)
voltage
Operating –20° to +70°
C C
temperature
Storage –40° to +85°
C C
temperature
Humidity 10%–80% RH (non-condensing)
3.2.12.3 Electrode Water Sensor
The electrode water sensor with the BOM number of 33010444 contains electrode probes and
cables.
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Figure 3-26 Electrode water sensor
Table 3-44 Electrode water sensor technical specifications
Item Specification
Operating –40° to +80°
C C
temperature
Storage –40° to +80°
C C
temperature
Service life 10 years
3.2.13 WiFi Module
The WiFi module provides WiFi signals for equipment such as pads and mobile phones to
interact with the host computer.
Figure 3-27 WiFi module
Table 3-45 Technical specifications
Item Specifications
Wireless standard IEEE 802.11n, IEEE 802.11g, and IEEE 802.11b
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Item Specifications
Network 11n: up to 150 Mbps
bandwidth 11g: up to 54 Mbps
11b: up to 11 Mbps
Frequency band 2.4-2.4835 GHz
Wireless 20 dBm (MAX EIRP)
transmission
power
Supported Windows 2000/XP/Vista/Linux/Win 7
operating system
Ports USB 2.0 high-speed connector
Voltage range 5.0 V DC±5%
Operating C C
-20° to +70°
temperature
Storage C C
-40° to +90°
temperature
Relative humidity 10%–90% RH (non-condensing)
Storage humidity 5%–90% RH (non-condensing)
Power < 0.8 W
3.2.14 ETH Converter
The ETH converter is used to convert the Modbus–RTU protocol or CAN protocol to the
Modbus-MAC protocol for connecting to the POE bus.
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Figure 3-28 ETH converter
(1) Status indicator (2) BLINK button (3) COM1 communications port
(4) COM2 communications port (5) 48 V power port (6) POE port
Specifications
Table 3-46 ETH converter technical specifications
Item Specifications
Power input DC input: Terminal, with input voltage of 36–60 V DC
POE power supply: One POE port, 10/100M communication rate,
complying with IEEE802.3at
RS485 or Provides two RS485/CAN ports. The default communications rate for the
control area RS485 port is 9600 bit/s, and that for the CAN port is 125 kbit/s. Both
network ports match the RJ45 terminal shared by RS485 and CAN.
(CAN)
BLINK If you press the BLINK button, the RUN indicator blinks intermittently at
button super short intervals (blinking at super short intervals for 0.5s and then off
for 0.5s) for 10 seconds.
E-label Supported
Indicators
Table 3-47 ETH converter indicators
Indicator Color Name Status Description
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Indicator Color Name Status Description
PWR Green Power input Steady on The power input is normal.
status
indicator Off There is no power input.
RUN Green Operating Off The power supply is
status abnormal.
indicator
Blinking at The ETH converter
long intervals successfully registers with the
ECC800 and the software
runs properly (the indicator
blinks at 0.5 Hz, on for 1s
and then off for 1s).
Blinking at The communication fails or
short the ETH converter fails to
intervals register with the ECC800 (the
indicator blinks at 4 Hz, on
for 0.125s and then off for
0.125s).
Blinking The indicator blinks at super
short intervals for 0.5s
(blinking at 10 Hz, on for
0.05s and then off for 0.05s)
and then turns off for 0.5s.
The cycle lasts for 10s.
ALM Red Alarm Steady on A system failure alarm is
indicator generated.
Off No system alarm is
generated.
3.2.15 PAD
The pad allows the wireless access from the data center management system. You can monitor
the equipment in the data center and environmental parameters in real time over the APP.
Figure 3-29 shows a pad.
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Figure 3-29 PAD
Table 3-48 Pad structural specifications
Item Specifications
Dimensions (L x W x 243 mm × 164 mm × 7.8 mm
H)
Weight About 460 g
Table 3-49 PAD technical specifications
Item Specifications
Touchscreen 10.1-inch, IPS full view, IPS screen, and capacitive five-point
touch
Store Machine: 32 GB
Memory: 3 GB
LPDDR3 extension card: microSD, a maximum of 256 GB
(non-standard configuration)
Button/Port Touch button + power switch and volume button
3.5 mm stereo headphones port
Micro SD card port
MicroUSB port
Camera Rear camera: 8-megapixel, F2.0 aperture, automatic focus
Front camera: 2-megapixel, F2.4 aperture, fixed focus
Sensor type: BSI
Flash: not supported
Video recording: rear camera up to 1080 pixels at 30 FPS;
front camera up to 720 pixels at 30 FPS
Zoom mode: digital zoom
Photo resolution: rear camera up to 8 M (3264 x 2448
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Item Specifications
pixels); front camera up to 1.9 M (1600x 1200 pixels)
Battery Materials: Li-polymer
Capacity: 5100 mAh (typical value) or 4980 mAh (rated
value)
Wi-Fi connection/web page browse time: about 6.5 hours
Power adapter charge time: about 3.5 hours (5 V 2A adapter)
3.2.16 T/H Sensor
3.2.16.1 T/H sensor (BOM number: 33010346)
Figure 3-30 Appearance
The T/H sensor uses an RJ45 connector.
Figure 3-31 Pins of an RJ45 connector
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Table 3-50 Pin description of an RJ45 connector
Pin Description
Pin 1 A
Pin 2 B
Pin 3 V+
Pin 4/5/6/7 Reserved
Pin8 V-
Table 3-51 T/H sensor specifications
Item Specifications
Temperature measuring range C C
-20° to 70°
Temperature accuracy ≤ ±0.3°C (25°C)
Humidity measuring range 0%–100% RH
Humidity accuracy ≤ ±5% RH (25°C, 30%–80% RH)
Operating temperature C C
-20° to 70°
Operating voltage 9–16 V DC
Storage temperature C C
-40° to 80° (non-condensing)
Output RS485
3.2.16.2 T/H Sensor (BOM number: 02310NBS)
Figure 3-32 Appearance
(1) Status indicator (2) RS485_IN
(3) RS485_OUT (4) Address DIP switch
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The RS485 communications ports of the T/H sensor use RJ11 (6P6C) connectors.
Figure 3-33 Pins of an RJ11 connector
Table 3-52 Pin description of an RJ11 connector
Pin Description
Pin 1 or Pin 2 GND
Pin 3 RS485-
Pin 4 RS485+
Pin 5 or Pin 6 12V
Table 3-53 Temperature and humidity sensor specifications
Item Specifications
Temperature measuring range –20° to +70°
C C
Temperature accuracy 1°
± C
Operating temperature –10° to +55°
C C
Operating voltage 9–16 V DC
Storage temperature –40° to +70°
C C
Output RS485
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3.2.16.3 T/H Sensor (BOM Number: 02311FQG)
Figure 3-34 Appearance
(1) RS485-OUT (2) RS485-IN (3) DIP switch (4) Button
(5) NTC1-3 (6) NTC4-6 (7) Display
Table 3-54 Temperature and humidity sensor specifications
Item Temperature Humidity
Measurement range – 40° to +70°
C C 1%–99% RH
Precision ≤ ±1°C (25°C) ≤ ±5% RH (25°C, 20%–80% RH)
Extended temperature Provides two RJ45 ports to connect six NTC temperature
collection port sensors, each RJ45 port connecting to three NTC
temperature sensors.
Signal port RS485
Power supply 5 –16 V DC (typical value 12 V DC)
Power consumption < 180 mW
Storage environment – 40° to +70°
C C
Weight About 85 g
3.2.17 Intelligent Battery Monitoring System
The intelligent battery monitoring system consists of the iBOX (CIM) and iBAT (BIM).
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The iBOX is an intelligent battery management module that collects wireless communication
data from the downstream iBAT groups, collects and analyzes the operating data of battery
strings, calculates state of charge (SOC) and state of health (SOH) of batteries and battery
strings and estimates the battery health status accordingly, supports battery tripping
management, and uploads data to the management unit through COM or POE ports.
The iBAT is a battery monitoring module that monitors the voltages, internal resistances, and
pole temperatures of batteries.
In the scenario with battery cabinets, the iBOX is installed inside a smart module battery
cabinet and the iBOX communications cable connects to a smart ETH gateway.
(Optional) When a battery system needs to be managed by multiple iBOXs, the iBOXs can be
connected to northbound devices using straight-through cables (the ECC800 supports four
iBOXs in parallel through the smart ETH gateway) without cascading.
Figure 3-35 Connecting the iBOX signal cable
3.2.17.1 iBOX
iBOX is a battery information collection module. It collects battery status data from the
downstream iBAT groups through wireless communication, and sends the data to the ECC,
UPS, and the third-party network management system (NMS) through COM or POE ports.
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Appearance
Figure 3-36 iBOX front view
(1) –48 V 0.5 A port (2) POE port (3) COM_IN port (RS485
(power input) communication input)
(4) COM_OUT port (5) DI and DO ports (6) HALL_1–HALL_8
(RS485 communication current monitoring ports
output)
(7) RF_Z antenna port (8) BCB_1–BCB_4 ports (9) BCB_OUT and BCB_IN
(BCB_2–BCB_4 reserved) ports
(10) Networking switch (11) PWR indicator (12) RUN indicator
(13) ALM indicator (14) RF_Z indicator (15) Delivered antenna
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Figure 3-37 iBOX bottom view
(1) Fastener (2) Micro SD card slot
(3) Default button (IP (4) ADDR dual in-line package (DIP) switch (RS485
reset) communications address)
(5) 12 V 2 A port (power
input)
Power Port
Figure 3-38 Power port pins
Table 3-55 12 V, 2 A port pin definitions
Pin Definition Description
1 – In this scenario, an external
power module is adopted to
2 + supply 12 V DC operating
voltage.
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Table 3-56 –48 V, 0.5 A port pin definitions
Pin Definition Description
1 + The system provides 48 V
DC operating voltage in this
2 – scenario.
POE Port
Figure 3-39 POE port pins
Table 3-57 POE port pin definitions
Pin Definition Description
1 TX+ Supports power supply
through the POE port. The
2 TX– terminal is an RJ45 terminal
with an indicator.
3 RX+
4, 5 P45_P1
6 RX–
7, 8 P78_P1
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COM Port
Figure 3-40 COM port pins
Table 3-58 COM port pin definitions
Pin Signal Description
1 RS485+ Two cascaded RS485
communication ports
2 RS485–
3 NC
4 RS485+
5 RS485–
6 GND
7 NC
8 NC
DI and DO Ports
Table 3-59 DI and DO port pin definitions
Pin Definition Signal Status Initial Remarks
Description Description Status
1 + Dry contact Open: The Open Dry contact
input signal dry input and
2 – contact output signal
input is
open.
Closed:
The dry
contact
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Pin Definition Signal Status Initial Remarks
Description Description Status
input is
closed.
3 NO Dry contract Open: The Open
output signal dry
4 COM contact
output is
open.
Closed:
The dry
contact
output is
closed.
HALL Current Monitoring Port
Figure 3-41 HALL current monitoring port pins
Table 3-60 HALL current monitoring port pin definitions
Pin Definition Description
1 +12 V Detect the charge and discharge currents of four battery strings
or eight battery routes.
2 –12 V
3 AI
4 GND
If the battery string is configured with the neutral wire, measure the currents of the positive and
negative battery string cables. If the battery string is not configured with the neutral wire, measure
the current of either the positive or negative battery string cable. The following uses the scenario
where the battery string is configured with the neutral wire as an example.
When an iBOX manages multiple battery strings, first connect the Hall effect sensors on the positive
and negative cables of battery string 1 respectively to the corresponding ports on the iBOX. Then
connect the Hall effect sensors on battery string 2 to the iBOX in the same way, and so on.
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If the positive or negative battery string cable is too thick to be routed through the Hall effect sensor,
or the measurement range of the Hall effect sensor is not enough, use multiple Hall effect sensors to
monitor the current of one battery string. The iBOX supports the sum of the monitoring results of
multiple Hall effect sensors, which is set through Multi-Hall cur. setting.
The value of Multi-Hall cur. setting equals the number of positive or negative Hall effect sensors in
a single battery string and should be greater than or equal to 1.
BCB Port
Figure 3-42 BCB port pins
Table 3-61 BCB_1–BCB_4 port pin definitions
Pin Definition Signal Status Initial Remarks
Description Description Status
1 OL Monitors Grounded: Disconnected The four BCBs can
whether the BCB separately manage
BCB box is connected. tripping of four battery
connected Disconnected: routes.
BCB not
connected.
2 STA Monitors the Grounded: Disconnected
battery circuit The battery
breaker circuit breaker
is ON.
Disconnected:
The battery
circuit breaker
is OFF.
3 DRV Controls battery 0 V: There is 0V
circuit breaker no driving
trip and outputs signal for
12 V driving BCB tripping.
signals 12 V: There is
4 GND Secondary side a driving
ground signal for
BCB tripping.
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Table 3-62 BCB_IN and BCB_OUT cascading port pin definitions
Pin Definition BCB_IN BCB_OUT Status Description Initial Description
Signal Signal Status
Description Description
1 OL Specifies Specifies Grounded: BCB Disconnected Receives
whether the whether the connected. BCB
BCB connects cascaded Disconnected: commands
to the signal BCBs connect BCB not sent by the
output port. to the signal connected. UPS and
input port. supports
BCB port
2 STA Signal output Monitors Grounded: The Disconnected cascading
port for the whether the battery circuit management.
battery circuit cascaded breaker is ON.
breaker status BCBs are Disconnected:
connected to The battery
the input. circuit breaker is
OFF.
3 DRV Controls battery circuit breaker 0 V: There is no 0V
trip and receives 12 V driving driving signal for
signals BCB tripping.
12 V: There is a
4 GND Secondary side ground
driving signal for
BCB tripping.
DIP Switch
Table 3-63 DIP switch description
No. Definition Description
1 ADDR_1 RS485 communications
address setting
2 ADDR_2
3 ADDR_3
4 ADDR_4
Indicators
Table 3-64 Indicator description
Indicator Color Meaning Status Description Measure
RF_Z Green Wireless Steady on No network Requires no
communica parameters exist. handling.
(A network is to be
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Indicator Color Meaning Status Description Measure
tion status created.)
Blinking at A network is being
super short created (new nodes
intervals allowed).
Blinking at Data is being
long transmitted (new
intervals nodes not
allowed).
RUN Green Northbound Blinking at The Requires no
communica long communication is handling.
tion status intervals normal.
Blinking Blinking, lasting Requires no
intermittent for 10s. handling.
ly at super
short
intervals
Blinking at Communication 1. Check
short fails. (No whether the
intervals legitimate communicati
northbound data on cable is
has been received loose.
for 3 minutes.) If yes,
reconnect
the
communi
cation
cable.
If no, go
to the
next step.
2. Check
whether the
device is
malfunctioni
ng.
If yes,
replace
the
device.
If no,
contact
Huawei
technical
support.
ALM Red Alarm Steady on The actual number Check the value
indicator of online devices is of iBAT
less than the value number, the
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Indicator Color Meaning Status Description Measure
of iBAT number. iBAT cable
connection, and
the iBAT
indicators.
Off The actual number Requires no
of online devices handling.
equals the value of
iBAT number.
PWR Green Power Steady on Board power Requires no
indicator indicator. handling.
If an indicator blinks at long intervals, it is blinking at 0.5 Hz, that is, on for 1s and then off for 1s.
If an indicator blinks at short intervals, it is blinking at 4 Hz, that is, on for 0.125s and then off for
0.125s.
If an indicator blinks at super short intervals, it is blinking at 10 Hz, that is, on for 0.05s and then off
for 0.05s.
Blinking intermittently at super short intervals means an indicator blinks at super short intervals for
0.5s and then remains off for 0.5s.
Networking Switch
Table 3-65 Networking switch description
Name Definition Function
Button pressing Press the button for less iBOX blinking function
than 1s.
Button pressing Press and hold the button Creates a network if no network has
for more than 1s but less been created. Switches between network
than 5s. organization and data transmission if a
network has been created.
Button holding Press and hold the button Clears the current network (including
down for more than 10s but less the network parameters of all the online
than 20s. iBATs).
Default Button
Table 3-66 Default button description
Name Definition Function
Default button Hold down the button Reset to the default IP address
for more than 10 (192.168.0.10)
seconds.
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3.2.17.2 iBAT
The iBAT is a battery monitoring module that monitors the voltages, internal resistances, and
pole temperatures of batteries and supports 12 V power.
Features
Monitors the voltages, internal resistances, and pole temperatures of 12 V batteries.
Supports the hibernation function. (When it detects that the battery voltage is low, it will
enter the low-power mode.)
Communicates with the iBOX wirelessly.
iBAT Appearance
Figure 3-43 iBAT2.0
Figure 3-44 iBAT3.0
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Indicators
Table 3-67 Indicator description
Indicator Color Silk Status Description
Screen
Running Green RUN Off Power consumption is low or the
iBAT is not powered on.
Blinking at The networking has started but not
super short completed.
intervals
Blinking at The networking succeeds.
long intervals
Alarm Red ALM Off The iBAT is not faulty.
Steady on The iBAT is faulty.
Communication with the iBOX
times out.
No network is connected. (The
iBAT is waiting to connect to a
network.)
Blinking at Network parameters are being
super short cleared.
intervals The iBAT is blinking.
(iBattery 2.0)
Blinking at
short intervals
(iBattery 3.0)
If an indicator blinks at long intervals, it is blinking on for 1s and then off for 1s.
If an indicator blinks at super short intervals, it is blinking at 10 Hz, that is, on for 0.05s and then off
for 0.05s.
If an indicator blinks at super short intervals, it is blinking at 4 Hz, that is, on for 0.125s and then off
for 0.125s.
Networking Switch
Table 3-68 Networking switch description
Name Definition Function
Button pressing Press the button for less Searches for and joins a network if there is no
than 5 seconds. network. Initializes the network parameters if
there is a network.
Button holding Hold down the button Clears the current network and resets the
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Name Definition Function
down for more than 5 wireless module; disconnects the network.
seconds.
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4 UI Description
4.1 WebUI
For data transmission security, the ECC800 supports WebUI access through TLS.
Figure 4-1 Home page
WebUI Introduction
Table 4-1 WebUI introduction
Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
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Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Home Plan NA View and Yes NA
View manage the
layout view of
devices.
View the system
PUE (including
the instantaneous
mPUE value and
average PUE
value) in a
dashboard and
the system trend
curve.
Active NA View active alarms. No NA
Alarms
Multi-M NA View the status of Yes NA
odule each cascaded
Monitori ECC800.
ngb
Monitori System Connected Monitor the device Yes For example, in the path of
ng devices, such as running information Monitoring > ECC800 >
ECC800, ETH in real time, set Running Parameters:
Converter device running AI/DI_1 sensor-AI/DI_6
Group, and parameters, and sensor is Disable by default.
Smart ETH control the device
IP device num is 100 by
Gateway Group. running. For
example, set smart default.
cooling product Online detection timeout
parameters, delete interval is 30 by default.
devices failing in
Power Connected communication, and Yes NA
Distributi devices, such as set AI/DI device
on Integrated PDU, parameters.
PDU8000, and
Power
Distribution
Unit
Aisle Connected Yes NA
devices, such as
Multi-Functiona
l Sensor Group,
Access Actuator
Group, and
Skylight
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Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Actuator Group
Cooling Connected Yes –
smart cooling
products.
Cabinet IT cabinet Yes NA
Query Historica NA Query historical No NA
l Alarms alarms.
Performa NA Query device No NA
nce Data performance data.
Operatio NA Query operation No NA
n Log logs.
Access NA Query access control No NA
Event events.
Export NA Export historical No NA
Data data and device data.
System System Site Set the system type Yes Smart module name is
Settings Paramete Configuration and site ID. FusionModule by default.
rs System type is
FusionModule2000 by default.
NOTE
If System type is General, the
ECC800 is a general collector that
collects device data and reports the
data to the northbound NMS.
Monitor IP Set the IP address No IP for WAN_1 is
for the monitoring 192.168.1.10 by default.
module. The default IP addresses of
Primary DNS server and
Secondary DNS server in the
DNS Server Address area are
192.168.1.10.
IP for WAN_2 is
192.168.0.10 by default.
Time Set the time zone, No NA
time, and date.
Access NA Set the access users No NA
Manage and permissions.
ment
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Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Video NA Add, modify, or Yes NA
Manage delete videos.
ment
NMS NetEco Set SNMP and Yes Server IP is 192.168.8.11 by
Applicati NetEco default.
on communications Port number is 31220 by
parameters. default.
Monitoring IP address for link
setup is WAN_1 by default.
SNMP Yes SNMP version is SNMPv3 by
default.
SNMP port number is 161 by
default.
Transparent Set the transparent Yes Transparent Transmission
Transmission transmission Through COM Ports is Disable
Channel function of the by default.
device and upload Enable security authentication
the network security is Enable by default.
certificate.
Device Device Addition Add devices or No NA
Manage replace the security
ment Security certificate for device No NA
Certification access.
Change
Smart NA Cascade up to three Yes NA
Module ECC800s through
Cascadin multi-module
g configuration.
PUE NA Set PUE parameters. Yes PUE Function is Enable by
Configur default.
ation PUE configuration mode is
Standard by default.
Linkage NA Set PLC linkage Yes NA
Control rules.
Alarm Basic Alarm Set basic alarm Yes NA
Paramete Parameters parameters and
rs alarm association
Alarm Linkage parameters. Yes NA
Performa Performance Query and set device Yes NA
nce Parameters performance
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ECC800 Data Center Controller
User Manual 4 UI Description
Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
Paramete parameters.
rs
All Configured View all the preset Yes NA
Data performance
parameters
Event Email Settings Set alarm Yes NA
Notificati notification mode to
on SMS Settings be over email and Yes NA
SMS.
Alarm Yes NA
Notification
Signal NA Modify signal Yes NA
Name names.
Modify
Maintena Software Software Upgrade the Yes NA
nce Upgrade Upgrade software of the
ECC800 and its
southbound devices
online.
Version If the version is not No NA
Mapping matched, you need
to perform matching
upgrade.
Version NA Query the version No NA
Informati information about
on hardware and
software.
E-Label NA Query or export No NA
E-labels.
User NA Manage users, such No NA
Manage as adding,
ment modifying, and
deleting users.
Configur NA Import and export No NA
ation File configuration files to
configure devices
quickly, and restore
factory defaults.
Fault NA Export fault No NA
Informati information.
on
Issue 07 (2020-01-20) Copyright © Huawei Technologies Co., Ltd. 79
ECC800 Data Center Controller
User Manual 4 UI Description
Main Second- Third-Level Function Factor Remarks
Menu Level Menu y
Menu Defaul
ts
Restor
ationa
APP NA Download the app No NA
Obtainin installation package
g by scanning the QR
code.
Paramete NA Synchronize No NA
r Sync device
parameters to
quickly import
data of
southbound
devices (such as
the
multi-functional
sensor and
skylight
actuator).
Support device
replacement.
Access NA Manage the access No NA
Package package.
Mgmt
Configur NA Support the No NA
ation deployment wizard
Wizard and set simple
parameters as
instructed by the
wizard.
a: The factory settings can be restored only on the WebUI.
b: Multi-Module Monitoring is displayed on the Home page only after you set Smart Module Cascading.
Issue 07 (2020-01-20) Copyright © Huawei Technologies Co., Ltd. 80
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